Entries |
Document | Title | Date |
20080210406 | METHOD AND APPARATUS FOR HIGH HEAT FLUX HEAT TRANSFER - The subject invention pertains to a method and apparatus for high heat flux heat transfer. The subject invention can be utilized to transfer heat from a heat source to a coolant such that the transferred heat can be effectively transported to another location. Examples of heat sources from which heat can be transferred from include, for example, fluids and surfaces. The coolant to which the heat is transferred can be sprayed onto a surface which is in thermal contact with the heat source, such that the coolant sprayed onto the surface in thermal contact with the heat absorbs heat from the surface and carries the absorbed heat away as the coolant leaves the surface. The surface can be, for example, the surface of an interface plate in thermal contact with the heat source or a surface integral with the heat source. The coolant sprayed onto the surface can initially be a liquid and remain a liquid after absorbing the heat, or can in part or in whole be converted to a gas or vapor after absorbing the heat. The coolant can be sprayed onto the surface, for example, as a stream of liquid after being atomized, or in other ways which allow the coolant to contact the surface and absorb heat. Once the heat is absorbed by the coolant, the coolant can be transported to another location so as to transport the absorbed heat as well. | 09-04-2008 |
20080236794 | Heat-removal device - A heat-removal device for removing heat from a hot surface includes a housing containing a cooling fluid. The housing has a heat-absorption section, which is in contact with the hot surface. The housing also has a heat-dissipation section, which is cooled by natural or forced convection with ambient air. An internal impeller circulates the cooling fluid in a closed loop between the heat-absorption section and the heat-dissipation section to transport heat away from the hot surface to the ambient air. | 10-02-2008 |
20080245509 | HYDROFLUOROETHER AS A HEAT-TRANSFER FLUID - The present invention provides an apparatus comprising a device and a mechanism for heat transfer comprising a hydrofluoroether heat-transfer fluid wherein the heat transfer fluid is represented by the following structure: | 10-09-2008 |
20080257530 | Sorber Heat Exchanger Wall and Sorber Heat Exchanger - The invention relates to a sorber heat exchanger wall comprising a fluid side ( | 10-23-2008 |
20080264609 | HEAT EXCHANGER FOR EXHAUST GAS COOLING; METHOD FOR OPERATING A HEAT EXCHANGER; SYSTEM WITH A HEAT EXCHANGER FOR EXHAUST GAS COOLING - A heat exchanger, in particular for cooling the exhaust of a motor vehicle internal combustion engine, is disclosed, the heat exchanger comprising a first partial heat exchanger with at least one first flow channel through which a medium to be cooled is to flow and at least one third flow channel through which a first coolant is to flow, at least one second partial heat exchanger with at least one second flow channel through which a medium to be cooled is to flow and at least one fourth flow channel through which a second coolant is to flow, wherein the at least one first flow channel and the at least one second flow channel are fluidly connected, and the at least one first flow channel and the at least one second flow channel have at least one first specific heat transfer surface and at least one second heat transfer surface, wherein second specific heat transfer surface area, divided by first specific heat transfer surface area, yields a quotient (ψ), the at least one first flow channel having a larger quotient (ψ) than second flow channel. | 10-30-2008 |
20080264610 | PROTECTION APPARATUS AND METHODS - Methods and apparatus for providing environmental protection to electronic systems, particularly data storage systems, in order to permit such systems to survive severe environmental changes such as those that occur during a fire. | 10-30-2008 |
20080271876 | Process and apparatus for cooling a metal part during a welding operation - A process and apparatus are provided for cooling an airfoil of a blade during a welding repair operation on the airfoil. At least one polymeric pouch is positioned adjacent a surface of the airfoil, and a coolant fluid is passed through the polymeric pouch during the repair operation on the airfoil. | 11-06-2008 |
20080308257 | Heat dissipating assembly - A heat dissipating assembly for dissipating heat of a heat source is provided. The heat dissipating assembly includes a body, at least one circulation pipe, and a working fluid. The body has a chamber defined therein and least one pipeline formed in a wall of the body. The body further has at least one first orifice in communication with the chamber of the body, and at least one second orifice in communication with the pipeline. The circulation pipe has two end portions respectively connected to the first orifice and the second orifice. The working fluid is accommodated in the chamber of the body, wherein the working fluid flows into the circulation pipe through the first orifice, and flows into the pipeline through the second orifice to flow back to the chamber of the body, thereby forming a two phase circulation loop. | 12-18-2008 |
20080308258 | MICRO-CHANNEL HEAT SINK - A micro-channel heat sink comprises an upper cover layer and a cooling layer. The cooling layer comprises at least one inlet fluid tank, a plurality of micro-channels, and at least one outlet fluid tank. The inlet fluid tank can store and deliver the working fluids, and the outlet fluid tank collects the heated working fluid flowing through the plurality of micro-channels. The plurality of micro-channels are disposed between the inlet fluid tank and the outlet fluid tank, wherein the cross sectional area of each of the micro-channels increases along the direction towards the outlet fluid tank. | 12-18-2008 |
20080314562 | Water-Cooled Air Compressor - Provided is a water-cooled air compressor which is capable of restraining lowering of the performance of a plate type compressor for heat-exchanging compressed air from a compressor body, with cooling water due to clogging of gaps between plates in the heat-exchanger by dust or the like, incorporating a first solenoid valve and a second solenoid valve connected respectively in a cooling water supply pipe line and a cooling water discharge pipe line of the heat-exchanger, an air feed pipe line connecting between a compressed air supply pipe line on the outlet side of the heat-exchanger and the cooling water discharge pipe line, a third solenoid valve and a check valve connected in the air feed pipe line, a discharge pipe line connected in a discharge pipe line | 12-25-2008 |
20090000771 | Micro-tube/multi-port counter flow radiator design for electronic cooling applications - A counter flow radiator includes multiple layered cooling cores configured in series along a first direction that is the same as the direction of airflow used to cool fluid flowing through the counter flow radiator. Heated fluid inputs the counter flow radiator at a first end and flows through each cooling core in a serpentine-like path to the second end of the counter flow radiator, effectively progressing in a direction opposite that of the airflow. | 01-01-2009 |
20090008062 | Heat Transport Medium and Heating or Cooling System with the Medium - The invention relates to a heat transport medium which is made up of a liquid base component in the form of water and at least one additive from polyvinyl alcohol (PVA) and a nanofiber material. | 01-08-2009 |
20090020265 | Heat exchanger - A heat exchanger includes at least two tube sections wound helically to form a spiral and are arranged in an interlacing manner inside one another for guiding a heat transfer fluid. The heat exchanger includes a first tube section helically wound to form a first spiral. The first tube section is for guiding a first heat transfer fluid and a second tube section is helically wound to form a second spiral, the first spiral and the second spiral being arranged in an interlacing manner inside one another and being connected to one another. | 01-22-2009 |
20090025908 | SYSTEM AND METHOD FOR HEATING VISCOUS FUEL SUPPLIED TO DIESEL ENGINES - A heat transfer system is used for heating a viscous fuel supplied to a diesel engine. The heat transfer system includes a heat exchanger provided at a predetermined location within the heat transfer system. A hot fluid and viscous fuel are circulated in a heat exchanging relationship within the heat exchanger to heat the viscous fuel supplied to the engine from a first temperature to a second temperature. | 01-29-2009 |
20090032223 | Non-Contacting Thermal Rotary Joint - An apparatus ( | 02-05-2009 |
20090032224 | HEAT EXCHANGER - A brazing material in a paste form is applied to dented portions formed on the outer surface of a core pipe, and then a pipe is disposed on the pipe, and brazing in a furnace. In this way, the brazing material that was melted by the heat will be reliably poured into the dented portions and bonded thereto after being cooled down. Thus, the dented portions formed on the outer surface of the core pipe can be reliably filled with the brazing material, which consequently eliminates a poor contact between the core pipe and the winding pipe. In addition, even if the wall thickness of portions in which projections are formed are made thinner in the process of forming the projections, the dented portions formed on the outer surface are filled with the brazing material, so that the core pipe thickness can be reinforced, and the reduction in strength of the portions with the projections can be prevented. | 02-05-2009 |
20090032225 | Method and Plant for Cooling Fluid Agglomerates Using Their Liquid Component as a Heat Carrier - Method for cooling in a controlled manner a fluid agglomerate or polyphase fluid, with a continuous or discontinuous flow, consisting of liquid and solid components, such as pressed grapes, said fluid being introduced and present inside an associated receptacle, it is envisaged removing from this agglomerate at least a part thereof, extracting it from the abovementioned receptacle, cooling it and then introducing it again inside the receptacle so as to use it again as a heat carrier or means for removing heat from the remaining part of the said fluid agglomerate present in the abovementioned receptacle. | 02-05-2009 |
20090038779 | Fluid Vortex Energy Transfer System - A fluid energy transfer system comprising at least one coil containing a fluid pumped in a first flow direction. The fluid comes from a source and returns to the same source. The coil is enclosed within a tank. The tank contains a tank fluid. The tank fluid is pumped into the tank in a closed system from at least one heat pump. The tank fluid is circulated from the heat pump into the tank through at least one jet located along a wall of the tank. The tank fluid moves in a direction starting from a first end of the tank and exiting at a second end of the tank in an flow direction opposite that of the coil fluid. The circulation of the tank fluid creates a vortex that creates an increase in the heat transfer coefficient by forced convection in immersion of the tank fluid over the coil. | 02-12-2009 |
20090044929 | Liquid cooling module - A liquid cooling module has a sealed unit and a heat dissipating module connected by multiple flexible pipes. The sealed unit has a contacting surface attached to an electronic element. The heat dissipating module has a radiator, coolant tanks and a pump all mounted compactly together. The radiator has multiple fins and tubes to allow the coolant to flow through and dissipate heat and may have a fan to increase airflow. The coolant tank is formed on the radiator. The pump circulates the coolant along the coolant pipes. Accordingly, the liquid cooling module has a compact structure and the coolant pipes are flexible, so the liquid cooling module can be mounted simply in a computer case, and is installed easily by home users and professionals alike. | 02-19-2009 |
20090050296 | Heat Exchange Apparatus, Particularly Fire Tube Condensing Boiler - A heat exchange apparatus, particularly a fire tube condensing boiler, provided with a structure made of carbon steel and comprising an outer enclosure, which is adapted to delimit a portion of space for containing the fluid to be heated, which is fed cold by means of an intake coupling located proximate to the base and flows out hot through a discharge coupling located proximate to the top of the enclosure, said portion of space being crossed by flue gas conveyance tubes, further comprising a bell-shaped element, which is located proximate to the top of said portion of space and is open at the lower end and closed at the upper end, said bell-shaped element being provided with a thermostatic device which is adapted to allow the fluid contained therein to flow out when it reaches a preset temperature. | 02-26-2009 |
20090050297 | Dissipating Module Structure for Heat Generating Device - The invention is to provide a heat dissipating module structure for a heat generating device. The heat dissipating module structure according to a preferred embodiment of the invention includes a heat-conducting device, a carrier, and a heat-conducting material. The first end of the heat-conducting device is inserted into the bore such that the top of the first end of the heating-conducting device is aligned with or close to the upper surface of the carrier. The heat-conducting material surrounds the upper surface of the carrier such that the heat-conducting material together with the upper surface provides a supporting plane. The heat generating device is to be mounted on the supporting plane. Moreover, the heat generated from the heat generating device is conducted from the first end of the heat-conducting device to the second end of the heat-conducting device. | 02-26-2009 |
20090050298 | HEAT EXCHANGER AND INTEGRATED-TYPE HEAT EXCHANGER - A heat exchanger | 02-26-2009 |
20090056914 | TEMPERATURE CONTROL SYSTEM AND METHOD - A temperature control system for a frame ( | 03-05-2009 |
20090056915 | ELECTRICALLY INSULATED HEAT SINK WITH HIGH THERMAL CONDUCTIVITY - This invention relates to an electrically insulated heat sink with high thermal conductivity, which is made of ceramic material and is integrally formed with a plurality of post-shaped heat dissipating bodies on the upper end surface. A plurality of heat pipes charged with working liquid medium therein are disposed within the interior of the heat sink. According to this structure, the heat sink has good insulation, heat absorption and heat dissipation effects. | 03-05-2009 |
20090065178 | Liquid cooling jacket - A liquid cooling jacket (J | 03-12-2009 |
20090065179 | HEAT TRANSFER APPARATUS WITH A VARIABLE ABSORPTION SURFACE - Heat transfer apparatus with a variable absorption surface The heat transfer apparatus comprises a variable absorption surface ( | 03-12-2009 |
20090071625 | FLUID HEAT EXCHANGER - A fluid heat exchanger includes: a heat spreader plate including an intended heat generating component contact region; a plurality of microchannels for directing heat transfer fluid over the heat spreader plate, the plurality of microchannels each having a first end and an opposite end and each of the plurality of microchannels extending substantially parallel with each other microchannel and each of the plurality of microchannels having a continuous channel flow path between their first end and their opposite end; a fluid inlet opening for the plurality of microchannels and positioned between the microchannel first and opposite ends, a first fluid outlet opening from the plurality of microchannels at each of the microchannel first ends; and an opposite fluid outlet opening from the plurality of microchannels at each of the microchannel opposite ends, the fluid inlet opening and the first and opposite fluid outlet openings providing that any flow of heat transfer fluid that passes into the plurality of microchannels, flows along the full length of each of the plurality of microchannels in two directions outwardly from the fluid inlet opening. A method of cooling a heat generating component uses a fluid heat exchanger that splits a mass flow of coolant. | 03-19-2009 |
20090071626 | MAGNET TEMPERATURE CONTROL DEVICE - A magnet temperature control device, for use in a magnetic resonance system having a magnet, includes a pipeline and a temperature regulator. The pipeline is connected to a liquid or gas circulation, and the temperature regulator is connected in series in the pipeline to regulate the temperature of the liquid or gas. A part of the pipeline is arranged inside the magnet, while the rest of the pipeline is arranged outside said magnet; the part of said pipeline which is arranged inside said magnet is distributed uniformly within the magnet, and its cross-sectional shape is in an annular, helical, radicalized or network form, or a combination thereof. Compared to the use of a heater that is distributed only on the surface of the magnet, the pipeline distributed inside the magnet can control the magnet temperature more directly and effectively, so as to smooth and eliminate the temperature change of the magnet promptly by the liquid or gas flow therein, thereby making the magnet temperature more stable. | 03-19-2009 |
20090071627 | SELF-REGULATED THERMAL ENERGY SYSTEM - The aim of the present invention is to provide a self-regulating thermal energy storage system for use in conjunction with at least one thermal energy client. The invention also discloses methods for self-regulating, the storage, and use of thermal energy in thermal energy storage system, as well as a consul for system as defined above. This consul is modulated, unitary, integrated or stands alone as a control system adapted for controlling the heated/cooled system defined above. | 03-19-2009 |
20090095446 | SYSTEM, METHOD, AND APPARATUS FOR PULSED-JET-ENHANCED HEAT EXCHANGER - A pulsed-jet active flowfield control actuation system enhances the rate of heat transfer and heat removal in a heat exchanger for better management of thermal loads. The pulsed jet actuators impart an unsteady component of velocity to the working fluid of the heat exchanger. This design increases the convective heat transfer, and avoids increases in heat exchanger volume and weight for a given performance value. | 04-16-2009 |
20090095447 | METHOD FOR BONDING AN ALUMINUM RIB TO A STEEL PIPE AND HEAT EXCHANGER HAVING A UNIT PRODUCED IN THIS WAY - The invention relates to a method for bonding an aluminum rib to a steel pipe, a surface coating material of the steel pipe being used as the bonding material, so that supplying a separate soldering material, for example, may be dispensed with. The invention additionally relates to a heat exchanger which comprises a unit made of steel pipe and aluminum rib produced according to the method. | 04-16-2009 |
20090101311 | System and Method for Cooling Using Two Separate Coolants - According to one embodiment, a cooling system for a heat-generating structure includes a first cooling loop that directs a flow of a first fluid coolant from a heat-generating structure to a first heat exchanger. The system also includes a second cooling loop that directs a flow of a second fluid coolant from the first heat exchanger to a second heat exchanger. The first heat exchanger receives thermal energy from the first fluid coolant and transfers at least a portion of the thermal energy to the second fluid coolant. The first fluid coolant has a specific heat and a mass flow rate, and the second fluid coolant has a specific heat and a mass flow rate. A product of the specific heat and the mass flow rate of the first fluid coolant is greater than a product of the specific heat and the mass flow rate of the second fluid coolant. | 04-23-2009 |
20090101312 | Regulating Transmission Fluid and Engine Coolant Temperatures in a Motor Vehicle - A system for controlling the temperature of a transmission fluid includes a first heat exchanger communicating with a source of engine coolant for transferring heat between the engine coolant and the transmission fluid and including a first outlet through which transmission fluid exits the first heat exchanger, a second heat exchanger through which air may flow for transferring heat between the transmission fluid and the air and including a second inlet through which transmission fluid enters the second heat exchanger, and second outlet through which transmission fluid exits the second heat exchanger, and a first bypass valve for alternately opening and closing the second inlet and the second outlet when a temperature of transmission fluid exiting the first outlet is greater than a first reference temperature, and for bypassing the second heat exchanger when the temperature of transmission fluid exiting the first outlet is less than the second reference temperature. | 04-23-2009 |
20090101313 | MULTISTAGE HEAT EXCHANGING DUCT COMPRISING A PARALLEL CONDUIT - The heat exchanger having a heat exchanging channel ( | 04-23-2009 |
20090107656 | Heat exchanger - The present invention relates to a heat exchanger comprising at least one first loop adapted to trap energy from a source. The first loop contains a first refrigerant adapted to collect energy from a source. The invention also comprises at least one second loop with a second refrigerant adapted to interact with the first refrigerant and to transfer to a user a maximum quantity of the energy trapped by the first loop in the most efficient manner. The transfer of the trapped energy takes place in a transfer unit placed in the second loop. The transfer unit comprises an outer cylinder with an inlet and an outlet adapted to circulate the first refrigerant. An inner coil placed within the outer cylinder to contain the second refrigerant. The inner coil is provided with an inlet and outlet adapted to facilitate circulation of the second refrigerant. The first and the second refrigerants are moving within the transfer unit in a counter-flow direction to optimize the heat exchange between the first and second refrigerant. The first loop is placed into an earth or waste medium. The first refrigerant is R-410a and the second refrigerant is R-134a. | 04-30-2009 |
20090114373 | HEAT EXCHANGER - A heat exchanger includes a first member and a second member. The first member is provided with a main body and a heat transfer accelerating portion formed on the main body as one unit. The second member is formed with a recess dented from a reference surface and functioning as a flow channel. The first member and the second member are joined with each other at the reference surface in a state where a part, which deviates from the recess when the first and second members are joined, of the heat transfer accelerating portion of the first member is cut off and the rest of the heat transfer accelerating portion is inserted into the recess of the second member. | 05-07-2009 |
20090120616 | ENERGY RE-CLAIMER - An energy re-claimer is provided for preheating water prior to the water entering a conventional residential, commercial or industrial gas water heater. The energy re-claimer is mounted on top of the water heater between the draft diverter and the hot air flue. The energy re-claimer is preferably a double wall construction that is larger in diameter than the draft diverter and hot air flue in order to allow normal passage of hot air through the system; however, a single wall construction may also be used. Tap water enters a pipe inside the double wall construction and is heated prior to being directed through the water heater. The pipe may be constructed of a number of straight lengths connected by returns or may be in the form of a single straight section connected to a coil made of connected curving sections that surround the axis of the energy re-claimer. A condensation collector may be provided between the draft diverter and the energy re-claimer to collect any condensation that may form as a result of cooling gases and prevent the condensate from falling into the water heater where it could extinguish the flame. | 05-14-2009 |
20090120617 | Tube For Heat Exchanger | 05-14-2009 |
20090133854 | FLAMELESS THERMAL OXIDATION APPARATUS AND METHODS - A thermal oxidizer is provided in which off-gases in a process stream are thermally oxidized within substantially the entire interior volume of an oxidation chamber. The thermal oxidation is conducted without the presence of a flame or with only a minor portion of one or more fuels being combusted in a flame. | 05-28-2009 |
20090139695 | METHOD AND DEVICE FOR INTERNAL COOLING OF EXTRUDED THERMOPLASTICS PIPES - The invention relates to a method and a device for cooling an extruded thermoplastics pipe ( | 06-04-2009 |
20090151903 | Coolant reservoir tank for fuel cell vehicle - The present invention provides a coolant reservoir tank for a fuel cell vehicle, in which the coolant reservoir tank is positioned at a bottom of the vehicle such that coolant in a coolant line is collected in the reservoir tank by gravity during shutdown of a fuel cell system and the coolant in the reservoir tank is supplied to the coolant line by a vacuum pump during startup of the fuel cell system. | 06-18-2009 |
20090166002 | APPARATUS AND METHOD FOR HEATING OR COOLING AN OBJECT USING A FLUID - An improved heating apparatus is aimed at optimizing heat transfer and delivering an optimal heating efficiency in comparison to conventional heating apparatus. The improved heating apparatus includes tubes that generate plume arrays of a fluid (e.g., a gas, such as air) that is heated in a conduit. The tubes introduce the heated fluid into a chamber of the heating apparatus. The fluid is returned to the conduit through a return opening in the chamber. The path that the fluid travels in the chamber, from the tubes to the return air opening, is provided such that optimized heat transfer and optimal heating efficiency are facilitated. | 07-02-2009 |
20090188649 | PYROLYTIC DECOMPOSITION APPARATUS AND METHOD FOR PYROLYTICALLY DECOMPOSING ORGANIC SUBSTANCES - A pyrolytic decomposition apparatus mainly comprising: an inlet system for incorporating an object; a pyrolysis system having at least one heating chamber and a heating means which pyrolytically decomposing the object within incorporated from the inlet system; a recovery and cooling system which recovers a part of the gas generated due to the pyrolytic decomposition as an oil component through a pipe; and a gas temperature adjusting system, which makes heat exchange between a part of the gas from the recovery system and a part of the gas from pyrolysis system to allow the pyrolytically decomposed gas at a prescribed temperature for flowing into the pyrolysis system is disclosed. The apparatus is characterized in that said apparatus has a nonflammable gas supply means which supply a nonflammable gas into the pyrolytically decomposed gas as a carrier gas circulated with the apparatus. | 07-30-2009 |
20090194258 | THERMAL ISOLATION SCREEN FOR ISOLATING AN ELECTROMAGNETIC INDUCTOR, AND HEAT TREATMENT INSTALLATION COMPRISING SUCH A SCREEN - Thermal insulation screen transparent to magnetic flux, intended to isolate an electromagnetic inductor with a transverse or pseudo-transverse field, from the radiation of a heated product ( | 08-06-2009 |
20090242172 | Chiller unit - In a chiller unit having a chiller unit main body that is disposed to be juxtaposed with an outdoor unit and performs heat-exchange between refrigerant supplied from the outdoor unit and water medium supplied from the outside to generate cold or hot water, a refrigerant pipe and a water medium pipe connected to the plate type heat exchanger are led out to the back surface side of the chiller unit main body, a refrigerant pipe of the chiller unit main body and a refrigerant pipe of the outdoor unit are connectable to each other at the back surface side concerned, an electrical component box wounded by a heat insulating member is disposed at the front surface side of the chiller unit main body and an electrically-operated valve for controlling a flow rate of refrigerant is disposed below the electrical component box. | 10-01-2009 |
20090242173 | TEMPERATURE CONTROL SYSTEM - An improved system and method for controlling the temperature of fluids during a mixing procedure or a chemical, pharmaceutical, or biological process is disclosed. One embodiment of the system comprises: a first collapsible bag including
| 10-01-2009 |
20090255651 | Heat Dissipater and Method of Dissipating Heat - A heat dissipater and a method of dissipating heat. The present disclosure relates to a heat dissipating device which dissipates heat out of an enclosure. The device comprises a housing positioned within the enclosure, wherein the housing has an intake and an exhaust. The device further comprises an air medium disposed within the enclosure. At least one air handler in communication with the housing transfers the air medium through the housing and out of the enclosure. The present disclosure relates to a method of dissipating heat generated by a component comprising disposing a housing within an enclosure, the enclosure having the component which generates heat. Next, a convection is maintained through the housing and across the component. Cooling is then performed by channeling the air out of the enclosure. | 10-15-2009 |
20090255652 | HEAT EXCHANGE DEVICE AND METHOD - A heat exchange device comprising a fluid flow passage having a plurality of successive segments in fluid flow communication with one another, the segments being adapted to maintain a developing flow therein and thereby improve heat transfer. | 10-15-2009 |
20090266517 | COOLER - A cooler includes a body, a water tank installed in the body for storing cooling water, a pump fixed in the water tank, a water pipe connected to the pump and extending upward, a spray pipe connected to the water pipe, at least one gas cooling device located above the spray pipe, at least one fan fixed on top of the body, at least one wind hole formed in a side of the body, at least one cooling pipe uprightly installed in the body and having an upper portion passing through heat-dispersing chips of the gas cooling device and a lower portion passing through heat-dispersing chips of the water cooling device, and at least one water-heat exchanger below the spray pipe and having a heat-dispersing element. The cooler has two stages of cooling by air and water, having a high effect of swift cooling high temperature to low temperature. | 10-29-2009 |
20090266518 | HEAT PLATE TYPE COOLER MODULE - A heat plate type cooler module includes a heat plate, which is formed of a bottom cover plate and a top cover plate and having a working fluid filled in a vacuum chamber between the top cover plate and the bottom cover plate; heat pipes each having a cold end and a top end; a locating plate covered on the heat plate to hold the hot end of each heat pipe in contact with the heat plate; and radiation fins fastened to the cold ends of the heat pipe by press-fitting. | 10-29-2009 |
20090266519 | HEAT TRANSFER SYSTEM, FLUID, AND METHOD - Disclosed herein is a heat transfer system comprising a circulation loop defining a flow path for a heat transfer fluid, and a heat transfer fluid comprising a liquid coolant, a siloxane corrosion inhibitor of formula R3-Si—[O—Si(R)2]x-OSiR3, wherein R is independently an alkyl group or a polyalkylene oxide copolymer of 1 to 200 carbons, x is from 0 to 100, and further wherein at least one alkyl group and at least one polyalkylene oxide copolymer are present, and a non-conductive polydiorganosiloxane antifoam agent, wherein the conductivity of the heat transfer fluid is less than about 100 μS/cm, and wherein the heat transfer system comprises aluminum, magnesium, or a combination thereof, in intimate contact with the heat transfer fluid. | 10-29-2009 |
20090277610 | Pallet Platform with Cool Air Tower - A cooling system for perishable items. | 11-12-2009 |
20090277611 | Air-cooled radiator assembly for oil-filled electrical quipment - A radiator section of a radiator is provided that has a plate that defines a plurality of ducts for the flow of a fluid therethrough. A first one of the ducts has only four convex ridges and only two concave furrows. Also, a second one of the ducts located closer to a longitudinal centerline of the plate than the first duct has only eight convex ridges and only six concave furrows. | 11-12-2009 |
20090294101 | FAST SUBSTRATE SUPPORT TEMPERATURE CONTROL - Methods and apparatus for controlling the temperature of a substrate support are provided herein. In some embodiments, an apparatus for controlling the temperature of a substrate support may include a first heat transfer loop and a second heat transfer loop. The first heat transfer loop may have a first bath with a first heat transfer fluid at a first temperature. The second heat transfer loop may have a second bath with a second heat transfer fluid at a second temperature. The first and second temperatures may be the same or different. First and second flow controllers may be provided for respectively providing the first and second heat transfer fluids to a substrate support. One or more return lines may couple one or more outlets of the substrate support to the first and second baths for returning the first and second heat transfer fluids to the first and second baths. | 12-03-2009 |
20090294102 | HEAT TRANSFER SYSTEM COMPRISING BRAZED ALUMINUM, METHOD, HEAT TRANSFER FLUID, AND ADDITIVE PACKAGE - Disclosed herein is heat transfer system, comprising a brazed aluminum component, and a heat transfer fluid in fluid communication with the brazed aluminum component, wherein the heat transfer fluid comprises a liquid coolant, an oxy-anion of molybdenum, tungsten, vanadium, phosphorus, antimony, or a combination thereof, and a corrosion inhibitor. Also disclosed is a method of preventing corrosion in the heat transfer system, and a heat transfer fluid and additive package for use in the heat transfer system. | 12-03-2009 |
20090314468 | Cooling of rolls in continuous casting plants - A method for cooling a roller device which includes a right bearing housing, a left bearing housing, and a roller which is rotatably supported by journals in the bearing housings, in which a cooling medium cools the bearings ( | 12-24-2009 |
20090321052 | Method of Producing Body Having Flow Path Formed Therein, and Body Having Flow Path Formed Therein - The present invention provides a water-cooled heat sink having an integrated structure, and having inside a precise, freely formed flow path, the water-cooled heat sink being produced without using a technique for pasting a plurality of metal sheets. In a water-cooled heat sink | 12-31-2009 |
20100000718 | SILICON-BASED THERMAL ENERGY TRANSFER DEVICE AND APPARATUS - A thermal energy transfer device attached to an object to dissipate thermal energy from the object is provided. The thermal energy transfer device includes a non-metal base plate and a first non-metal fin structure. The base plate has a first primary surface and a second primary surface opposite the first primary surface, and includes at least one groove on the first primary surface. The fin structure has a first primary surface, a second primary surface opposite the first primary surface, and a plurality of edges that are between the first and the second primary surfaces including a first edge. The first fin structure is attached to the base plate with the first edge received in a first groove of the at least one groove of the base plate. | 01-07-2010 |
20100000719 | Method Of Preheating Beer In An Ethanol Plant - A method for preheating beer including providing a first heat exchanger, comprising a first outlet stream at a first temperature; providing a second heat exchanger, comprising a hot heat transfer stream, a first flow control valve situated within said hot heat transfer stream, a second outlet stream at a second temperature, a temperature sensor situated within said second outlet stream; wherein said first outlet fluid comprises a first inlet stream, and a second flow control valve situated within said first inlet stream; determining said second temperature with said temperature sensor; comparing said second temperature to a predetermined temperature range; performing an operation selected from the group consisting of: maintaining said first flow control valve in a closed position, and maintaining said second flow control valve in an open position, if said second temperature is within said predetermined temperature range, modulating said first flow control valve in order to effect heat transfer between said hot heat transfer fluid and said first inlet fluid, such that said second temperature within said predetermined temperature range, and maintaining said second flow control valve in an open position, determining if said second temperature is not within said predetermined temperature range if said first control valve is in the fully open position, and then closing said second flow control valve, closing said first flow control valve, and redirecting said first outlet stream away from said second heat exchanger is provided. | 01-07-2010 |
20100006263 | Multi lumen heat exchanger - A heat exchanger has a multi-lumen tubing having one end connected to a supply fitting and another end connected to a return fitting. The tubing has a central lumen, a middle lumen that surrounds the central lumen and an outer lumen that surrounds the middle lumen. The supply fitting has an inlet, an outlet and a proximal port wherethrough an infusate is input to the heat exchanger. The supply fitting is configured such that its inlet is connected to the central lumen, its outlet connected to the outer lumen, and its proximal port connected to the middle lumen of the tubing. The return fitting is configured to establish a through passage between the central lumen and the outer lumen of the tubing so that a heating fluid fed through the supply fitting to the central lumen is returned to the supply fitting by way of the outer lumen. The return fitting further has a distal port configured to connect to the central lumen of the tubing, so that the infusate fed to the proximal port of the supply fitting may be output from the distal port of the return fitting, after passing through the central lumen of the tubing. As the infusate traverses along the heat exchanger, it is heated by the heating fluid that flows along the central lumen, and also by the rerouted heating fluid that flows along the outer lumen of the tubing. The heat exchanger is fluidly coupled to a heater by its inlet and outlet so that the temperature of the heating fluid for warming the infusate is maintained at a predetermined temperature. | 01-14-2010 |
20100006264 | MOTOR COOLING APPLICATIONS - A cooling system is provided for a motor powering a compressor in a vapor compression system. The cooling system including a housing and a cavity within the housing. A first fluid circuit has a first connection to receive a refrigerant into the cavity, and a second connection to deliver refrigerant from the cavity to a heat exchanger for a heat transfer relationship with a heat-generating component. | 01-14-2010 |
20100012295 | Vehicle HVAC and RESS Thermal Management - A HVAC and RESS thermal management system and a method of operation for a vehicle having a passenger compartment, a power plant and a battery pack is disclosed. The system comprises a RESS coolant circuit and a power plant coolant circuit. The RESS coolant circuit directs a coolant through the battery pack and includes a pump, a coolant heating branch has a coolant-to-coolant heat exchanger, and a coolant routing valve that will selectively direct the coolant through the coolant heating branch. The power plant coolant circuit includes a heater core branch having a HVAC pump, a coolant heater, a heater core located in a HVAC module to provide heat to the passenger compartment, and the coolant-to-coolant heat exchanger, with the coolant-to-coolant heat exchanger providing heat transfer between the coolant in the coolant heating branch and the coolant in the heater core branch. | 01-21-2010 |
20100012296 | Plastic heat exchanger with extruded shell - A plastic heat exchanger has a shell with tanks disposed side-by-side. First and last distribution tanks straddle heat transfer tanks. The shell has a plurality of flow gaps, to allow coolant to flow between adjacent tanks. Spacers hold the flow gaps open. | 01-21-2010 |
20100012297 | COOLING SYSTEM FOR LARGE POWER TRANSFORMERS - A cooling system includes a housing having a compartment and an oil inlet. A transformer unit is disposed in the compartment and includes a plurality of large power transformers. A heat-dissipating unit is disposed in the compartment and includes a fluid inlet port member, a fluid outlet port member, a heat conductor, and a plurality of heat exchange pipes. The heat conductor is in thermal contact with the heat exchange pipes. The heat exchange pipes are arranged along a first direction. Each of the heat exchange pipes extends along a plane that is not parallel to the first direction. A cooling oil is introduced into the compartment through the oil inlet such that the transformer unit, the heat conductor, and the heat exchange pipes are immersed in the cooling oil. | 01-21-2010 |
20100012298 | Heat Recovery and Pressure Control Unit - A system for heat recovery and pressure control including: a fresh air heat exchanger with at least one fresh air heat exchanger conduit, a pre-heater heat exchanger with at least one pre-heater heat exchanger conduit, and a proportioning valve coupled to the conduits. The fresh air heat exchanger is adapted to warm the fresh air by transferring heat from the at least one fresh air heat exchanger conduit. The pre-heater heat exchanger is adapted to pre-heat the contaminated air by transferring heat from the at least one pre-heater heat exchanger conduit. The conduits are adapted to receive hot air and transfer heat from the hot air. The proportioning valve is adapted to control the flow of hot air through the conduits. | 01-21-2010 |
20100018673 | Enclosure type inter-piping fluid thermal energy transfer device - The present invention discloses that the external thermal conductive casing of the supply water flow piping having at least one fluid inlet and at least one fluid outlet is installed with a hollow enclosing structure, wherein besides that the internal space of the hollow enclosing structure for passing through conducting fluid is made with at least two inlet/outlet ports, the remainder is in a hollow closed structure to enclose the piping casing. | 01-28-2010 |
20100018674 | Reservoir with moveable partition for quick recovery - A cooling or heating system having a primary loop through which pressurized liquid is circulated and a secondary loop through which a low pressure liquid medium is circulated for increased performance where the secondary loop includes an improved reservoir design that provides a potential reserve of cooling or heating capacity that has a exterior wall and includes a moveable partition with a flow path enclosed between the moveable partition and the exterior wall and the moveable partition moves away from the exterior wall to increase the volume available to the flow path and the moveable partition moves toward the exterior wall to decrease the volume available to the flow path to quicken the attainment of a suitable predetermined occupant comfort level. | 01-28-2010 |
20100018675 | PULSATING COOLING SYSTEM - A cooling device comprising at least one transducer ( | 01-28-2010 |
20100018676 | Planar Heat Dissipating Device - A planar heat dissipating device includes: a planar housing defining a planar inner space therein; and a partitioning unit dividing the inner space into a plurality of upper fluid channels and a plurality of lower fluid channels that cross the upper fluid channels. Each of the upper fluid channels is in fluid communication with at least one of the lower fluid channels at an intersection therebetween. | 01-28-2010 |
20100044011 | HEATING DEVICE - The invention relates to a heating device comprising at least one heat exchanger that spirals helically around a spiral axis, is traversed by a heating medium and is configured as a flat tube comprising ends of the spiral on the feed flow and return flow sides and heating medium connections, said heat exchanger defining a corresponding spiral-shaped flow opening. A cap-type sealing housing is attached in a fluid-tight manner to at least one end of the spiral and the heating medium connection is situated on the housing. At least one end of the spiral is obliquely truncated in relation to the spiral axis and the end of the sealing housing on the spiral side has a corresponding inverse oblique configuration. Preferably, the heating medium connection on the cap-type sealing housing runs in the direction of the spiral axis. | 02-25-2010 |
20100044012 | APPARATUS AND METHOD FOR TRANSFERRING HEAT - A heat transfer apparatus ( | 02-25-2010 |
20100051234 | LIQUID-COOLED-TYPE COOLING DEVICE - A liquid-cooled-type cooling device includes a casing having a cooling-liquid inlet and a cooling-liquid outlet. A fin for forming flow channels is disposed within the casing between the inlet and the outlet. A portion of the interior of the casing located rearward of the fin is an inlet header section, and a portion of the interior of the casing located frontward of the fin is an outlet header section. A rear side surface within the inlet header section is skewed toward the fin in a direction from the right side toward the left side. A positioning vertical surface extending straight along the left-right direction and positioning a rear end portion of the fin is provided on a lower portion of a left end portion of the rear side surface within the inlet header section. The rear end portion of the fin is in contact with the positioning vertical surface. | 03-04-2010 |
20100051235 | LIQUID-COOLED-TYPE COOLING DEVICE - A liquid-cooled-type cooling device includes a casing which has a cooling-liquid inlet formed at a rear end portion of the casing and a cooling-liquid outlet formed at a front end portion of the casing. A corrugated fin for forming a plurality of flow channels through which a cooling liquid flows from the rear side toward the front side is disposed within the casing to be located between the cooling-liquid inlet and the cooling-liquid outlet. A heat-generating-body mounting region is provided on an outer surface of a top wall of the casing. Projections which come into contact with front and rear end portions of the corrugated fin to thereby position the corrugated fin in the front-rear direction are provided on an inner surface of the bottom wall of the casing at positions shifted, in the left-right direction, from an inner surface region corresponding to the heat-generating-body mounting region. | 03-04-2010 |
20100059206 | Insulating apparatus utilizing a quantity of water for thermal transfer and thermal mass - An enclosure for controlling the interior temperature of an outdoor equipment enclosure or a human-or animal-occupied structure, utilizing a quantity of water for thermal transfer and thermal mass. The enclosure is divided into a lower main chamber and an upper small chamber containing the water, the two chambers are in thermal contact, and the water in the upper chamber is in thermal contact with the roof of the enclosure. | 03-11-2010 |
20100071878 | SYSTEM AND METHOD FOR COOLING USING SYSTEM EXHAUST - A method for operating a system comprising a number of fluid streams and a number of components include a device is provided. The method comprises separating a cooling fluid from an exhaust stream discharged from a device and transferring heat to the cooling fluid from at least one of the number of fluid streams, at least one of the number of components, or both. A system comprising a number of fluid streams, a number of components including a device comprising an exhaust for discharging an exhaust stream, a separator for separating a cooling fluid from the exhaust stream, and a heat exchanger is provided. The heat exchanger transfers heat to the cooling fluid from at least one of the number of fluid streams, at least one of the number of components, or both. | 03-25-2010 |
20100089552 | HEAT ENERGY RECOVERY SYSTEM - A heat energy recovery system recovers heat energy from a fluid having a first temperature flowing through a conduit. The conduit includes a manifold chamber through which the fluid flows. A manifold conduit is located within the manifold chamber and contains a fluid heat storage material at a second temperature lower than the first temperature. A storage assembly has a chamber enclosed therein and fluidly coupled with the manifold conduit for storing the fluid heat storage material. The heat energy can be transferred from the fluid having the first temperature to the fluid heat storage material having the second temperature. | 04-15-2010 |
20100089553 | Heat absorbing or dissipating device with multi-pipe reversely transported temperature difference fluids - The present invention discloses that the thermal conductive fluids in temperature difference are reversely transported by the first fluid piping and second fluid piping in parallel or quasi-parallel arrangement on the same end side to produce heat absorbing or dissipating function onto the passively heat dissipation or absorption receiving article or space thereby forming a more uniform temperature distribution status on the heat absorbing or dissipating body ( | 04-15-2010 |
20100096109 | METHODS AND APPARATUS FOR RAPIDLY RESPONSIVE HEAT CONTROL IN PLASMA PROCESSING DEVICES - Methods and apparatus for regulating the temperature of a component in a plasma-enhanced process chamber are provided herein. In some embodiments, an apparatus for processing a substrate includes a process chamber and an RF source to provide RF energy to form a plasma in the process chamber. A component is disposed in the process chamber so as to be heated by the plasma when formed. A heater is configured to heat the component and a heat exchanger is configured to remove heat from the component. A chiller is coupled to the heat exchanger via a first flow conduit having an on/off flow control valve disposed therein and a bypass loop to bypass the flow control valve, wherein the bypass loop has a flow ratio valve disposed therein. | 04-22-2010 |
20100096110 | METHODS AND APPARATUS FOR RECOVERING HEAT FROM PROCESSING SYSTEMS - Methods and apparatus for recovering heat from disposed effluents are disclosed herein. In some embodiments, an apparatus may include a first process chamber configured for gaseous or liquid processes; a second process chamber configured for liquid processes; and a heat pump having a compressor and a first heat exchanger, wherein the compressor is configured to use a first effluent exhausted from the first process chamber and wherein the first heat exchanger having first and second sides configured to transfer heat therebetween, wherein the first side is configured to flow a liquid reagent therethrough and into the second process chamber, and wherein the second side is configured to flow the pressurized first effluent from the first process chamber therethrough. In some embodiments, a heater may be disposed between the heat pump and the second process chamber to further heat the liquid reagent prior to entering the second process chamber. | 04-22-2010 |
20100101760 | FLUE GAS COOLING AND CLEANING SYSTEM - An improved flue gas cooler ( | 04-29-2010 |
20100108294 | HEAT TRANSFER UNIT FOR HEATING SYSTEMS AND SUREFACES AND RAILWAY POINT HEATER - The invention relates to a heat transfer unit ( | 05-06-2010 |
20100108295 | Process And Apparatus For Transferring Heat From A First Medium to a Second Medium - A process of transferring heat from a first relatively cold medium to a second relatively hot medium features rotating a contained amount of a compressible fluid about an axis of rotation, thus generating a radial temperature gradient in the fluid, and heating the second medium by means of the fluid in a section of the fluid relatively far from the axis of rotation. An apparatus for carrying out the process includes a gastight drum having a lumen for holding a compressible fluid and rotatably mounted in a frame, and a first heat exchanger mounted inside the drum relatively far from the axis of rotation of the drum. | 05-06-2010 |
20100116466 | Axial Heat Exchanger for Regulating the Temperature and Air Comfort in an Indoor Space - The present invention offers an axial heat exchanger for exchanging heat between a gas medium and a fluid or liquid medium. The axial heat exchanger comprises a longitudinal and substantially axially extended outer channel that is adapted to enclose a flow of a first gas medium. The heat exchanger also comprises a plurality of substantially parallel inner channels that are adapted to enclose a flow of a second liquid medium. The inner channels are arranged inside the outer channel so as to extend substantially axially along the inside of said outer channel for enabling a transfer of heat between said first gas medium and said second liquid medium. At least one of the inner channels is joined with at least one elongated sheet. The sheet is arranged to extend substantially axially along the inner channel so as to substantially coincide with the direction of flow of the first gas medium through the outer channel. The sheet has a first component directed from the centre of the outer channel to the wall of the outer channel and a second component extending from the end of the first component along the wall of the outer channel. | 05-13-2010 |
20100116467 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a plurality of fins stacked together, a plurality of heat pipes extending through the fins, and solder filled in gaps between the fins and the heat pipes. Each fin includes a plate defining a plurality of holes therein for extension of the heat pipes therethrough, respectively. A collar extends from a periphery of each of the holes. The collar includes a columned portion attached to an outer surface of each of the heat pipes, and a taper portion interconnecting the plate and the columned portion. The solder fills in a gap between the columned portion and a corresponding heat pipe and a space between the taper portion and the corresponding heat pipe. The collar has a height slightly smaller than a distance between two adjacent fins. | 05-13-2010 |
20100122797 | ASSEMBLY TYPE OIL COOLER FOR INTENSIVELY COOLING HYDRAULIC MACHINERY - An assembly type oil cooler has developed for intensively cooling the various kinds of hydraulic machineries. The oil cooler comprises a main body assembled with a plurality of the body units having a plurality of bolt-holes for assembling and water passages disposed circumferentially for cooling, a plurality of annular-sealing having arched sectors, an oil inlet and an oil outlet are installed at the front and rear of the body units, a pair of front and rear flange plates installed at both end-sides of the body units, a plurality of heat exchange pipes and supporting rods inserted to supporting rod engaging holes through supporting rod holes, a front flange-cap having two compartments to connect a cooling water inlet and an outlet and the body cooling water inlets, and a rear flange-cap having the body cooling water inlets arranged around the body unit for connecting the water passages of the rear flange plate. | 05-20-2010 |
20100126698 | Heat exchanger including selectively activated cathodic protection useful in sulfide contaminated environments - A heat exchange system including a heat exchanger having a housing and a cooling core disposed within in the housing. The cooling core is adapted to receive a flow of a liquid cooling media. The heat exchanger includes at least one iron anode projecting into a flow path of the liquid cooling media. The heat exchange system also includes an electronic control module operatively connected to the iron anode. The electronic control module is adapted to control the selective delivery of electrical current or grounding to the iron anode in response to predetermined conditions indicating the presence of sulfide constituents in the cooling medium. | 05-27-2010 |
20100126699 | HEAT EXCHANGERS FOR MICROSTRUCTURES - A multiple-layered microfluidic device comprises at least a first fluid path and at least a second fluid path, wherein the first fluid path comprises a layer or portion of a layer of the microfluidic device. The first path has multiple rows of serpentine wall segments positioned there along. The wall segments extend in a direction along the first path. The rows extend along a direction cross-ways to the first path. Adjacent ones of wall segments within a row are arranged such that concave portions face concave portions of adjacent ones of segments, while convex portions face convex portions of adjacent ones of segments. | 05-27-2010 |
20100132921 | Wake generating solid elements for joule heating or infrared heating - An improved solid heat transfer element composed of an elongate member having a generally cylindrical surface with male vortex generating protrusions is provided. The vortex generating protrusions, which may be referred to as “turbulators,” provide improved heat transfer by convection to a flow of air transverse to the elongate members without substantially increasing the pressure drop in the flow of air passing over the members. Advantageously, a plurality of the heat transfer elements, or of straight portions of a single serpentine heat transfer element, may be arranged in an aligned or staggered array of elements or straight portions. Many advantageous profile shapes of the element and vortex generators are provided, including aerodynamic profile shapes that are symmetrical with respect to a fluid flow to provide low drag and pressure drop. Heat in the element may be generated by means of electrical resistance or absorption of radiation. | 06-03-2010 |
20100132922 | VAPOR CHAMBER AND COOLING DEVICE HAVING THE SAME - A vapor chamber is provided to include shell, capillary tissue, working fluid, heat-absorbing section and heat-releasing section. A hollow chamber is formed in the shell. The capillary tissue is arranged and accommodated in the hollow chamber. The working fluid is injected into and filled in the hollow chamber. Two corresponding surfaces of the shell at the heat-releasing section are respectively a non-planar shape. Because the two corresponding surfaces of the shell at the heat-releasing section are respectively a non-planar shape, the structure strength of the vapor chamber is higher and the anti-deforming ability is superior, thereby the using life of the vapor chamber being prolonged. In addition, the vapor chamber can be combined with cooling fins to become a cooling device. Since the two corresponding surfaces of the shell at the heat-releasing section are respectively designed as a non-planar shape, the vapor chamber and the cooling fins have larger contacting surfaces, making the heat-transferring effectiveness thereby enhanced significantly. | 06-03-2010 |
20100139891 | RADIATOR AND COOLING UNIT - A radiator for dissipating heat by liquid coolant flowing includes a plate including at least two flat sections parallel to each other, a flection connecting the flat sections, a passage configured within the two flat sections and the flection to allow the liquid coolant to flow from a first opening to a second opening provided at each end of the two flat sections, the two flat sections opposed to each other, and the plate including a plurality of fins; an inlet tube having an opening formed so as to fit the first opening and an end opening for allowing the liquid coolant to flow in the passage; and an outlet tube having an opening so as to fit of the second opening and an end opening for allowing the liquid coolant to flow out the passage. The outlet tube is disposed in parallel with the inlet tube. | 06-10-2010 |
20100147492 | IGBT cooling method - A method for cooling power electronic devices such as IGBT's. The method comprises placing the IGBT board in a containment structure and flooding the containment with circulating liquid refrigerant. The liquid refrigerant is boiled within the containment and the resulting gas is then removed for continued circulation within a heat engine. The phase change of the refrigerant provides excellent cooling properties. In addition, the ability to place the cooling medium directly over the IGBT's themselves represents a significant advantage. | 06-17-2010 |
20100155026 | CONDENSIBLE GAS COOLING SYSTEM - A workpiece cooling system and method are disclosed. Transferring heat away from a workpiece, such as a semiconductor wafer during ion implantation, is essential. Typically this heat is transferred to the workpiece support, or platen. In one embodiment, the desired operating temperature is determined. Based on this, a gas having a vapor pressure within a desired range, such as 10-50 torr, is selected. This range is required to be sufficiently low so as to be less than the clamping force. This condensible gas is used to fill the volume between the workpiece and the workpiece support. Heat transfer occurs based on adsorption and desorption, thereby offering improved transfer properties than traditionally employed gases, such as helium, hydrogen, nitrogen, argon and air. | 06-24-2010 |
20100170658 | Dual-Pressure Dual-Compartment Fluid Tank - An improved dual-pressure dual-compartment tank for transferring heat energy between two solutions while physically isolating the solutions from each other is disclosed. The tank has one fluid compartment positioned within a second fluid compartment such that the transfer of heat energy between the compartments is facilitated. One of the compartments is structured to maintain a substantially higher pressure than the other compartment so that if a physical divider between the compartments were to fail, the lower pressure fluid would not contaminate the higher pressure fluid. Additionally, the divider may take a variety of shapes to improve fluid mixing by accelerating or decelerating the fluid, and/or to provide an amount of surface area between compartments that is inversely proportional to the local temperature gradient between the compartments. These designs may include shapes such as a cone, a corrugated cylinder, a corrugated cone, or a cone with an outer spiral for improving mixing, thermal transfer, or to simplify construction of the dual-compartment tank. | 07-08-2010 |
20100170659 | MOLDING APPARATUS AND METHOD WITH HEAT RECOVERY - Apparatus and method for recapturing and reusing heat provided in the course of fabricating a molded product. | 07-08-2010 |
20100175854 | Method and apparatus for multi-functional capillary-tube interface unit for evaporation, humidification, heat exchange, pressure or thrust generation, beam diffraction or collimation using multi-phase fluid - A method and apparatus for heat exchange with a volatile fluid in a parallel-channel capillary network traversing a solid receiver module manifests a multi-functional miniature device capable of performing as an evaporator, a condenser, a humidifier, a single-stream heat exchanger, a pressure generator, a thrust motor, a Fraunhofer diffraction device, or a collimation device. Heat is exchanged at a dedicated interface on the body by thermal contact or radiative fluence, and indirectly with the working fluid. Application-specific process control is manifested by applied heat rate, control of fluid saturation levels and vapor partial pressure at the capillary ends, and arrangement of flow network connections. The system operates in steady-state or transient modes, depending on the adapted functional mode and duty cycle. Specific materials and working fluids tolerate transient system performance levels of apparent heat rates exceeding 10 [MW/m | 07-15-2010 |
20100200198 | HEATING APPARATUS USING HOT WATER AND STEAM - The present invention relates to a heating apparatus using hot water and steam, in which a heater receives and heats a source water to generate hot water and steam, and the mixture of hot water and steam is automatically circulated inside a heating pipe due to an expansion force of the generated steam. According to the heating apparatus of the invention, the heater is supplied with a source water and heats the source water to generate hot water and steam. The generated hot water and steam is automatically circulated inside the heating pipe in a state of mixture of hot water and steam, thereby eliminating the need for a separate circulating means for circulating the hot water and steam. | 08-12-2010 |
20100206518 | CORRUGATED HEATING CONDUIT AND METHOD OF USING IN THERMAL EXPANSION AND SUBSIDENCE MITIGATION - A method of maintaining the structural integrity of heating conduit used to heat a permeable body of hydrocarbonaceous material enclosed within a constructed permeability control infrastructure. The method includes obtaining a heating conduit with corrugated walls and configured for transporting a heat transfer fluid, burying the heating conduit at a depth within the permeable body of hydrocarbonaceous material and with an inlet end extending from the boundary of the constructed permeability control infrastructure, operably coupling the inlet end of the heating conduit to a heat source of the heat transfer fluid, and passing the heat transfer fluid through the heating conduit to transfer heat from the heat transfer fluid to the permeable body, with the corrugations in the corrugated walls mitigating longitudinal axis thermal expansion of the heating conduit and allowing the heating conduit to conformably bend in response to subsidence of the permeable body. | 08-19-2010 |
20100206519 | TEMPERATURE CONTROL SYSTEM FOR SEMICONDUCTOR MANUFACTURING EQUIPMENT - A temperature control system for semiconductor manufacturing equipment is disclosed, which can properly cool a process chamber adopted in the semiconductor manufacturing equipment such as a wafer etching device. The temperature control system for semiconductor manufacturing equipment includes a thermocline for cooling heat transfer fluid accommodated therein through a heat exchange with a heat exchanger and storing heat energy, a supply line for controlling the temperature of the heat transfer fluid in the thermocline through a heater and supplying the heat transfer fluid with a proper temperature to a process device, a recovery line for forwarding the heat transfer fluid having passed through the process device to the thermocline, and a bypass for forwarding a part of the heat transfer fluid passing through the recovery line to the supply line through the heater. | 08-19-2010 |
20100212865 | HEAT DISSIPATING DEVICE USING HEAT PIPE - There is provided a heat dissipating device using a heat pipe. The heat dissipating device includes a plurality of unit pipe loops. Each unit pipe loop includes: a heat absorbing part arranged adjacent to a heat source; and a heat dissipating part which is connected with the heat absorbing part and dissipates heat transferred from the heat absorbing part. A working fluid is to be provided inside the heat absorbing part and the heat dissipating part. The plurality of unit pipe loops being arranged radially with respect to the heat source. | 08-26-2010 |
20100212866 | METHOD FOR THE RECOVERY OF WASTE HEAT FROM HEATED LAUNDERETTE MACHINES - A method for the effective recovery of as large a portion as possible of the energy in the waste heat of a trough mangle ( | 08-26-2010 |
20100212867 | Cooling Device for Engine Oil and/or Transmission Oil, Particularly in an Internal Combustion Engine - A cooling device for engine oil and/or transmission oil, particularly in an internal combustion engine, with an oil cooler which is arranged in an oil pan and through which a coolant flows. The oil cooler is formed by a plate heat exchanger ( | 08-26-2010 |
20100224345 | Method and Apparatus for Heating Products Dispensed from a Container - A method and apparatus for heating a product dispensed from a handheld container having a nozzle for discharging the product from the container utilizes a discharge assembly having a discharge housing that defines a reservoir and is in fluid communication with the nozzle when the discharge assembly is coupled to the container. The reservoir receives the discharged product from the nozzle and collectes the discharged product within the reservoir and allows the introduction of a warm liquid into the reservoir. A strainer allows the warm liquid introduced into the reservoir of the discharge housing to be separated from the discharged product by pouring the warm liquid from the discharge housing through the strainer. The strainer is configured so that at least a majority of the discharged product is retained within the reservoir after pouring out the liquid. A product access port allows the discharged product to be removed from the reservoir through the product access port of the housing. | 09-09-2010 |
20100236758 | CHEMICAL REACTION-BASED THERMAL MANAGEMENT SYSTEM AND METHOD - The disclosure provides for a chemical reaction-based thermal management system and method. The system comprises a heat source for heating a first flow element, a heat exchanger for transferring heat from the first flow element to a reaction mixture flow, and a heat sink comprising one or more endothermic chemical reactions to absorb heat from the heat exchanger. The system further comprises a reactor element for approaching chemical equilibrium of the reaction mixture flow, a product removal element for removing one or more products from the one or more endothermic chemical reactions, and a plurality of driver elements for moving the first flow element and for moving the reaction mixture flow. | 09-23-2010 |
20100236759 | Heat-Managing Composite Structures - Light-weight, heat-managing structures feature open-cell lattice, honeycomb, and/or corrugated (prismatic) arrangements in their substructures, combined with heat pipe/heat plate arrangements for managing heat to which the structures are subjected. The structures are well suited to aerospace applications and may be employed in the leading edge of wings or other airfoil-shaped components; gas turbine engine components; rocket nozzles; and other high-heat, high-stress environments. | 09-23-2010 |
20100243209 | COLLECTOR - The present invention relates to a single pipe collector for a heat pump installation. The collector comprises a pipe ( | 09-30-2010 |
20100252235 | LIQUID-COOLED-TYPE COOLING DEVICE - A casing of a liquid-cooled-type cooling device has a peripheral wall including mutually facing right and left side walls. A cooling-liquid inlet is formed at one end of the right side wall, and a cooling-liquid outlet is formed at an end of the left side wall corresponding to the other end of the right side wall. A parallel-flow-channel section is provided within the casing to be located between the left and right side walls and between the cooling-liquid inlet and outlet and includes flow channels through which cooling liquid flows. Internal regions of the casing located upstream and downstream of the parallel-flow-channel section serve as inlet and outlet header sections, respectively. The cross-sectional area of the inlet header section reduces from the cooling-liquid inlet toward the left side wall. The outlet and inlet header sections are asymmetric in shape with respect to the width direction of the parallel-flow-channel section. | 10-07-2010 |
20100252236 | SHAFT COOLER FOR A TOOL MOTOR SPINDLE - A shaft cooler ( | 10-07-2010 |
20100270009 | APPARATUS FOR RECYCLING WASTED HEAT USING WASTE HOT WATER - The present invention relates to an apparatus for recycling wasted heat using waste hot water that includes: a tub that charges and discharges waste hot water; a heat exchange unit that transfers the heat of waste hot water to cold water supplied to a shower bat; and an upper cover that the open upper portion of the tub, and is friendly to the environment by reducing the amount of fuel consumed to supply hot water and it is possible to reduce the fuel cost by the reduced amount of fuel consumption. | 10-28-2010 |
20100282440 | Fluid Heater - A fluid heater ( | 11-11-2010 |
20100282441 | HYDROSOLS INCLUDING MICROBUBBLES AND RELATED METHODS - Hydrosols including microbubbles and related methods are described. The microbubbles can increase the reflectivity of the water, thus, brightening the water. Consequently, light which would otherwise be absorbed by the water may be reflected. This limits the increase in water temperature which would otherwise result from such light absorption. | 11-11-2010 |
20100282442 | STRUCTURAL SANDWICH PLATE PANELS AND METHODS OF MAKING THE SAME - The present application relates to a structural sandwich plate member comprising first and second outer metal plates and a core of plastics or polymer material bonded to the outer metal plates and arranged to transfer shear forces there between, wherein the member further comprises: a conduit for a temperature control medium, the conduit being embedded in the core and in thermal contact with at least one of the outer metal plates. | 11-11-2010 |
20100294464 | SUCTION FILTER DESIGN FOR FLUID THAWING - A suction filter providing a heat transfer pathway therein is provided. The suction filter includes a support structure, an inlet connected to the support structure, a filter element connected to the support structure, and a thermally conductive element that communicates with an interior portion of the suction filter. The filter element is configured to filter a fluid as it passes through the filter element into an interior portion of the suction filter. Also, the thermally conductive element extends from the interior portion of the suction filter to an exterior portion of the suction filter. The thermally conductive element is configured to transfer heat obtained external the suction filter to the interior portion of the suction filter in order to provide heat to the fluid in the interior portion of the suction filter. | 11-25-2010 |
20100314075 | COOLING PLATE AND MANUFACTURING METHOD THEREFOR - A cooling plate configured so that the cooling efficiency can be improved, the weight can be reduced, high corrosion resistance can be provided, the work efficiency can be improved, and furthermore the manufacturing cost can be reduced, and a manufacturing method for the cooling plate is provided. The manufacturing method for a cooling plate including a cooling plate body | 12-16-2010 |
20100314076 | Apparatus and Method for Rapid Cooling of Large Area Substrates in Vacuum - The present invention is directed to an apparatus and method for rapid cooling of a large substrate in a vacuum environment. A first cooled plate is brought into close proximity with one surface of a flat substrate. The spatial volume between the first cooling plate and the substrate is sealed and brought to a higher pressure than the surrounding vacuum level to increase the cooling efficiency. A second cooled plate is brought into close proximity with the opposite surface of the flat substrate. A second spatial volume between the second cooling plate and the substrate is sealed and the gas pressure is equalized to the gas pressure in the first spatial volume. The equalization of the gas pressure on both sides of the flat substrate eliminates deflection of the substrate and bending stress in the substrate. | 12-16-2010 |
20100319878 | MULTILATERAL CONTINUOUS UNIFORM RAPID COOLING DEVICE OF DOUBLE COOLING STRUCTURE - Provided is a multilateral continuous uniform rapid cooling device of a double cooling structure in which drinking water such as a beverage or liquor can be rapidly and uniformly discharged without a limitation of amount immediately at an optimum cooling temperature to drink and can be drunken. The device includes: a cooling external tube in which a pair of cooling water pipes respectively are connected to one side and the other side that is opposite to the one side, of the cooling external tube and a cooling internal tube installed in the cooling external tube; a plurality of refrigerant circulating pipes, which are continuously installed inside and outside the cooling internal tube in a spring shape, extend thereto and have ends connected as a refrigerant circulating path of a cooling cycle through a bottom portion of the cooling internal tube and a bottom portion of the cooling external tube; and a plurality of drinking water pipes, which are adjacent to the refrigerant circulating pipes and are continuously installed inside and outside the cooling internal tube and in which drinking water is flowed in an end of the cooling internal tube, is rapidly cooled and is discharged into an end of the cooling external tube. | 12-23-2010 |
20110011564 | HEAT TRANSFER DEVICE - A heat transfer device for maintaining a temperature of a device under test with heat generating capability at a prescribed temperature, the heat transfer device comprising an inlet flow-duct; an outlet flow-duct; a conductor block comprising a plurality of through-holes, the through-holes receiving a fluid from the inlet flow-duct and delivering the fluid to the outlet flow-duct; and inserts disposed in the respective through-holes for reducing a cross-sectional area of the respective through-holes to improve heat transfer efficiency. | 01-20-2011 |
20110017428 | PLANE TYPE HEAT EXCHANGER - The present invention relates to a plane type heat exchanger that has a simple structure and can be easily manufactured by substituting a rectangular plane type for a spiral cylindrical type of the structure of a heat exchange pipe according to the related art which is used for a heat exchanger using combustion gas that is heated by a burner and makes laminar flow. According to the present invention, the plane type heat exchanger having heat exchange pipes, through which heating water flows, and makes heat exchange by contacting with laminar-flow combustion gas, the plane type heat exchanger, includes: a plurality of heat exchange pipes that have a rectangular cross section with a larger width of a side, which contacts with the combustion gas, than the height, and are arranged at regular intervals in parallel with each other; inner plates where both ends of the heat exchange pipes are inserted to be fixed at regular intervals; and outer plates that are communicated with the heat exchange pipes through the inner plates and form spaces covering the outer surfaces of the inner plates. | 01-27-2011 |
20110017429 | Method For Vaporizing Cryogenic Liquid Through Heat Exchange Using Calorigenic Fluid - A method of vaporizing cryogenic liquid, for example liquefied natural gas, by heat exchange with a calorigenic fluid, for example gaseous nitrogen is provided. | 01-27-2011 |
20110042041 | INTERLOCKED JETS COOLING METHOD AND APPARATUS - Dissipating heat and apparatus therefor from a heat dissipation surface is described. In an embodiment, first jets are streamed along the heat dissipation surface in a first direction and are spaced apart from one another. Second jets are streamed along the heat dissipation surface in a second direction at least substantially opposite the first direction and spaced apart from one another. Coolant used to provide the first jets and the second jets is exited away from the heat dissipation surface. The first jets and the second jets are offset from one another in a transverse direction with respect to the first direction and the second direction, and the first jets and the second jets pass side-by-side with respect to one another. | 02-24-2011 |
20110061838 | HUMAN REMAINS COOLING PAD AND COOLING SYSTEM - The present invention relates to a human remains cooling pad and cooling system to supply chilled fluid to a cooling pad. | 03-17-2011 |
20110061839 | Portable Heating Pad - A portable heating system used to heat a person while in cold environments. A heating unit containing a fuel combustion chamber and a heat exchanger oxidizes a fuel to produce heat. The heat from the oxidation process is transferred to the fluid using the heat exchanger. The fluid either boils or simply becomes less dense then cooler fluid in the heat exchanger and thus more buoyant. Convection moves the heated fluid upwards in to a thin bladder encapsulating the fluid and held against a person. The elevated kinetic energy in the bladder creates an entropy differential to the person. This differential allows the kinetic energy in the bladder to flow to the person thus warming them. The fluid now having less energy, now denser, flows back down the bladder to the heating unit by gravity. | 03-17-2011 |
20110067841 | HEAT SINK SYSTEMS AND DEVICES - A heat sink is provided for that eliminates inefficient coolant bypass channels. The heat sink comprises a coolant cavity that is defined by a cover and a body portion. The thermally conductive cover includes a first plurality of substantially uniformly dispersed pin fins that extend at an angle from the inside surface of the cover towards a section of the body portion that is opposite the cover. The body portion opposite the cover includes a second plurality of pin fins that extend in the opposite direction from the first plurality. The coolant cavity also includes thermal bosses that protrude from an inside surface of the body portion. The bosses run parallel to the first and second plurality of pin fins and extend from a point near the thermally conductive cover to the section of the thermally conductive body portion that is opposite to the thermally conductive cover. | 03-24-2011 |
20110079371 | Heat exchanger block and a method for wetting a heat exchanger block - The invention relates to a heat exchanger block ( | 04-07-2011 |
20110083828 | WATER CIRCULATING PUMP, MANUFACTURING METHOD THEREOF, AND HEAT PUMP APPARATUS - A highly efficient, long-life water circulating pump with reduced whirling of a rotor part of the pump is provided. At least one of a gap between an end portion of a shaft | 04-14-2011 |
20110100601 | METHODS OF USING HYDROFLUOROETHERS AS HEAT TRANSFER FLUIDS - An apparatus is provided that includes a device and a mechanism for heat transfer. The mechanism includes a hydrofluoroether heat-transfer fluid wherein the heat transfer fluid is represented by the following structure: | 05-05-2011 |
20110100602 | ADIABATIC COOLING UNIT - An adiabatic cooling unit ( | 05-05-2011 |
20110100603 | MICROCHANNEL COOLING DEVICE FOR SMALL HEAT SOURCES - According to the invention, an apparatus for transferring heat with a target is disclosed. The apparatus may include a body which defines a surface, inlet and outlet ports, inlet and outlet manifold passages, and heat transfer passages. The surface may couple the target with the body. The inlet port may be configured to receive and direct a fluid into inlet manifold passages. The outlet port may be configured to receive and output the fluid. The inlet and outlet manifold passages may be configured to receive and direct the fluid to and from the heat transfer passages. The heat transfer passages may be configured to receive and direct all of the fluid from the inlet manifold passages in one or more directions substantially parallel to the surface and substantially perpendicular the input manifold passages. At least one heat transfer passages may have a plurality of fins on at least one surface. | 05-05-2011 |
20110108239 | HYBRID COOLING SYSTEM FOR AIRCRAFT APPLICATIONS - An aircraft cooling system includes a refrigerant cycle including a first heat exchanger. A liquid cycle passes a liquid through the first heat exchanger, at which it is cooled by a refrigerant in the refrigerant cycle. An air cycle compresses air and delivers the compressed air into a second heat exchanger. The liquid passes through the second heat exchanger at a location downstream of the first heat exchanger. The liquid cools the air in the second heat exchanger. Air downstream of the second heat exchanger passes to be utilized by a use on an aircraft. | 05-12-2011 |
20110108240 | TAPPING APPARATUS AND COOLING APPARATUS WITH TWO HEAT EXCHANGERS AND METHOD FOR THE FORMATION OF A TAPPING OR COOLING APPARATUS - A tapping apparatus, provided with a first heat exchanger ( | 05-12-2011 |
20110114291 | METHOD AND REACTORS FOR GASIFICATION OF FUELS IN THE FORM OF DUST, SOLIDS, OR LIQUIDS, SUCH AS COAL, PETROLEUM COKE, OIL, TAR, OR THE LIKE - With a method for cooling units subjected to stress at high temperatures, in cooled reactors for gasification of fuels that contain carbon, using gasification media that contain oxygen, whereby the reactor walls are cooled by way of a coolant circuit, penetration of substances from the reactor into the cooling circuit in the event of possible leaks is supposed to be reliably prevented. This is achieved in that the units to be cooled, such as, for example, gasification burners, burner muffles, or the like, are equipped with an independent cooling circuit, whereby this cooling circuit is directly connected with the main cooling circuit. | 05-19-2011 |
20110114292 | HEAT EXCHANGER - A heat exchanger | 05-19-2011 |
20110127009 | HEAT EXCHANGER FOR VEHICULAR AIR CONDITIONING APPARATUS - In a heater core that constitutes part of a vehicular air conditioning apparatus, a plurality of first and second tubes are provided through which heated water flows through the interior thereof, and fins having louvers therein are disposed between the first and second tubes. Further, the heater core is equipped with a first heating section, which faces toward a first front passage through which air from a first blower unit flows, and a second heating section, which faces toward a first rear passage through which air from a second blower unit flows. Between the first heating section and the second heating section, a partitioning fin is disposed for blocking communication of air mutually between the first and second heating sections. Additionally, the first and second tubes are arranged in parallel to the direction in which the partitioning fin extends. | 06-02-2011 |
20110132577 | System for the use of waste heat - A system for using the waste heat produced from the production of liquefied or solidified heat sink refrigerant in the production of fuel that includes a liquefied or solidified heat sink refrigerant production system, a fuel production system, and a heat exchanger. The liquefied or solidified heat sink refrigerant production system produces waste heat which is transferred through the heat exchanger to power the fuel production system. | 06-09-2011 |
20110139405 | SYSTEM AND METHOD FOR HEAT TRANSFER - A heat exchanger may be associated with a heat transfer system to promote flow of heat energy from a heat source to a multi-phase fluid. The heat exchanger may be associated with an expansion portion. The fluid may be a refrigerant to which nano-particles may be added. Embodiments of the present invention may be implemented in an air-conditioning system as well as a water heating system. | 06-16-2011 |
20110139406 | Pet Cooling Bed - Example embodiments of the pet cooling systems disclosed herein utilize heat transfer properties of water or other fluid in a top layer for holding a supply of water. The example embodiments herein increase the heat transfer properties of the water-filled layer by adding a second layer with an additional heat transfer device that serves to extend the length of time that the water-filled layer is effective in accomplishing heat transfer from the animal laying on the layer. A first top layer is configured to receive water or some other suitable fluid that operates to transfer heat away from the animal laying on the top layer. A second bottom layer is configured to receive a heat transfer device to transfer heat from the water in the first top layer, keeping the water cooler and allowing for more efficient transfer of heat from the animal in contact with the top layer. | 06-16-2011 |
20110155347 | ECONOMIZER WATER RECIRCULATION SYSTEM FOR BOILER EXIT GAS TEMPERATURE CONTROL IN SUPERCRITICAL PRESSURE BOILERS - A fluid recirculation system includes an arrangement of a flow control valve located to receive a flow of fluid from an inlet. The system further comprises an economizer inlet mixing device located to receive the flow of hotter fluid from the arrangement of the flow control valve and from a cooler feedwater stream. An economizer inlet mixing device located upstream of an economizer in a supercritical pressure boiler includes a sparger assembly through which a flow of fluid from the waterwall outlet is received, an inlet through which a flow of fluid from a feed stream is received, and a wave breaker assembly through which an outlet stream from the economizer inlet mixing device is directed. A method of increasing and controlling the temperature of a flue gas exiting an economizer in a supercritical pressure boiler includes receiving at least a flow of fluid from a fluid stream from a furnace waterwall outlet, combining at least a portion of the received flow of fluid with a feedwater stream, and directing the combined received flow of fluid and feedwater stream to an economizer inlet to decrease the economizer heat absorption. | 06-30-2011 |
20110162820 | COOLING PLATE FOR LITHIUM-ION BATTERY PACK - A cooling plate for a battery pack with a plurality of battery cells is provided. The cooling plate includes a cooling fin with a substantially planar surface and a perimeter. The cooling plate includes a frame abutting the cooling fin and forming a seal with the cooling fin adjacent the perimeter of the same. The frame and the cooling fin define at least one fluid inlet, at least one fluid outlet, and a flow channel therebetween. The at least one fluid inlet and the at least one fluid outlet are disposed through the seal and are in fluid communication with the flow channel. The flow channel is disposed adjacent the perimeter and in heat transfer communication with the substantially planar surface of the cooling fin. A battery pack with the cooling plate, and a method for controlling a temperature of the battery pack, are also provided. | 07-07-2011 |
20110168355 | STABILIZING NATURAL CIRCULATION SYSTEMS WITH NANO PARTICLES - Natural circulation loop/system adapted to suppress flow instability inherent to fluid medium due to low driving force and non-linearity of the natural circulation process including regenerative feed back between flow rate, driving force and pressure drop by selective metallic oxide nanoparticle base fluid media such as AI | 07-14-2011 |
20110168356 | LIQUID COOLED ELECTRICAL MACHINE - Flow control apparatus for an electrical machine and comprising an arrangement of shaped chambers and passages for conveying a liquid coolant. The rate of heat transfer from certain portions of the machine to the coolant is determined by the varying velocity of the liquid through the chambers, resulting in a generally uniform cooling of those portions of the machine. | 07-14-2011 |
20110174463 | Water Heating System - A water heating system, in which water from a relatively low pressure closed-loop heated water circuit flows through a heat exchanger, through which a relatively high pressure mains cold water feed also flows, to supply both a demand for hot water from the high pressure circuit and/or a demand from heated water consumers such as radiators or showers, is characterised by the feature that the low pressure heated water always flows first through the heat exchanger before supplying any of the heated water consumers; or by the feature that flow restrictors are incorporated into the heat exchanger circuit infeed; or both. | 07-21-2011 |
20110180236 | Vortical boiling phenomenon based water cooling block - A convective cooling cell is providing the vortical boiling regime of flow of coolant inside of it that allows exploiting important advantages of the vortical boiling phenomenon: highest coefficient of the heat transfer at very small increase of the hydro-resistance, unchangeable or even increasing performance (thermo-resistance) at increase of the coolant's discharge, and anti-adhesive action of stream inside the cooling cell. | 07-28-2011 |
20110186266 | Heat transfer device with anisotropic thermal conducting structures - An isotropic thermal conducting material are arranged in a heat dissipating device to create directional adiabatic heat transfer. In one embodiment, a preferential heat conduction is provided between a heat source and an absorption layer, an absorption layer and a cooling substance, and a cooling substance and a dissipation layer. Structures are further provided to create adiabatic channeling between an absorption and a dissipation. | 08-04-2011 |
20110186267 | Heat transfer device with anisotropic thermal conducting micro structures - An isotropic thermal conducting material are arranged in a heat dissipating device to create directional adiabatic heat transfer. In one embodiment, a preferential heat conduction is provided between a heat source and an absorption layer, an absorption layer and a cooling substance, and a cooling substance and a dissipation layer. Structures are further provided to create adiabatic channeling between an absorption and a dissipation. | 08-04-2011 |
20110192571 | WATER-COOLING HEAT DISSIPATION SYSTEM FOR LED SIGNBOARD - A water-cooling heat dissipation system for LED signboard includes a frame, at least one water pipe system, and at least one water-cooling unit. At least one heat receiving section and at least one LED module in contact with one another are mounted to the frame. The water pipe system includes at least one water pipe extended through the heat receiving section. The water-cooling unit includes at least one water inlet and water outlet pipes, which are respectively connected to a front and a rear end of the water pipe system. The water-cooling unit drives a cooling liquid stored therein to circulate in between the water pipe system and the water-cooling unit, so that heat is quickly carried away from the heat receiving section by the cooling liquid to dissipate into surrounding environment. The water-cooling heat dissipation system has upgraded heat transfer efficiency to achieve good heat dissipation effect. | 08-11-2011 |
20110192572 | HEAT EXCHANGER - A heat exchanger including a first heat sink, a second heat sink and a water-cooling unit. The first heat sink has a first contact section and multiple radiating fins. At least one cooling chip is attached to the first contact section. At least one first fan is disposed on the radiating fins. The second heat sink has multiple radiating fins and a second contact section. A second fan is positioned on the radiating fins and connected thereto. The second contact section is attached to a face of the cooling chip opposite to the first heat sink. The water-cooling unit has a water tank section and a pipe section having a first end and a second end, which are connected to the water tank section. The pipe section is inlaid in the first contact section and the water tank section is disposed on the radiating fins of the second heat sink. | 08-11-2011 |
20110192573 | SYSTEM AND METHOD FOR MOVING A FIRST FLUID USING A SECOND FLUID - A first fluid is moved using a second fluid. The first fluid may be moved using a ferrofluid attracted by an electromagnetic field. The electromagnetic field may be generated by an electromagnetic source connected to a conduit, and the first fluid may move through the conduit. In an embodiment, the first fluid may absorb heat from a heat source and transfer the heat to a heat sink. For example, the heat source may be a component of a tool located in a wellbore, and the heat sink may be the wellbore. In an embodiment, the electromagnetic source may be one or more three-phase coils. | 08-11-2011 |
20110203772 | SYSTEM AND METHOD FOR ENHANCED HEAT TRANSFER USING NANOPOROUS TEXTURED SURFACES - A system and method for performing heat dissipation is disclosed that includes contacting a heat transfer liquid with a heat exchange surface having raised hydrophilic nanoporous nanostructures disposed adjacent a central core upon a substrate. The heat transfer liquid forms a preselected contact angle when placed on the heat exchange surface. The raised nanoporous nanostructures define channels, interconnected pathways, and voids within the nanoporous nanostructures. The nanoporous nanostructures have additional surface irregularities upon the nanostructures themselves. The nanostructures are preferably formed by depositing metal oxides or other materials upon a substrate using a Microreactor Assisted Nanomaterial Deposition (MAND) process. | 08-25-2011 |
20110203773 | COOLING MEMBER, MANUFACTURING METHOD AND APPARATUS THEREOF - A cooling member includes a heat-transfer member having a groove and a refrigerant introducing pipe pressed into the groove. The refrigerant introducing pipe has a pressed region positioned inwardly of the edge of the heat-transfer member, and at least one curbed surface portion. A method for manufacturing a cooling member includes preparing a punch having at least one curved corner and a pressing surface, positioning the corner, and moving the punch closer to the groove to press the refrigerant introducing pipe into the groove with the pressing surface. A device for manufacturing a cooling member includes the punch and a support configured to support the heat-transfer member so the groove is positioned opposite the punch. | 08-25-2011 |
20110203774 | Heater Control in a Radio Network Node - The present invention relates to an arrangement ( | 08-25-2011 |
20110214839 | METHOD TO INCREASE GAS MASS FLOW INJECTION RATES TO GAS STORAGE CAVERNS USING LNG - A method to increase gas mass flow loading rates to a gas storage cavern includes using liquid natural gas (LNG) to cool natural gas in a natural gas flow line upstream of a compressor used to compress gas for storage in to a gas storage cavern. | 09-08-2011 |
20110220324 | BUILDING FOR A COMPUTER CENTRE WITH DEVICES FOR EFFICIENT COOLING - The invention relates to a structure of a multi-storey computer centre building which is suitable for accommodating a multiplicity of racks ( | 09-15-2011 |
20110220325 | VEHICLE WITH PNEUMATIC TIRE AND METHOD FOR COOLING TIRE IN THE VEHICLE - The first invention relates to a vehicle with pneumatic tires characterized in that the vehicle comprises a cooling unit which expels a fluid to cool the pneumatic tire from the outside thereof at least when the air pressure of the pneumatic tire decreases. And, the second invention relates to a tire cooling method in the vehicle with pneumatic tires comprising: a step of monitoring the air pressure of the pneumatic tire during running, and a step of expelling a fluid toward the pneumatic tire so as to cool the pneumatic tire from its outside when the air pressure falls below a predetermined value. | 09-15-2011 |
20110232870 | NITROGEN-CONTAINING FLUOROKETONES FOR HIGH TEMPERATURE HEAT TRANSFER - Nitrogen-containing fluorochemical ketones are provided that can be useful in apparatuses that includes a device and a mechanism for transferring heat. The provided fluorochemical ketones are stable at temperatures above 170° C., are environmentally friendly, and are economical to produce. The provided apparatuses can be useful for vapor phase soldering of electronic devices. | 09-29-2011 |
20110232871 | FLUOROETHER DIKETONES FOR HIGH TEMPERATURE HEAT TRANSFER - Fluoroether diketones are provided that can be useful in apparatuses that includes a device and a mechanism for transferring heat. The provided fluoroether diketones are stable at temperatures above 175° C., are environmentally friendly, and are economical to produce. The provided apparatuses can be useful for vapor phase soldering of electronic devices. | 09-29-2011 |
20110232872 | LIQUID HEAT-DISSIPATING MODULE - The present invention is related to a liquid heat-dissipating module, for dissipating the heat generated by a heating element, at least comprising: a heat-absorbing unit, being connected with the heating element, for absorbing the heat generated by the heating element; a fluid delivery device, for delivering a fluid, the fluid delivery device being stacked with the heat-absorbing unit and having a heat-dissipating structure; and a connecting pipe, being connected with the heat-absorbing unit and the fluid delivery device for delivering the fluid into the heat-absorbing unit, so as to absorb the heat of the heat-absorbing unit; the fluid absorbing the heat is then delivered back to the fluid delivery device, letting the heat-dissipating structure to dissipate the heat contained in the fluid. | 09-29-2011 |
20110253343 | METHOD, APPARATUS, SYSTEM AND HEAT EXCHANGER FOR INCREASING THE TEMPERATURE OF A SUBSTANCE WHICH IS INITIALLY IN AN AT LEAST PARTLY SOLIDIFIED STATE IN A CONTAINER - One aspect of the present invention relates to a method for increasing the temperature of a substance which is initially in an at least partly solidified state in a container, where at least one heat exchanger is arranged in the container. One object is to obtain that the temperature of a substance may be changed relatively fast. This is obtained by having pumping means for displacing the substance, exchanging heat between a heat exchanger and the substance, displacing substance with the pumping means for increased heat exchange between the heat exchanger and the substance, as well as stirring the substance with the pumping means by displacing the substance inside the container. When the substance is displaced, then not only stagnant substance is in contact with the heat exchanger for heat exchange. The amount of substance in contact with the heat exchanger is thereby greatly increased, and the heat transfer is less dependent on thermal conductivity of the substance. | 10-20-2011 |
20110259552 | USE OF MODIFIED, LOW-VISCOSITY SULFUR AS HEAT TRANSFER AND HEAT STORAGE FLUID - The invention relates to the use of a low-viscosity sulfur as a cost-effective heat transfer and heat storage fluid, the viscosity thereof being greatly reduced by saturation with hydrogen sulfide. Alternatively, the reduction in viscosity is optionally obtained by adding sulfur chloride. The melting point can be reduced by adding phosphorous. The temperature range of the use is from 130° C. up to 700° C. The fluid is particularly suitable for solar thermal power plants. | 10-27-2011 |
20110272121 | COOLING JACKET AND ELECTRONIC DEVICE HAVING THE SAME - A cooling jacket includes: first and second pipe portions through which a coolant flows; and a main portion connected with side surfaces of the first and second pipe portions, defining, with a single member, a flow path through which the coolant flows, and cooling an object to be cooled. | 11-10-2011 |
20110277961 | Vehicle Cooling System - The invention relates to a cooling system for a work vehicle. The cooling system includes a frame and a fan which is mounted in a door which pivotally coupled to the frame. A front engine radiator extends between the left and right sides of the frame. A left side oil cooler extends between the fan and the radiator. A right side hydraulic oil cooler extends between the fan and the radiator. A hydraulic reservoir is spaced apart from the front heat exchanger. A non-fixed fuel cooler is mounted between the radiator and the hydraulic reservoir. The non-fixed fuel cooler is pivotal about a first vertical pivot axis. A non-fixed AC condenser cooler is mounted between the radiator and the hydraulic reservoir. The non-fixed AC condenser cooler is pivotal about a second vertical pivot axis. The hydraulic reservoir has angled walls to accommodate pivoting of the non-fixed coolers. | 11-17-2011 |
20110284186 | COMPOUND TYPE HEAT EXCHANGER - In a compound type heat exchanger A | 11-24-2011 |
20110284187 | EBULLIENT COOLING DEVICE - To provide an ebullient cooling device that can prevent the freezing of liquid cooling medium, and which can inhibit the occurrence of burnout. | 11-24-2011 |
20110297353 | OILFIELD HEAT EXCHANGER - A fluid heating system and method are disclosed. The apparatus incorporates a two-stage heating system. The first stage uses heat produced by a large, primary heat source, such as a diesel engine. The primary heat source is used to heat a coolant solution contained within a closed loop. The first stage uses one or more high-efficiency liquid-to-liquid heat exchangers. The second stage transfers thermal energy from the heated coolant solution to a secondary fluid. The second stage uses a high-efficiency liquid-to-liquid heat exchanger. The secondary fluid is heated to a temperature suitable for an intended purpose. The secondary fluid may contain petroleum products that may coagulate at low temperatures. Heating such a fluid may be needed for processing of the fluid. By using an intermediary closed coolant loop, the primary heating fluid or fluids are contained in a separate flow loop from the secondary fluid. | 12-08-2011 |
20110303391 | Fluid Cooling System Particularly for Cooling Towers - A fluid cooling system has a liquid distribution system with feed pipe and distributor pipes connected thereto. The distributor pipes have full cone nozzles tangentially attached to the distributor pipes. The full cone nozzles each have a nozzle housing that has a rotation-symmetrical nozzle chamber with a rotational vertical axis, a connecting piece opening into the nozzle chamber, a nozzle mouth located downstream of the nozzle chamber and defining an outlet port, and a housing lid closing the nozzle chamber. The housing lid has an inside and extensions supported thereon, wherein the extensions face the nozzle chamber and project into the nozzle chamber. The connecting piece is positioned at a right angle relative to the rotational vertical axis and is offset relative to this axis. The outlet port is offset relative to the rotational vertical axis, in a direction toward the connecting piece. | 12-15-2011 |
20110315348 | MAGNETOCALORIC HEAT GENERATOR - A method for generating a heat flow from a magnetocaloric element ( | 12-29-2011 |
20120018128 | SLIM TYPE PRESSURE-GRADIENT-DRIVEN LOW-PRESSURE THERMOSIPHON PLATE - A slim type pressure-gradient-driven low-pressure thermosiphon plate includes a main body closed by a cover. The main body includes a central heat receiving zone, a pressure accumulating zone and a first flow passage unit separately located at two opposite sides of the heat receiving zone, a free zone communicating with the pressure accumulating zone, a first and a second condensing zone communicating with the free zone, a third and a fourth condensing zone communicating with the first flow passage unit, a second flow passage unit located between and communicating with the first and the third condensing zone, and a third flow passage unit located between and communicating with the second and the fourth condensing zone. In the thermosiphon plate, a low-pressure end is created through proper pressure-reduction design to form a pressure gradient for driving steam-water circulation, and the working fluid can transfer heat without any wick structure. | 01-26-2012 |
20120018129 | TEMPERATURE ADJUSTING APPARATUS, FLUID SUPPLY SYSTEM, HEATING SYSTEM, INSTALLATION METHOD OF TEMPERATURE ADJUSTING APPARATUS, AND FLUID SUPPLY METHOD - It is aimed to simultaneously supply hot water at a required temperature to a high-temperature heating appliance and hot water at a required temperature to a low-temperature heating appliance, the low-temperature heating appliance requiring hot water at a temperature lower than a temperature required by the high-temperature heating appliance, and to enhance efficiency by collecting surplus heat when the temperature of the hot water to be supplied to the low-temperature heating appliance is adjusted. A pipe through which flows the hot water at a high temperature to be supplied to the high-temperature heating appliance is branched into a first supply pipe and a second supply pipe. Heat exchange is effected between the hot water flowing through the first supply pipe and return water which has been supplied to a first appliance. The first supply pipe and the second supply pipe are joined again, so that the hot water which has flowed through the first supply pipe and the hot water which has flowed through the second supply pipe are mixed and supplied to the low-temperature heating appliance. | 01-26-2012 |
20120024498 | Fluid Recirculating Economizer - A flue gas heat recovery device is described. The device includes a packing tower. The packing tower is adapted to receive a flue gas stream. The packing tower also contains at least one water inlet, a water collection reservoir and a packing tray positioned between the inlet and reservoir. An air induction assembly may be attached to the packing tower or the inlet. A fuel gas line is in thermal communication with the reservoir. The fuel gas line has two ends a first end in close spatial relationship to a distal end of said reservoir, and a second end in close spatial relationship to a fuel output. Finally, a fluid conduit connects the second end of the fuel gas line and the water inlet. | 02-02-2012 |
20120061056 | RECOVERY OF HEAT FROM WASTEWATER - Device for recovering heat originating from wastewater, characterized in that it comprises a tank ( | 03-15-2012 |
20120080167 | HEAT DISSIPATING APPARATUS - A heat dissipating apparatus includes a base and a heat pipe. A plurality of fins partially overlaps the base; the heat pipe comprising a first body, a second body and a third body, the second body connected between the first body and the third body; the first body is secured between the plurality of fins and the base, the third body is secured to the plurality of fins, and the second body is located in a first corner between the base and the plurality of fins. | 04-05-2012 |
20120080168 | THERMOELECTRIC ENERGY STORAGE SYSTEM WITH AN INTERMEDIATE STORAGE TANK AND METHOD FOR STORING THERMOELECTRIC ENERGY - A system and method are provided for storing electric energy in the form of thermal energy. A thermoelectric energy storage system includes a working fluid circuit for circulating a working fluid through a heat exchanger, and a thermal storage medium circuit for circulating a thermal storage medium. The thermal storage medium circuit includes at least one hot storage tank, an intermediate temperature storage tank, and a cold storage tank connected together via the heat exchanger. A proportion of the storage medium is redirected to or from the intermediate storage tank from or to the hot or cold storage tank, joining another proportion which flows directly between the cold and hot storage tank. | 04-05-2012 |
20120111536 | AQUEOUS BASED COOLING OF COMPONENTS HAVING HIGH SURFACE AREA LEVELS OF ALUMINUM OR NICKEL - An aqueous-based coolant for cooling and reducing corrosion potential in applications having high aluminum or nickel surface area to coolant volume ratios has a pH between 8 and 9 and includes about 35 weight % to about 65 weight % propylene glycol, about 1.0 weight % to about 4.0 weight % 2-ethylhexanoic acid, about 0.25 weight % to about 1.0 weight % sebacic acid, about 0.25 weight % to about 1.0 weight % benzoic acid and about 0.03 weight % to about 0.1 weight % molybdate oxyanion. A cooling system includes an aluminum or nickel surface and the aqueous-based coolant. A method of cooling a component surface containing aluminum or nickel includes delivering the aqueous-based coolant to the component surface and cooling the component surface with the aqueous-based coolant. | 05-10-2012 |
20120125569 | METHOD FOR HEATING LIGHTWEIGHT METAL INGOTS - A method is described for heating lightweight metal ingots ( | 05-24-2012 |
20120132399 | METHOD OF OPERATING AN ASSEMBLY OF HEAT EXCHANGERS FOR SUBCRITICAL AND TRANSCRITICAL CONDITIONS, AND AN ASSEMBLY OF HEAT EXCHANGERS - The present invention refers to a method of operating an assembly ( | 05-31-2012 |
20120132400 | Heat Sink - The present invention provides a heat sink having improved heat-exchange. A heat sink ( | 05-31-2012 |
20120138269 | DUPLEX FLEXIBLE HEAT EXCHANGER - A method and system for cooling an electrical heat source is disclosed. A heat exchanger has two principal sub-assemblies. A closed-loop fluid flow is provided through a second sub-assembly, disposed next to a heat source. An open-loop fluid flow is provided though a first sub-assembly in communication with a second sub-assembly. Each of the first and second sub-assemblies has a rotational element. The fluid flow entering the first sub-assembly rotates the first rotational element, and magnetic communication between the rotational elements causes movement of the second rotational element, thereby achieving fluid movement within the second sub-assembly. Operationally, the closed-loop sub-assembly removes heat from the heat source and transfers it to the open-loop sub-assembly for subsequent heat transfer in a downstream fluid flow. | 06-07-2012 |
20120138270 | WATER-COOLED CONDENSER - Provided is a water-cooled condenser of which the size is reduced by a simple structure and the cooling efficiency is improved, in which a main heat-dissipating unit where a coolant discharged from a compressor exchanges heat with cooling water and a supercooling core unit where a coolant discharged from a receiver drier exchanges heat with cooling water have separate cooling circuits and are integrated in one unit, a second cooling water inflow pipe, which allows the cooling water to flow into the supercooling core unit, diverges from a first cooling water inflow pipe that allows the cooling water to flow into the main heat-dissipating unit, and the cooling water flowing in the supercooling core unit is discharged with the cooling water in the main heat-dissipating unit, through an internal connecting line. | 06-07-2012 |
20120138271 | METHOD FOR COOLING A METALLURGICAL FURNACE - In a method for cooling a metallurgical furnace having at least one cooling element which is flown through by a cooling mediums, a cooling medium that contains at least one ionic liquid, and preferably consists thereof, is carried through the cooling element, thereby preventing the problems that are associated with water cooling, such as the risk of hydrogen explosions and damage to the furnace lining | 06-07-2012 |
20120145355 | HOMOGENEOUS LIQUID COOLING OF LED ARRAY - A liquid-cooled heat sink includes a top plate having an array of circuitous liquid channels, each channel having a separate channel inlet and a common central outlet channel. The heat sink further includes a bottom plate having an inlet port and an outlet port. The heat sink further includes an intermediate plate having inlet guide channels providing fluid communication between the inlet port of the bottom plate and channel inlets of the top plate, said intermediate plate further including an outlet guide channel providing fluid communication between the common central outlet channel of the top plate and the outlet port of the bottom plate. | 06-14-2012 |
20120152495 | LIQUID COOLING DEVICE - A liquid cooling device includes a heat dissipating module and a container thermally connected to the heat dissipating module. The heat dissipating module includes a chamber, a first liquid inlet accessing the chamber and a first liquid outlet accessing the chamber. The container includes a liquid feeding channel and a liquid releasing channel isolated from each other. The liquid feeding channel accesses the chamber via the first liquid inlet. The liquid releasing channel accesses the chamber via the first liquid outlet. Heat absorbed by the heat dissipating module is taken away by a coolant successively flowing through the liquid feeding channel, the first liquid inlet, the chamber, the first liquid outlet and the liquid releasing channel. | 06-21-2012 |
20120168128 | COOLING AUGMENTATION USING MICROCHANNELS WITH ROTATABLE SEPARATING PLATES - A DL-microchannel cooling device with rotatable separating plate is disclosed. The separating plate is supported via anti-leaking flexible seals. The only allowable motion for that plate is the rotational motion about a pivot rod. The rod is taken to be aligned along the microchannel center line normal to its sides boundaries. The device can be configured as a flexible microheat exchanger and a heated DL-flexible microchannel device. The theory of linear elasticity applied to flexible seals supporting the separating plate is used to relate the moment of the pressure forces on that plate to its rotational angle. The energy equations for both fluids flows are solved numerically and analytically under special conditions. As such, the effectiveness of the flexible microheat exchanger and other performance indicators for flexible microheat exchanger and heated DL-flexible microchannel devices are calculated. The advantages of the proposed device in cooling attributes over the performance of the DL-rigid microchannel device is examined. | 07-05-2012 |
20120186783 | High Temperature Sensible Heat Recovery System - Heat is reclaimed from a high temperature gasifier exhaust gas of between 250° C. and 20000C. A first duct receives the exhaust gas, and outputs it at a reduced temperature. A second duct receives a heat transfer fluid and outputs it at an elevated temperature. A heat transfer arrangement conducts heat extracted from the product gas to the heat transfer fluid (steam), thereby elevating the temperature of the heat transfer fluid. A heat pipe formed of sodium, potassium, rubidium, or lithium, has a first end for communicating with the high temperature exhaust gas and a second end for communicating with the heat transfer fluid. The heat pipe has an envelope formed of a selectable combination of stainless steel, Inconel, nickel, molybdenum, tungsten, niobium, carbon, carbon composite, and Hastelloy X, and a safety valve that ensures safe operation. An adiabatic zone is interposed between the first and second ducts. | 07-26-2012 |
20120211199 | Silicon-Based Cooling Package with Diamond Coating for Heat-Generating Devices - Various embodiments of a thermal energy transfer apparatus that removes thermal energy from a heat-generating device are described. In one aspect, a thermal energy transfer apparatus comprises a silicon-based manifold having an internal cavity, a first primary side, and a second primary side opposite the first primary side. The second primary side of the manifold has at least one coolant inlet port and at least one coolant outlet port that are connected to the internal cavity of the manifold, the at least one coolant inlet port being at a position directly opposite a position on the diamond layer where the heat-generating device is received. A diamond layer covers at least a portion of the first primary side of the manifold such that the heat-generating device is in direct contact with the diamond layer when the heat-generating device is received on the first primary side of the manifold. | 08-23-2012 |
20120211200 | WATER HEATER SYSTEM, ESPECIALLY FOR MOTOR HOMES - A water heater system, especially for motor homes, includes a heater ( | 08-23-2012 |
20120247733 | PROCESS FOR APPLICATION OF ALCOHOLIC DERIVATIVE ON HEAT TREATED PELLETS FOR INHIBITION OF PARTICULATE EMISSION AND SYSTEM FOR APPLICATION OF ALCOHOLIC DERIVATIVE ON HEAT TREATED PELLETS FOR INHIBITION OF PARTICULATE EMISSION - A process for application of alcoholic derivative on heat treated pellets for inhibition of particulate emission is provided, and the process includes weighing the amount of heat treated pellets discharged from furnaces, measuring the temperature of the heat treated pellets discharged from furnaces, applying cooling fluid on the heat treated pellets until they reach temperatures below 140° C., and spraying the alcoholic derivative on the heat treated pellets. Also provided is a first device for applying cooling fluid that is capable of calculating a dosage of cooling fluid to be applied to the heat treated pellets, a second device for applying alcoholic derivative that is capable of calculating a dosage of alcoholic derivative to be applied to the heat treated pellets already cooled, and a carrier device that continuously communicates with the first device for applying cooling fluid and with the second device for applying alcoholic derivative. | 10-04-2012 |
20120267073 | COOLING APPARATUS - The cooling apparatus includes: a liquid storage tank receiving and storing a liquid; a. cooling pipe taking heat from the liquid stored in the liquid storage tank to cool the liquid; a refrigerating cycle supplying a low pressure refrigerant gas to the cooling pipe; and a fluid flow guiding unit installed within the liquid storage tank, preventing a liquid introduced into the liquid storage tank from being mixed with a liquid which has been previously introduced to be cooled in the liquid storage tank, and guiding the water such that the water sequentially flows to an outlet of the liquid storage tank. | 10-25-2012 |
20120267074 | COOLING DEVICE - A cooling device includes a base, first and second heat generating parts connected to the base, first and second passages formed in the base and a partition wall disposed in the base. Liquid refrigerant flows through the first and the second passages for cooling the first and the second heat generating parts, respectively. The first and the second passages are stacked one above the other through the partition wall in the base. The partition wall includes a first region opened to allow liquid refrigerant in the first passage to flow into the second passage and a second region located on the side of the first region to allow liquid refrigerant in the first passage to flow toward the downstream end of the first passage. The first region is formed such that an opening area of the first region is greater than an opening area of the first passage. | 10-25-2012 |
20120267075 | COOLING SYSTEM FOR RECIPROCATING COMPRESSORS AND A RECIPROCATING COMPRESSOR - Cooling system for reciprocating compressors comprising an atomizing nozzle ( | 10-25-2012 |
20120267076 | SYSTEM FOR RECOVERING WASTE HEAT - Provided is a system for recovering waste heat discharged from distillation columns, incinerators, blast columns, smelting columns, and the like at relatively low temperatures to produce hot water in high efficiency, which can be used in various industrial fields. The investment and operating costs of the waste heat recovery system are relatively low as compared with the conventional systems. | 10-25-2012 |
20120298335 | AIR-COOLING WALL WITH SLIDABLE HEAT EXCHANGERS - An air-cooling apparatus is provided which includes an air-cooling wall cooling airflow passing through an electronics rack(s) of a data center. The air-cooling wall is disposed separate from and in spaced relation to the air inlet or air outlet side(s) of the electronics rack(s), and includes a wall panel support structure disposed separate from the electronics rack(s), which supports one or more slidable wall panels. The slidable wall panel(s) includes an air-to-liquid heat exchanger slidably supported and disposed in spaced relation to the air outlet or air inlet side of the electronics rack(s). The heat exchanger extracts heat from air passing across the heat exchanger and is slidable within the support structure in a direction transverse to the direction of airflow through the rack(s). Slidable support of the heat exchanger by the support structure facilitates access to the air outlet or air inlet sides of the electronics rack(s). | 11-29-2012 |
20120298336 | METHOD AND APPARATUS FOR MICROREPLICATION - According to one exemplary embodiment, an apparatus for microreplication is disclosed. The apparatus includes a cooling unit that contains a bottom layer, a plurality of side walls, and an intermediate layer. The bottom layer has an outer perimeter, and the plurality of side walls surround the outer perimeter of the bottom layer. The intermediate layer is positioned between the bottom layer and an upper portion of the side walls. The intermediate layer may include a plurality of openings, which may either hold a device that dispenses cooling agents or be used for drainage of cooling agents. The method utilizes the apparatus after heating and pressing of a polymer film during microreplication. | 11-29-2012 |
20120318479 | Liquid cooled motor assembly and cover thereof - A liquid cooled motor assembly and a cover thereof The cover of the liquid cooled motor assembly has an outer cylinder, an inner cylinder, a channel and multiple fins. The inner cylinder is mounted in and connected securely with the outer cylinder. The channel is zigzag and is formed between the inner cylinder and the outer cylinder. The fins are mounted securely on an outer surface of the inner cylinder. With the fins mounted on the outer surface of the inner cylinder, water can dissipate heat from the fins quickly and a dissipating efficiency is enhanced. | 12-20-2012 |
20120325434 | PLATE HEAT EXCHANGER PLATE AND PLATE HEAT EXCHANGER - A plate heat exchanger plate with a main heat transfer portion comprising a first area comprising a first field with first corrugations arranged substantially on one side of a straight first line intersecting with second side edges and a second field with second corrugations arranged substantially on an opposite side of the first line is provided. The main heat transfer portion comprises a first outer area arranged between a first area and a first of the second side edges and extends along the first second side edge between two distribution portions. In the first outer area there are arranged first protrusions and recesses directed in a first general direction in relation to a straight second line parallel to one of first side edges. A plate with a straight first second edge may thus be provided when corrugations in the first area are directed in different directions. | 12-27-2012 |
20120325435 | METHOD OF PRODUCING BODY HAVING FLOW PATH FORMED THEREIN, AND BODY HAVING FLOW PATH FORMED THEREIN - The present invention provides a water-cooled heat sink having an integrated structure, and having inside a precise, freely formed flow path, the water-cooled heat sink being produced without using a technique for pasting a plurality of metal sheets. In a water-cooled heat sink | 12-27-2012 |
20130014914 | BOP HEATING METHODS AND SYSTEMS AND HEAT EXCHANGE UNITSAANM Colquhoun; JimAACI LangdonAACO CAAAGP Colquhoun; Jim Langdon CAAANM ROBB; SamAACI Red DeerAACO CAAAGP ROBB; Sam Red Deer CA - A BOP heating method includes operating a coiled tubing unit (CTU) using hydraulic fluid. The fluid is supplied from the CTU to an exchange tube and returned from the exchange tube to the CTU. The method includes transmitting heat from the fluid to an inner plate. Heat is transmitted from the inner plate to a BOP on which the inner plate is temporarily mounted. A BOP heating system includes a CTU configured to use hydraulic fluid, a supply tube configured to supply fluid from the CTU to an exchange tube, and a return tube configured to return fluid from the exchange tube to the CTU. A BOP heat exchange unit includes an outer plate and an inner plate, an exchange tube between the outer plate and the inner plate, and a heat spreading material between the exchange tube and the inner plate. The exchange unit lacks any electrical component. | 01-17-2013 |
20130014915 | ACCUMULATOR FOR A COOLING FLUID AND HEAT EXCHANGERAANM HIRSCH; StefanAACI StuttgartAACO DEAAGP HIRSCH; Stefan Stuttgart DEAANM NEFF; HeikoAACI AuenwaldAACO DEAAGP NEFF; Heiko Auenwald DEAANM WIEBELT; AchimAACI DeidesheimAACO DEAAGP WIEBELT; Achim Deidesheim DE - An accumulator for a cooling fluid is provided that includes a floor. The floor has an interface for connecting a chamber of the accumulator to at least one cooling tube. The floor also has an opening that extends at least over a partial area of the chamber. The accumulator furthermore has a lid that is embodied in such a way as to seal the opening of the floor in a fluid-tight manner. The lid is embodied as wire or extrusion profile. | 01-17-2013 |
20130020051 | LIQUID FUEL WITH ENDOTHERMIC FUEL-CRACKING CATALYST - A liquid fuel includes a hydrocarbon-based liquid fuel and an additive mixed with the hydrocarbon-based liquid fuel. The additive includes an endothermic fuel-cracking catalyst. | 01-24-2013 |
20130068424 | LIQUID COOLING HEAT EXCHANGER MODULE - A liquid cooling heat exchanger module filled with a cooling liquid includes a casing ( | 03-21-2013 |
20130105119 | LIQUID-COOLING HEAT EXCHANGE MODULE | 05-02-2013 |
20130118713 | LIQUID COOLING HEAT EXCHANGER MODULE - A liquid cooling heat exchanger module filled with a cooling liquid includes a casing ( | 05-16-2013 |
20130118714 | Method and Apparatus for Reclaiming Heat During Liquid Purification Using Heat Exchanges - A system capable of providing a liquid purification process using heat regenerating or recovering via heat exchangers (“HEs”). The system, in one embodiment, includes a first set of thermal conductive channels (“TCC”), a second set of TCC, and a third set of TCC. The first set of TCC configured in a first HE is arranged in cylindrical shape which is able to surround or enclose a boiler. A function of TCC is to guide a liquid flow traveling through an HE. The second set of TCC configured in a second HE guides a second liquid flow traveling through the second HE. The third liquid flow such as a cold water stream, for example, flows through the third set of TCC adjacent to the first set of TCC and extracts heat from the first liquid flow such as hot purified water via TCC. | 05-16-2013 |
20130126127 | HEAT EXCHANGER AND REFRIGERATION AND AIR-CONDITIONING APPARATUS - A heat exchanger includes a first flat pipe including plural through-holes through which a high-temperature fluid flows, a second flat pipe including plural through-holes through which a low-temperature fluid flows, a first tubular shape inlet header connected to one end of the first flat pipe, a first tubular shape outlet header connected to another end of the first flat pipe, a second tubular shape inlet header connected to one end of the second flat pipe, and a second tubular shape outlet header connected to another end of the second flat pipe. The first and second flat pipes are stacked with contacting flat surfaces. The low-temperature fluid flowing into the through-holes in the second flat pipe from the second inlet header is a fluid in a two-phase gas-liquid state, and flows into those through-holes in a substantially horizontal direction or in an upward direction relative to the substantially horizontal direction. | 05-23-2013 |
20130133860 | HEATING - A heating apparatus comprising a heating chamber in which a heater is configured to heat a heating liquid, a heat exchanger configured to receive the heating liquid from the heating chamber and to transfer heat energy from the heating liquid to a separate heating fluid and a pressure regulator configured to control a pressure inside the heating chamber, wherein the regulator is coupled at a first side to a pressure in the heating chamber and at a second side to atmospheric pressure outside the apparatus. A method of heating is also described. | 05-30-2013 |
20130133861 | UNIT FOR COOLING A FILM MADE OF SYNTHETIC MATERIAL - The invention relates to a cooling unit ( | 05-30-2013 |
20130146256 | HEAT EXCHANGER, IN PARTICULAR FOR A POWER SEMICONDUCTOR - The heat exchanger comprises a casing divided into two chambers ( | 06-13-2013 |
20130153174 | MICROCHANNEL HEAT EXCHANGER FIN - A heat exchanger includes a plurality of tubes ( | 06-20-2013 |
20130160973 | HEAT EXCHANGER HAVING ENHANCED PERFORMANCE - The invention relates to a heat exchanger including at least one elongate tube ( | 06-27-2013 |
20130168049 | Method for transferring heat - A process for transferring heat comprising the following steps:
| 07-04-2013 |
20130180686 | PRESSURE CONTROL UNIT AND METHOD FACILITATING SINGLE-PHASE HEAT TRANSFER IN A COOLING SYSTEM - A pressure control unit and method are provided for facilitating single-phase heat transfer within a liquid-based cooling system. The pressure control unit includes a pressure vessel containing system coolant, and a pressurizing mechanism associated with the pressure vessel. A coolant line couples system coolant in the pressure vessel in fluid communication with the coolant loop of the cooling system, and a regulator mechanism couples to the pressurizing mechanism to maintain pressure within the pressure vessel at or above a defined pressure threshold, thus maintaining pressure within the coolant loop above the pressure threshold. The defined pressure threshold is set to facilitate system coolant within the coolant loop remaining single-phase throughout an operational temperature range of the system coolant within the coolant loop. More particularly, the pressure threshold is set to ensure pressure of system coolant within the coolant loop remains above the coolant's saturation pressure at maximum operational temperature. | 07-18-2013 |
20130186597 | COMPRESSED GAS STORAGE UNIT - Embodiments of the present invention relate to compressed gas storage units, which in certain applications may be employed in conjunction with energy storage systems. Some embodiments may comprise one or more blow-molded polymer shells, formed for example from polyethylene terephthalate (PET) or ultra-high molecular weight polyethylene (UHMWPE). Embodiments of compressed gas storage units may be composite in nature, for example comprising carbon fiber filament(s) wound with a resin over a liner. A compressed gas storage unit may further include a heat exchanger element comprising a heat pipe or apparatus configured to introduce liquid directly into the storage unit for heat exchange with the compressed gas present therein. | 07-25-2013 |
20130192796 | HEAT MEDIUM HEATING DEVICE AND VEHICLE AIR CONDITIONER INCLUDING THE SAME - The heat medium heating device includes: a casing in which the flat heat exchange tubes | 08-01-2013 |
20130206367 | HEAT DISSIPATING MODULE - A heat dissipating module includes a base, at least one thermal conductive element, at least one liquid-pipe and a heat sink. The thermal conductive element is disposed at the base. The liquid-pipe is disposed adjacent to the thermal conductive element. The liquid-pipe is disposed at the base. The heat sink covers the thermal conductive element and the liquid-pipe. A part of the heat sink is connected to the base. The heat sink includes a plurality of fins. The heat dissipating module combines air-cooling with water-cooling so as to enhance thermal conductivity. | 08-15-2013 |
20130213607 | ROTATING ELECTRICAL MACHINE COOLING SYSTEM - A rotating electrical machine cooling system includes a cooling structure for a rotating electrical machine that is mounted on a hybrid vehicle, and a controller. The cooling structure includes a coolant discharge channel and a coolant supply channel through which a coolant is circulated between an oil pump unit and the interior of a case body that includes the rotating electrical machine therein. The cooling structure further includes a bypass flow channel that connects the oil pump unit and the interior of the case body with each other, and a relief valve that is provided in the bypass flow channel. The oil pump unit includes a mechanical oil pump and an electric oil pump. | 08-22-2013 |
20130213608 | COOLING RECOVERY SYSTEM AND METHOD - A cooling recover system and method are disclosed. A fluid, such as water, is chilled and provided to a cooling coil to cool and dehumidify air passing over the cooling coil. The fluid is output from the cooling coil through an outlet, and at least a portion of the fluid from the outlet of the cooling coil is provided to an inlet of a heat transfer coil to reheat air passing over the heat transfer coil. The fluid is warmed as it passes through the cooling coil, which warmer temperature serves to reheat the air passing over the heat transfer coil. | 08-22-2013 |
20130240178 | AUTOMATED THERMAL EXCHANGE SYSTEM - A system for condensing steam is provided that includes a cooling tank and a condensing coil extending into the cooling tank. Coolant from a source of coolant flows into the tank to cool the condensing coil when the temperature of the coolant in the cooling tank exceeds a predetermined value. A drain is in fluid communication with the cooling tank. An air gap assembly is located between the tank and the source of coolant. The air gap assembly includes an opening to atmospheric air and is constructed and arranged to allow coolant to flow out of the opening air vent when there is a predetermined amount of coolant back flowing into the device. | 09-19-2013 |
20130248149 | INDOOR DEVICE FOR AN AIR CONDITIONER - An indoor device is provided. The indoor device may include a base to be fixed to an indoor wall; a fan disposed on the base that blows air; an orifice disposed upstream of the fan that guides air to the fan; a heat exchanger disposed upstream of the orifice that allows air to exchange heat with a refrigerant; and a magnet disposed at the fan and having magnetism. | 09-26-2013 |
20130248150 | FIN AND HEAT EXCHANGER USING THE SAME - A fin for a heat exchanger includes a flat portion parallel to a flow direction of a fluid, multiple louvers cut and inclined from the flat portion and arranged in the flow direction, and a fluid-turning part arranged between two of the louvers adjacent to each other to be parallel to the flow direction. The louvers located upstream of the fluid-turning part are opposite from the louvers located downstream of the fluid-turning part in an inclination direction. The louvers include at least first louvers and second louvers. The first louvers are inclined from the flat portion at a first inclined angle larger than a second inclined angle at which the second louvers are inclined from the flat portion. The second louvers are arranged adjacent to the fluid-turning part. | 09-26-2013 |
20130248151 | APPARATUS FOR COOLING A HEAT SOURCE OF A MOTOR VEHICLE - The invention relates to an apparatus for cooling a heat source of a motor vehicle, comprising a hollow heat sink, an inlet for introducing a cooling fluid, an outlet for discharging a cooling fluid, a first collecting region for collecting the introduced cooling fluid, a second collecting region for collecting the cooling fluid to be discharged, and an insert part for guiding the cooling fluid from the first to the second collecting region, wherein the first and second collecting regions and the insert part are arranged within the heat sink. | 09-26-2013 |
20130264032 | Snow/ ice making & preserving methods - This invention relates to method and system for making of artificial snow or ice for outdoor as well as indoor artificial ski as well as method and systems for preserving ice for winter recreational activities, all year round for indoor facilities and at least half year or longer for outdoor facilities. It also relates to method and systems for preserving ice using embedded coolant lines capable of absorbing the heat from the thermal storage medium through a coolant and passing on same further to snow/ice layer. It also relates to method and systems for circulating waste snow/ice and using the thermal energy stored for snow making. | 10-10-2013 |
20130277014 | IMPROVED OPTICAL FIBER COOLING DEVICE - The invention relates to a device ( | 10-24-2013 |
20130277015 | REDUNDANT INTEGRATED LIQUID COOLING SYSTEM FOR AVIONICS - A cooling system cools at least one heat producing device provided in a unit of transport, and a method is provided for cooling at least one heat producing device provided in a unit of transport. The cooling system includes at least one first liquid circuit and at least one first heat exchanger assigned to the first liquid circuit, the first liquid circuit, for cooling the at least one first heat producing device, being configured to absorb heat of the first heat producing device via a cooling liquid circulating in the first liquid circuit and dissipate heat to the first heat exchanger, the first heat exchanger being coupled in such a manner to a first air-guiding system available on board the unit of transport, that exhaust air extracted from the first air-guiding system can be supplied to the first heat exchanger in order to recool the cooling liquid. | 10-24-2013 |
20130277016 | METHOD OF COOLING AN OBJECT WITH A FABRIC - A fabric for thermal management including the cooling of an object, such as a person's skin. The fabric is formed of a plurality of materials including at least one liquid transport enhancing material and at least one evaporative transport impeding material. When the fabric is in use, the transport enhancing material is located near an object to be cooled, while the evaporation impeding material is spaced away from the object. The fabric is peached so that there is an entanglement of the two materials. Peaching is performed on both sides of the fabric, but initially on the side with the transport enhancing material such that a portion of the evaporation impeding material is pulled into the fabric core. A method of making the fabric is also described. | 10-24-2013 |
20130284404 | LIQUID-COOLED-TYPE COOLING DEVICE AND MANUFACTURING METHOD FOR SAME - A liquid-cooled-type cooling device includes a casing having a top wall, a bottom wall, and a cooling-liquid passage, and a radiating member disposed in the cooling-liquid passage. The radiating member has a substrate and a plurality of pin-shaped fins. Longitudinally intermediate portions of the pin-shaped fins are brazed to the substrate. The substrate has a plurality of fin insertion holes, and the pin-shaped fins are inserted into the fin insertion holes of the substrate. A plurality of convex portions are integrally formed on the longitudinally intermediate portion of each pin-shaped fin. The substrate and the pin-shaped fins are provisionally fixed together by plastically deforming the convex portions such that they are crushed. In this state, the substrate and the pin-shaped fins are brazed together. The upper and lower end portions of the pin-shaped fins are brazed to the top wall and bottom wall, respectively, of the casing. | 10-31-2013 |
20130306273 | APPARATUS FOR THE COMPACT COOLING OF AN ARRAY OF COMPONENTS - An apparatus for the compact cooling of an array of components. The apparatus includes a housing with cover plates on opposing sides of the housing, and a frame between the cover plates. The frame is thermally coupled to each of the cover plates and includes a plurality of channels for passing coolant through the housing. | 11-21-2013 |
20130312936 | HEAT DISSIPATING MEMBER AND METHOD FOR PRODUCING THE SAME - The present invention provides a heat dissipating member having excellent heat dissipation properties and suitable for use in an oil environment. The present invention is a heat dissipating member including: a porous base material containing a fluorine resin and a thermally-conductive filler; and an oil contained in pores of the porous base material. The fluorine resin contains polytetrafluoroethylene. The heat dissipating member can be produced, for example, by a method including the steps of: (1) stacking and rolling together a plurality of sheet-shaped formed bodies each containing a polytetrafluoroethylene-containing fluorine resin, a thermally-conductive filler, and a molding aid, so as to obtain a rolled laminated sheet; (2) removing the molding aid from the obtained rolled laminated sheet to obtain a porous base material; and (3) impregnating the obtained porous base material with an oil. | 11-28-2013 |
20130319636 | OUTDOOR HEAT EXCHANGER COIL - A coil system for an outdoor heat exchanger in a HVAC system. The coil system comprises an integrated subcooler coil section positioned between the primary coil section and the expansion valve. A distributor combines the individual refrigerant streams from the coils of the primary coil section into a single refrigerant stream before separating the stream among the different coils of the subcooler section. The subcooler coil section is positioned such that the incoming air stream is directed directly at the subcooler coil section to maximize the difference in temperature between the air stream and the refrigerant within the subcooler section. | 12-05-2013 |
20130319637 | TITANIUM ALLOY MATERIAL EXCELLENT IN SCALE DEPOSITION INHIBITING PROPERTY AND FORMABILITY AND A METHOD OF PRODUCING THE SAME, AS WELL AS A HEAT EXCHANGER OR A SEAWATER EVAPORATOR - The titanium alloy material of the invention is excellent in a deposition inhibiting property of scales mainly comprising calcium carbonate contained in water and exhibits an excellent formability during manufacture of a heat exchanger or the like. The titanium alloy material of the invention contains P in an amount of 0.005 to 0.30% (mass % here and hereinafter) and Sn in an amount of 0.01 to 3.0%, with the balance of Ti and unavoidable impurities. Further, in a case where the titanium alloy material contains one or more elements selected from the group consisting of Cu, Fe, and Ni, they may satisfy the following formula (1): | 12-05-2013 |
20130333863 | Controllable Cooling System for a Motor Vehicle, Coolant Pump Therefor, Impeller for Use in the Coolant Pump, and Method for Controlling a Coolant Flow in Such a Cooling System - The present invention relates to a controllable cooling system ( | 12-19-2013 |
20130340975 | WATER TANK FOR USE WITH A SOLAR AIR CONDITIONING SYSTEM - A water tank for use in air-conditioning and/or heating systems and includes a container capable of storing at least one thousand gallons of a fluid. An evaporator coil is disposed within the container and the fluid contained within the container. The evaporator can consist as part of a refrigerant circuit. A pickup radiator coil is also disposed within the container and fluid. The pickup radiator coil can consist as part of a chilled water air conditioning water system for a dwelling. The water tank can be insulated. The fluid stored within said container can be a mixture of water and anti-freeze. | 12-26-2013 |
20130340976 | HEAT EXCHANGER AND METHOD FOR ESTIMATING REMAINING LIFE OF HEAT EXCHANGER - Dummy tubes are each provided near a gas inlet side and a gas outlet side of a heat recovery unit and near a gas discharge side of a re-heater via an intubation, and a heat medium is circulated in the dummy tube by a branched path which branches from a medium circulation path. The dummy tube is periodically extracted to check the quantity of thickness reduction of the surface thereof. Thus, it is possible to check the quantity of thickness reduction of the surface of the dummy tube, and determine the state of damage or the like of a heat transfer tube. | 12-26-2013 |
20140000849 | METHOD AND DEVICE FOR DRYING HUMID AIR | 01-02-2014 |
20140000850 | Heat exchanger for cooling a fluid of an internal combustion engine, assembly with at least one heat exchanger and method for manufacturing a heat exchanger | 01-02-2014 |
20140008041 | DISPLAY APPARATUS - A display apparatus is provided. The display apparatus includes: a display panel which displays an image on a front surface thereof; and a heat spreading module having a shape corresponding to the display panel to support a rear surface, opposite the front surface, of the display panel, wherein the heat spreading module includes a heat spreader including a working fluid therein and at least one channel provided therein to guide the working fluid. | 01-09-2014 |
20140014300 | HEAT EXCHANGER - A heat exchanger is provided that may include a shell; a first pipe that guides a first fluid into the shell; a tube, through which a second fluid that exchanges heat with the first fluid may pass; a second pipe, through which the first fluid is guided outside of the shell; and a base including a fastening portion to which the shell may be fastened and a support portion that supports the fastening portion. The fastening portion may have a tube hole, through which the tube may pass, and a pipe hole, through which at least one of the first pipe or the second pipe may pass, so that it is possible to increase availability of space at a side of and above the shell, and at least one of the first pipe, the second pipe, or the tube may be protected by the base, resulting in high reliability. | 01-16-2014 |
20140014301 | HEAT EXCHANGER FOR USE IN COOLING LIQUIDS - A heat exchanger has at least one inlet and outlet to permit circulation of refrigerant therethrough. Each heat exchanger includes a plurality of thin sections of material arranged between a pair of thin flat outer plates. Each of the thin sections of material is comprised of parallel flow paths, allowing for the refrigerant to flow through the inlet, then from one section to the next, and finally out the outlet. The arrangement of the sections of parallel flow paths allows for the refrigerant to come into contact with the majority of the inside wall of the outer plates, allowing for maximum heat exchange. In use for cooling liquids, the heat exchangers are arranged within a frame and brought into contact with the liquid to be cooled. When the heat exchangers are used to cool liquid sufficiently to produce ice crystals, a rotating scraping device sweeps across the surface of the heat exchanger, removing any ice crystals that have formed. | 01-16-2014 |
20140014302 | HEAT ENERGY SYSTEM FOR HEATING OR MAINTAINING THERMAL BALANCE IN THE INTERIORS OF BUILDINGS OR BUILDING PARTS - A heat energy system which can be used to heat or maintain thermal balance in the interiors of buildings or buildings parts. According the invention there are containers built near and/or instead of surrounding surfaces of a room: of upper and lower surrounding surfaces to at least certain extent, and at least two parts of opposite side surrounding surfaces; and the neighboring containers are connected, and all containers define one closed fluid volume which is filled with heat transporting fluid. The typical layout of the invention is shown in FIG. | 01-16-2014 |
20140020866 | HEAT EXCHANGER - The present invention relates to a heat exchanger, especially oil cooler for vehicles, comprising a heat exchanging element with a first terminal plate closing the heat exchanging element on one of its sides and with at least one opening provided with a socket for inlet or release of a fluid into or from the heat exchanger element, at least a first gasket carrier plate, with a first lateral face being arranged adjacent to the first terminal plate and a second lateral face being arranged opposite to the first lateral face, at least one passage opening leading from the first to the second lateral face for taking up at least one socket of the first terminal plate, at least a first sealing element, being arranged between the first terminal plate and the first gasket carrier plate, completely encircling the circumferential edge of the at least one passage opening on the first lateral face and sealing the passage opening between the first terminal plate and the first gasket carrier plate, at least a second sealing element, being arranged adjacent to the second lateral face and completely encircling the circumferential edge of the passage opening on the second lateral face, with the at least one socket of the first terminal plate being bulged outwardly, advantageously adjoining to the second sealing element at least in sections. | 01-23-2014 |
20140020867 | THERMAL TRANSFER DEVICE WITH SPIRAL FLUID PATHWAYS - A thermal transfer device comprising a thermal transfer surface and a passageway for conducting a thermal transfer fluid from an inlet to an outlet while passing in thermal contact with the thermal transfer surface. The passageway has at least two spiral passages and a connection channel connecting the at least two spiral passages to permit flow of the heat transfer fluid from a first spiral passage to a second spiral passage; thereby forming a path for the flow of the thermal fluid from the inlet, through the passageway, along the first spiral passage to the connection channel, then along the connection channel to the second spiral passage, and then to the outlet. | 01-23-2014 |
20140020868 | HEAT EXCHANGER WITH LAMINARIZER - A heat exchanger enables an efficient and uniform cooling and/or heating of liquids, in particular of blood. The heat exchanger includes an elongated, substantially cylindrical, housing, a plurality of capillaries, which are fastened inside the housing by means of partitions so that they are substantially parallel with the longitudinal axis of the housing and mutually placed in defined distances from, while the housing contains an inlet and an outlet of the cooling/heating liquid and a finishing element at each end. The element contains an input, or output of the cooled/heated liquid and includes inside the housing at least one laminarizer in the form of a partition with a plurality of openings, always one opening for each capillary, the diameter of the opening being bigger than the outer diameter of the capillary, and laminarizer is placed so that capillaries go through the centre of the opening in the laminarizer. | 01-23-2014 |
20140041835 | COOLING DEVICE FOR A VEHICLE BATTERY - A cooling device for a vehicle battery with battery cells, and which includes a cooling body which thermally contacts the battery cells. The cooling body has channels through which a coolant flows. A coolant distributor is provided on the cooling body and includes an inflow and/or an outflow for coolant which is fluidically connected to certain channels. A first flow opening is formed at the inflow and/or outflow of the coolant distributor and extends in a direction of a main channel of the channels, the main channel being the channel which is furthest away from the inflow and/or outflow. | 02-13-2014 |
20140041836 | SEALED SELF-CONTAINED FLUIDIC COOLING DEVICE - A cooling system and method for cooling electronic components, including IC dies. The cooling system employs a cooling device that includes a composite structure having first and second plates arranged substantially in parallel and bonded together to define a sealed cavity therebetween. The first plate has a surface that defines an outer surface of the composite structure and is adapted for thermal contact with at least one electronic component. A mesh of interwoven strands is disposed within the cavity and lies in a plane substantially parallel to the first and second plates, with the strands bonded to the first and second plates. A fluid is contained and sealed within the cavity of the composite structure, and flows through interstices defined by and between the strands of the mesh. | 02-13-2014 |
20140048232 | Apparatus for Cooling Beverages - A beverage cooling device to cool the beverage by a cooling liquid may include a container to cool the beverage and a coil to extend into and out of the container. The beverage may be coffee. The cooling fluid may be water. The container may hold the beverage. The coil may extend through a sidewall of the container. The coil may include an input and an output and wherein the input and output extend over the sidewall of the container. | 02-20-2014 |
20140054013 | LIQUID PANEL ASSEMBLY - A liquid panel assembly configured to be used with an energy exchanger may include a support frame having one or more fluid circuits and at least one membrane secured to the support frame. Each of the fluid circuits may include an inlet channel connected to an outlet channel through one or more flow passages. A liquid is configured to flow through the fluid circuits and contact interior surfaces of the membrane(s). The fluid circuits are configured to at least partially offset liquid hydrostatic pressure with friction loss of the liquid flowing within the fluid circuits to minimize, eliminate, or otherwise reduce pressure within the liquid panel assembly. | 02-27-2014 |
20140060778 | HEAT EXCHANGER, AND METHOD FOR TRANSFERRING HEAT - A heat exchanger is provided to efficiently transfer heat between air and a flow of refrigerant in a reversing air-sourced heat pump system. When the system is operating in heat pump mode, a flow of air is directed through the heat exchanger and is heated by the refrigerant. A portion of the flow of air is used to de-superheat the refrigerant in a first section of the heat exchanger, and is prevented from re-heating the sub-cooled refrigerant in another section of the heat exchanger after the remaining air has been heated by the refrigerant. The same heat exchanger can be used to cool a flow of air using expanded refrigerant when the system is operating in an air conditioning (cooling) mode. | 03-06-2014 |
20140069615 | COOLER AND METHOD FOR PRODUCING THE SAME - A cooler includes: a housing in a form of a frame including a first opening and a second opening opposite to each other; a first radiator including a first substrate joined to the housing—to close the first opening, and a first heat radiation unit provided on the first substrate; and a second radiator including a second substrate joined to the housing to close the second opening, and a second heat radiation unit provided on the second substrate, the first heat radiation unit—having a plurality of first fins, the second heat radiation unit having a plurality of second fins, the first fins each abutting against a tip of at least one second fin. | 03-13-2014 |
20140090809 | COOLING DEVICE - A cooling device to which a heating element is joinable includes a base, a plurality of first groups of pin fins and a plurality of second groups of pin fins. The second groups and the first groups are arranged alternately in a flow direction in which a cooling medium flows through a passage of the base. A second outermost pin fin of each second group is more distant from a side surface of the base than a first outermost pin fin of each first group. Width between a side surface of the second outermost pin fin of each second group and the side surface of the base is the same as or larger than width between a side surface of the pin fin of each first group that is adjacent to the first outermost pin fin of the first group and the side surface of the second outermost pin fin. | 04-03-2014 |
20140090810 | HEAT EXCHANGER - Heat exchanger having a housing, having a fluid inlet and having a fluid outlet, wherein the heat exchanger is in fluid communication via the fluid inlet and the fluid outlet with a fluid circuit, having a flow-guiding element in the interior of the housing, wherein the housing is formed from a substantially planar housing upper part and a substantially trough-like housing lower part, wherein the housing lower part has a base region and an encircling side wall, wherein the housing lower part is formed by a supporting structure and an encasement and the supporting structure is at least partially surrounded by the encasement, wherein the supporting structure is formed from a metallic material, and the encasement is formed substantially from a plastic, wherein the housing upper part is formed from a plastic and the housing lower part is connected to the housing upper part substantially by means of plastic-on-plastic contact. | 04-03-2014 |
20140090811 | HEAT EXCHANGER - Heat exchanger ( | 04-03-2014 |
20140090812 | HEAT EXCHANGER - Heat exchanger having a first collecting box and having a second collecting box, having at least one tube arranged between the two collecting boxes, wherein a fluid inlet and a fluid outlet are provided which are arranged individually on in each case one of the collecting boxes or on a single one of the collecting boxes, wherein the tube is received at the ends in an opening in in each case one of the collecting boxes and is in fluid communication with the collecting boxes, wherein the opening is surrounded by an opening edge whose contour corresponds to the outer contour of the tube, and in that the opening is designed such that the opening cross section narrows toward the interior of the collecting box and the tube can be inserted, under preload at the circumference, into the opening. | 04-03-2014 |
20140090813 | HEAT EXCHANGER - Heat exchanger having a housing, having a first fluid port and having a second fluid port, wherein the housing is in fluid communication with a fluid source via the fluid ports, wherein the housing can be traversed by a flow of a fluid, wherein the housing is of multi-part design and has a housing upper part and a housing lower part, wherein the housing upper part and/or the housing lower part has a base region and an at least partially encircling turned-up edge region, wherein housing the two parts are formed from a plastic or a fiber composite material. | 04-03-2014 |
20140096938 | HEAT DISSIPATION DEVICE - The heat dissipation device is provided with a body portion, to which a heating element is thermally coupled. A coolant passage through which the coolant, which dissipates heat of the heating element, flows is provided in the body portion. A passage forming portion, which forms at least one of an inflow passage and an outflow passage, is molded integrally with the body portion. | 04-10-2014 |
20140116650 | TONER FIXER IMPINGING HEATING LIQUID ONTO MEDIUM - A toner fixing system for fixing toner onto a receiver medium includes a liquid-supply system for providing a heating liquid. A liquid-heating system warms the heating liquid to a temperature greater than the toner glass transition temperature. A liquid-delivery system impinges the warmed heating liquid onto a surface of the receiver medium so that heat is transferred from the warmed heating liquid to the toner. This raises the temperature of the toner to a level above the toner glass transition temperature. | 05-01-2014 |
20140116651 | HEAT SINK APPLICABLE FOR ELETROMAGNETIC DEVICE - The present disclosure provides a heat sink applicable for electromagnetic device comprises a first panel, a second panel, and a plurality of supporting structures connecting with the first panel and the second panel. Wherein the first panel, the second panel and the supporting structures together constitute a plurality of medium channels for cooling medium flowing therethrough. Wherein at least some of the medium channels are provided with openings formed on the first and/or second panels, and no close conductive loop is formed on cross section perpendicular to a medium flowing direction of the medium channels with the openings. Wherein a total area of all openings on the first panel is less than 50% of an area of the first panel, a total area of all openings on the second panel is less than 50% of an area of the second panel. | 05-01-2014 |
20140124172 | COOLED FLYWHEEL APPARATUS - A flywheel is provided with an annular drive shaft and a stationary cooling member for directing a coolant into the drive shaft annulus. Coolant pumped through the cooling member will contact the wall of the annulus to cool the drive shaft and components thermally coupled to the drive shaft. Where the flywheel has an upright axis of rotation with the annulus opening downwardly, coolant falls from the annulus to a sump positioned below the drive shaft. | 05-08-2014 |
20140138054 | COOLING APPARATUS, AND MANUFACTURING APPARATUS AND MANUFACTURING METHOD OF HOT-ROLLED STEEL SHEET - Provided is a cooling apparatus discharging water smoothly corresponding to increase of volume density of cooling water securing a high cooling capability. The apparatus disposed on downstream side from a row of hot finish rolling mill, supplying cooling water from above toward a pass line, includes a plurality of cooling nozzles arranged parallel in a pass line direction, and an upper surface guide disposed between the pass line and the cooling nozzles, wherein a predetermined relation is satisfied when defining: a volume density of cooling water sprayed as q | 05-22-2014 |
20140138055 | MOLDING APPARATUS AND METHOD WITH HEAT RECOVERY - Apparatus and method for recapturing and reusing heat provided in the course of fabricating a molded product. | 05-22-2014 |
20140174698 | BLOOD PURIFICATION MACHINE COMPRISING HEATED FLUID CIRCUIT - A machine for extracorporeal blood treatment comprising a machine-side fluid circuit is disclosed. The machine comprises a heat exchanger for heating cold purification fluid freshly supplied on its intake side, for which purpose used still warm purification fluid flows past its opposite discharge side for a heat exchange, and a circulation valve for changing over between a blood purification mode in which the used purification fluid is disposed of in an open fluid circuit through the discharge side of the heat exchanger into a drain and a disinfection mode in which hot disinfectant is circulated in a closed circuit. The circulation valve is connected downstream of the heat exchanger with respect to the discharge side thereof. | 06-26-2014 |
20140190665 | Modular Jet Impingement Cooling Apparatuses With Exchangeable Jet Plates - Modular cooling apparatuses are disclosed. In one embodiment, a cooling apparatus includes an inlet manifold, a jet plate manifold, a plurality of jet plates, a vapor manifold, and a target layer. The inlet manifold includes a fluid distribution chamber, and a plurality of fluid distribution channels symmetrically located within the fluid distribution chamber. The jet plate manifold is coupled to the inlet manifold such that the plurality of jet plate openings is vertically aligned with respect to the plurality of fluid distribution channels. The plurality of jet plates is removably disposed in the jet plate manifold. The vapor manifold has a plurality of walls that define a vapor manifold opening and at least one outlet channel through at least one of the walls. The target layer is coupled to the vapor manifold such that the jet orifice surface of each jet plate is positioned above the target layer. | 07-10-2014 |
20140202663 | SUB FREEZING LOAD HEAT EXCHANGER BYPASS - An air-liquid heat exchanger assembly for an environmental control system of an aircraft is provided including a heat exchanger configured to transfer heat between air and a liquid. The heat exchanger includes a first chamber and a second chamber arranged generally in series relative to a flow of the liquid. A movable bypass valve is operably coupled to a controller. The bypass valve is positioned between and coupled to the first chamber and the second chamber. The bypass valve is configured to control the flow of the liquid through the second chamber and a bypass conduit in response to measured operating conditions of the assembly. | 07-24-2014 |
20140202664 | Drilling Fluid Sampling System and Sampling Heat Exchanger - A system for sampling drilling fluid to identify one or more species of interest within the drilling fluid includes a heat exchanger. The heat exchanger has a first fluid passage and a second fluid passage. Each fluid passage has an inlet and an outlet. In addition, the system includes a supply line coupled to the inlet of the first fluid passage. Further, the system includes a return line coupled to the outlet of the second fluid passage. Still further, the system includes a drilling fluid heater having an inlet coupled to the outlet of the first fluid passage and an outlet. The system also includes a drilling fluid degasser having an inlet coupled to the outlet of the heater, a first outlet coupled to an analyzer configured to identify the one or more species of interest, and a second outlet coupled to the inlet of the second fluid passage. | 07-24-2014 |
20140216690 | LIQUID DISTRIBUTION DEVICE UTILIZING PACKED DISTRIBUTION TROUGHS AND A MASS TRANSFER COLUMN AND PROCESS INVOLVING SAME - A flow distributor for a liquid descending in a vertically elongated mass transfer column, a mass transfer column employing the same, and a method of treating a fluid stream in the mass transfer column is provided. The flow distributor includes a central distribution member for passing liquid to a plurality of outwardly extending side arm members, which, in turn, feed the liquid into a plurality of distribution troughs located below the elongated side members. The distribution troughs, which may be oriented substantially perpendicularly or substantially parallel to the elongated side members, include a bed of packing material disposed therein. Use of such distributors in vapor-liquid or liquid-liquid columns results in more uniform horizontal distribution of the liquid across the diameter of the column. | 08-07-2014 |
20140262156 | FIN CONFIGURATION FOR AIR COOLED HEAT EXCHANGER TUBES - The present invention provides an air cooled, finned heat exchanger tube, comprising a metallic tube through which fluid to be cooled is flowable, having an outer surface on which axially spaced circumferential indentations are formed, and a plurality of axially spaced fins each of which having a main element formed with heat transfer promoting patterns and a base angled with respect to said main element, wherein the base is frictionally and irremovably secured within a corresponding indentation formed within the tube outer surface so that said tube outer surface is completely covered when the base of each of said fins is secured to a corresponding indentation. | 09-18-2014 |
20140284028 | COOLER - A cooler is disposed in contact with an electronic component to cool the electronic component. The cooler includes a flow passage for a cooling medium, a heat transfer portion, and a non-conductive portion. The flow passage is provided in the cooler. The heat transfer portion is in contact with the electronic component and contacts the cooling medium that flows through the flow passage. The non-conductive portion is provided in the heat transfer portion. | 09-25-2014 |
20140290912 | HEAT TRANSFER SYSTEM WITH AQUEOUS HEAT TRANSFER FLUID - According to one aspect of the invention, a heat transfer system comprises a heat transfer fluid circulation loop. The heat transfer system includes a heat exchanger disposed in the heat transfer fluid circulation loop. The heat transfer fluid is an aqueous solution having a pH of 7.8 to 8.0 that comprises from 1.00 wt. % to 1.20 wt. % of a buffer composition comprising sodium and/or potassium salts of borate, carbonate, sodium bicarbonate, from 0.40 wt. % to 0.60 wt. % of a straight chain aliphatic dicarboxylic acid, from 0.90 wt. % to 1.10 wt. % of a branched aliphatic carboxylic acid, from 0.40 wt. % to 0.60 wt. % of an aromatic carboxylic acid, from 0.04 wt. % to 0.08 wt. % of a molybdate salt, and from 0.01 wt. % to 0.03 wt. % of an aldehyde biocide, based on the total weight of the heat transfer fluid. | 10-02-2014 |
20140299296 | GALLEY COOLING - A cooling module of a galley chiller system is provided including an internal chamber. A heat exchanger assembly has air and a liquid coolant flowing there through. The heat exchanger assembly includes a first heat exchanger core and a second heat exchanger core. The first heat exchanger core and the second heat exchanger core are arranged generally sequentially within the internal chamber. Heat transfer within the first heat exchanger core is limited such that a temperature of the air in the first heat exchanger core remains above freezing. | 10-09-2014 |
20140311711 | COOLING TANK FOR RAILS - A cooling tank for the thermal treatment of a rail head provided with a structure comprising a first volume ( | 10-23-2014 |
20140338864 | COOLING AND CONTROL OF A LOAD BANK USED IN A POWER GENERATION SYSTEM - A power generation system that may include a generator having an alternator and an internal combustion engine configured to drive the alternator to generate power. The alternator may convert the mechanical energy created by the engine to electrical energy, such as alternating current. The generator may supply the electrical energy from the alternator to various devices which may be connected with the alternator. The power generation system may further include a load bank. The load bank may include one or more resistive elements, inductive elements, capacitive elements, or combinations of elements. The power generation system may include a cooling system that may remove heat from one or both the internal combustion engine and the load bank. The cooling system may include a liquid that passes through various components of the internal combustion engine to transfer the heat to or from the engine and the load bank. | 11-20-2014 |
20140374066 | BUBBLE-REMOVAL DEVICE, OUTDOOR HEAT-EXCHANGE DEVICE, AND REFRIGERATION/AIR-CONDITIONING SYSTEM - A bubble-removal device ( | 12-25-2014 |
20150007963 | IONIC LIQUIDS FOR COOLING IN HIGH TEMPERATURE ENVIRONMENT - Cooling medium comprising an ionic liquid with a hydrogen content of 0% to 8.5% by weight and its use. | 01-08-2015 |
20150034277 | COOLING TOWER FILL - A fill sheet for use in a fill arrangement in a direct heat exchange section of a cooling tower is provided. Each fill sheet includes ridges, grooves, separators, that improve the performance of the fill sheet arrangement when installed as a direct heat exchange section of a cooling tower. The separators are located in minor air paths between the fill sheet to improve the air flow capabilities and performance of the direct heat exchange section. | 02-05-2015 |
20150075751 | FLUID DISTRIBUTION NETWORK FOR LARGE STATOR MOTOR - A reaction assembly ( | 03-19-2015 |
20150083369 | METALLIC THIN-FILM BONDING AND ALLOY GENERATION - Diffusion bonding a stack of aluminum thin films is particularly challenging due to a stable aluminum oxide coating that rapidly forms on the aluminum thin films when they are exposed to atmosphere and the relatively low meting temperature of aluminum. By plating the individual aluminum thin films with a metal that does not rapidly form a stable oxide coating, the individual aluminum thin films may be readily diffusion bonded together using heat and pressure. The resulting diffusion bonded structure can be an alloy of choice through the use of a carefully selected base and plating metals. The aluminum thin films may also be etched with distinct patterns that form a microfluidic fluid flow path through the stack of aluminum thin films when diffusion bonded together. | 03-26-2015 |
20150083370 | PUMP SEALING DEVICE - The invention relates to a device for sealing a pump of a nuclear power station. Said includes: a mechanical packing and a fluid header. The header includes:
| 03-26-2015 |
20150136361 | Heat Transfer Using Flexible Fluid Conduit - Heat transfer between a fluid-bearing flexible tube and a heat-conducting surface is improved by fixing a flexible heat-conducting sheath to the flexible tube and by compressive fixing that distorts the tube and deforms the sheath and/or the surface. The tube can be made of cross-linked polythene (PEX). The sheath can be spirally wound high-purity aluminum wire. The sheath enables efficient heat transfer between the outer surface of the tube and the heat-conducting surface. Applications include radiant heating and cooling. Tube layout can be customized and variable tube spacing is possible, for example by using a castellated layer to support the tube. | 05-21-2015 |
20150144305 | COOLING WATER CIRCULATION DEVICE - In a cooling water circulation device for use in a NO | 05-28-2015 |
20150144306 | COMPOSITIONS AND METHODS FOR REFRIGERATION - Heat transfer systems, methods and compositions which utilize a heat transfer fluid comprising: (a) from about 30% to about 65% by weight of HFC-134a; (b) from about 0% to about 70% by weight of HFO1234ze; and (c) from about 0% to about 70% by weight of HFO-1234yf, provided that the amount of HFO-1234ze and HFO-1234yf in the composition together is at least about 35% by weight, with the weight percent being based on the total of the components (a)-(c) in the composition. | 05-28-2015 |
20150319833 | OPTIMIZED THERMAL NOZZLE AND METHOD OF USING SAME - Nozzle for thermal spray gun, thermal spray gun and method of optimizing nozzle of thermal spray gun. The nozzle includes a central bore comprising a conical bore and a cylindrical bore. The conical bore is delimited by a conical wall surface in a conical bore section, the cylindrical bore is delimited by a cylindrical wall surface in a cylindrical bore section, and the conical bore section and the cylindrical bore section are structured so that heat is removed more rapidly from the conical wall than from the cylindrical wall. | 11-05-2015 |
20150362256 | ADVANCED AIR TERMINAL - An air terminal for a heating or air conditioning system includes a housing and a fresh air inlet in the housing to supply a fresh airflow to the air terminal. An outlet diffuser is located at the housing to allow airflow from the air terminal into a conditioned space. An inlet diffuser is located at the housing to allow return airflow from the conditioned space into the air terminal. A coil is located in the housing through which a heat transfer medium is flowable to condition the fresh airflow and/or the return airflow prior to flowing through the outlet diffuser into the conditioned space. A fan is located in the housing to urge return airflow through the inlet diffuser and across the coil. | 12-17-2015 |
20160014929 | ALUMINUM HEAT EXCHANGER | 01-14-2016 |
20160037685 | ADAPTABLE CONTAINER MOUNTED COOLING SOLUTION - A cooling apparatus for a container-based data center comprises an air handling housing, at least one movable louver, a filter and a fan. The housing is configured for suspending from a ceiling of the container and comprises at least one heat exchanger. The louver is movable to direct air flow along different paths within the housing according to a selected operating mode. The fan is positioned in the housing and controllable according to the selected operating mode. The heat exchanger is configured in a self-contained water chilling circuit positioned within the container for use in a closed loop mode. The apparatus is convertible for use in an economizer mode that draws outside air into the container. An optional auxiliary heat exchanger element has a cold side heat exchange portion positioned outside the container and a connection through the ceiling to a hot side heat exchange portion positioned within the housing. | 02-04-2016 |
20160061540 | HEAT DISSIPATION DEVICE AND METHOD FOR MANUFACTURING SAME - A heat dissipation device includes a first copper sheet and a second copper sheet. The first copper sheet includes a number of first recesses and the second copper sheet includes a number of corresponding second recesses. The second copper sheet is fixed on the first copper sheet and an airtight receiving cavity is formed by each first recess and each the second recess, a working fluid in the airtight receiving cavity carries unwanted heat away. | 03-03-2016 |
20160091256 | Entrochemical Energy Transfer System and a Process for Obtaining Work from Environmental Thermal Energy - An entrochemical energy transfer system and a related process for obtaining work from environmental thermal energy are disclosed. In one embodiment, a plurality of linked entrochemical cells with nested chambers provides an aggregate thermal gradient of each entrochemical cell by transferring environmental thermal energy in and/or out of the plurality of linked entrochemical cells. The aggregate thermal gradient generated from the plurality of linked entrochemical cells can be utilized as an environmentally-friendly energy source for human needs. The entrochemical energy transfer system and the related process for obtaining work from environmental thermal energy utilize a set of entropy transfers from Earth's day and night thermal energy inflows and outflows. Furthermore, in a preferred embodiment, the process for obtaining work from environmental thermal energy involves two steps, each step resulting in entropic increases and transfers. | 03-31-2016 |
20160138876 | IONIC LIQUIDS FOR COOLING IN HIGH TEMPERATURE ENVIRONMENT - Cooling medium comprising an ionic liquid with a hydrogen content of 0% to 8.5% by weight. The cooling medium can be used in a method for cooling a technical device, examples of which include:
| 05-19-2016 |
20160146553 | HEAT EXCHANGER WITH AN ADAPTER UNIT FIXED TO AN ENDPLATE, AND ASSOCIATED METHOD OF MANUFACTURE - The present invention relates to a heat exchanger comprising a bundle for the exchange of heat between fluids, an endplate of said bundle provided with orifices for the distribution of fluid through the bundle, and an adapter unit with an external fluid circuit having one or more fluid-distribution ducts corresponding with one of said or with said distribution orifices of the endplate and being fixed by one face to the endplate, characterized in that the endplate comprises at least one semi-cutout held by crimping in a housing formed in the face of the unit in contact with the plate. | 05-26-2016 |
20160178285 | MOTOR STATOR COOLING WITH DUAL COOLANT TWO-PHASE HEAT EXCHANGER | 06-23-2016 |
20160195337 | HEAT EXCHANGER HAVING ARCUATELY AND LINEARLY ARRANGED HEAT EXCHANGE TUBES | 07-07-2016 |
20160195339 | AN INLET SYSTEM FOR A THERMAL STORAGE VESSEL | 07-07-2016 |
20160376486 | NANOFLUIDS CONTAINING CARBON NANOTUBES AND METAL OXIDE NANOPARTICLE COMPOSITES WITH ENHANCED HEAT TRANSFER AND HEAT CAPACITY PROPERTIES - A nanofluid composed of a base fluid and a solid nanocomposite particle, where the solid nanocomposite particle consists of a carbon nanotube and a metal oxide nanoparticle selected from the group consisting of Fe | 12-29-2016 |