Patent application number | Description | Published |
20080259567 | CONDUCTIVE HEAT TRANSPORT COOLING SYSTEM AND METHOD FOR A MULTI-COMPONENT ELECTRONICS SYSTEM - A conductive heat transport cooling system and method are provided for cooling primary and secondary heat generating components of an electronics system. The cooling system includes a liquid-based cooling subsystem including at least one liquid-cooled cold plate physically coupled to at least one primary heat generating component of the electronics system, and a thermally conductive coolant-carrying tube coupled to and in fluid communication with the at least one liquid-cooled cold plate. A thermally conductive auxiliary structure is coupled to the coolant-carrying tube and to at least one secondary heat generating component of the electronics system. When in use, the thermally conductive auxiliary structure provides conductive heat transport from the at least one secondary heat generating component to the at least one thermally conductive coolant-carrying tube coupled thereto, and hence via convection to liquid coolant passing therethrough. | 10-23-2008 |
20080264604 | COOLING APPARTAUS, COOLED ELECTRONIC MODULE AND METHODS OF FABRICATION EMPLOYING A MANIFOLD STRUCTURE WITH INTERLEAVED COOLANT INLET AND OUTLET PASSAGEWAYS - A cooling apparatus and method of fabrication are provided for facilitating removal of heat from an electronic device. The cooling apparatus includes a manifold structure having a plurality of inlet and outlet passageways for injecting coolant onto, and exhausting coolant after impinging on, a surface to be cooled. The coolant inlet and outlet passageways are interleaved in the manifold structure, and coolant is injected and exhausted through a common edge of the manifold. The manifold structure further includes coolant inlet and outlet plenums, with coolant passing through the inlet passageways from the inlet plenum in a first direction and coolant passing through the outlet passageways to the outlet plenum in a second direction, the first and second directions being perpendicular to the surface to be cooled and being opposite directions, and wherein the manifold structure is contained within a rectangular volume defined by a projection of the common edge. | 10-30-2008 |
20080265404 | Structure and Methods of Processing for Solder Thermal Interface Materials for Chip Cooling - Assemblies for dissipating heat from integrated circuits and circuit chips are disclosed. The assemblies include a low melt solder as a thermal interface material (TIM) for the transfer of heat from a chip to a heat sink (HS), wherein the low melt solder has a melting point below the maximum operating temperature of the chip. Methods for making the assemblies are also disclosed. | 10-30-2008 |
20080273306 | SYSTEM AND METHOD OF FACILITATING COOLING OF ELECTRONICS RACKS OF A DATA CENTER EMPLOYING MULTIPLE COOLING STATIONS - A cooling system and method are provided for cooling air exiting one or more electronics racks of a data center. The cooling system includes at least one cooling station separate and freestanding from at least one respective electronics rack of the data center, and configured for disposition of an air outlet side of electronics rack adjacent thereto for cooling egressing air from the electronics rack. The cooling station includes a frame structure separate and freestanding from the respective electronics rack, and an air-to-liquid heat exchange assembly supported by the frame structure. The heat exchange assembly includes an inlet and an outlet configured to respectively couple to coolant supply and coolant return lines for facilitating passage of coolant therethrough. The air-to-liquid heat exchange assembly is sized to cool egressing air from the air outlet side of the respective electronics rack before being expelled into the data center. | 11-06-2008 |
20080273307 | LIQUID-BASED COOLING SYSTEM FOR COOLING A MULTI-COMPONENT ELECTRONICS SYSTEM - A system for cooling an electronics system is provided. The cooling system includes a monolithic structure preconfigured for cooling multiple electronic components of the electronics system when coupled thereto. The monolithic structure includes multiple liquid-cooled cold plates configured and disposed in spaced relation to couple to respective electronic components; a plurality of coolant-carrying tubes metallurgically bonded in fluid communication with the multiple liquid-cooled cold plates, and a liquid-coolant header subassembly metallurgically bonded in fluid communication with multiple coolant-carrying tubes. The header subassembly includes a coolant supply header metallurgically bonded to coolant supply tubes and a coolant return header metallurgically bonded to coolant return tubes. When in use, the multiple liquid-cooled cold plates engage respective electronic components of the electronics system, and liquid coolant is distributed through the liquid-coolant header subassembly and plurality of coolant-carrying tubes to the cold plates for removal of heat generated by the respective electronic components. | 11-06-2008 |
20080278913 | COOLING APPARATUS AND COOLED ELECTRONIC MODULE WITH A THERMALLY CONDUCTIVE RETURN MANIFOLD STRUCTURE SEALED TO THE PERIPHERY OF A SURFACE TO BE COOLED - A cooled electronic module and method of fabrication are provided employing a cooling apparatus for removing heat from one or more electronic devices disposed on a substrate. The cooling apparatus includes a supply manifold structure having a plurality of inlet orifices for injecting coolant onto a surface to be cooled, and a return manifold structure. The return manifold structure, which is fabricated of a thermally conductive material, has a base surface sealed to the surface to be cooled along a periphery thereof employing a thermally conductive, coolant-tight seal. The return manifold structure provides at least one return passageway for exhausting coolant after impinging on the surface to be cooled, wherein coolant exhausting through the at least one passageway cools the return manifold structure, thereby facilitating further cooling of the surface to be cooled in a region where the base surface is sealed to the surface to be cooled. | 11-13-2008 |
20080285232 | Techniques for Data Center Cooling - Techniques for cooling in a data center are provided. In one aspect a computer equipment rack is provided comprising one or more air inlets; one or more exhaust outlets, and one or more of: an air inlet duct mounted to the computer equipment rack surrounding at least a portion of the air inlets, the air inlet duct having a lateral dimension that approximates a lateral dimension of the computer equipment rack and a length that is less than a length of the computer equipment rack, and an air exhaust duct mounted to the computer equipment rack surrounding at least a portion of the exhaust outlets, the air exhaust duct having a lateral dimension that approximates the lateral dimension of the computer equipment rack and a length that is less than the length of the computer equipment rack. | 11-20-2008 |
20080288193 | Techniques for Analyzing Data Center Energy Utilization Practices - Techniques for improving on data center best practices are provided. In one aspect, an exemplary methodology for analyzing energy efficiency of a data center having a raised-floor cooling system with at least one air conditioning unit is provided. The method comprises the following steps. An initial assessment is made of the energy efficiency of the data center based on one or more power consumption parameters of the data center. Physical parameter data obtained from one or more positions in the data center are compiled into one or more metrics, if the initial assessment indicates that the data center is energy inefficient. Recommendations are made to increase the energy efficiency of the data center based on one or more of the metrics. | 11-20-2008 |
20080307806 | COOLING SYSTEM AND METHOD UTILIZING THERMAL CAPACITOR UNIT(S) FOR ENHANCED THERMAL ENERGY TRANSFER EFFICIENCY - A cooling system and method are provided which include a facility cooling unit, a cooling tower, and one or more thermal capacitor units. The facility cooling unit, which includes a heat dissipation coolant loop, facilitates thermal energy extraction from a facility, such as a data center, for expelling of the energy to coolant within the heat dissipation coolant loop. The cooling tower is in fluid communication with the coolant loop, and includes a liquid-to-air heat exchanger for expelling thermal energy from coolant of the heat dissipation coolant loop to the surrounding environment. The thermal capacitor unit is in fluid communication with the heat dissipation coolant loop to facilitate efficient thermal energy transfer from coolant with in the coolant loop to the surrounding environment with variation in ambient temperature about the cooling tower. | 12-18-2008 |
20080310104 | LIQUID-BASED COOLING APPARATUS FOR AN ELECTRONICS RACK - A cooling apparatus is provided for facilitating cooling of electronics drawers of an electronics rack. The apparatus includes a bi-fold door assembly configured for mounting to the electronics rack. The door assembly includes a first door and a second door, each configured for separate, hinged mounting to the electronics rack. The apparatus further includes a coolant distribution apparatus, wherein a coolant supply manifold thereof is mounted to the first door and a coolant return manifold thereof is mounted to the second door. Separate connections are coupled in fluid communication with the coolant supply and return manifolds for facilitating supply and return of coolant to and from the manifolds, and for facilitating pivotal movement of the doors relative to the electronics rack. A plurality of coolant distribution ports are provided within the supply and return manifolds, and disposed to facilitate supply and return of coolant to the electronics drawers. | 12-18-2008 |
20090025223 | HEAT EXCHANGER WITH ANGLED SECONDARY FINS EXTENDING FROM PRIMARY FINS - A heat exchanger, method of fabrication and cooled electronics system employing the heat exchanger are provided. The heat exchanger, which in one embodiment cools air provided to heat generating components of a computer system, is disposed at an angle with respect to a direction of airflow. The heat exchanger includes a plurality of primary fins oriented parallel, and at least one plurality of secondary fins extending from at least one of a leading edge and a trailing edge of the plurality of primary fins. Each secondary fin extends from a respective primary fin at an angle other than 0° to facilitate airflow through the heat exchanger. Additionally, the secondary fins are fixedly positioned relative to and integral with the primary fins, thereby providing an increased heat transfer surface area. | 01-29-2009 |
20090072967 | AUTO-LOCATING SYSTEM AND METHOD FOR DATA CENTER MAPPING AND MONITORING - Automated locating of electronics racks within a data center room is provided. The automated approach employs n wireless identification units associated with respective electronics racks of the data center, and first and second transceiver units positioned within the data center along a common plane at known X,Y locations. A monitor unit is in communication with the transceiver units, and automatically determines X,Y location within the data center room of each respective electronics rack employing, in part, first time differentials between transmission of a first broadcast signal by the first transceiver unit and receipt of response signals from the wireless identification units, second time differentials between transmission of a second broadcast signal from the second transceiver unit and receipt of response signals thereto from the wireless identification units, and the known X,Y locations within the data center of the transceiver units. | 03-19-2009 |
20090086428 | DOCKING STATION WITH HYBRID AIR AND LIQUID COOLING OF AN ELECTRONICS RACK - A docking station is provided for cooling an electronics rack of a data center. The docking station includes an enclosure having at least one wall, a cover coupled to the at least one wall, and a central opening sized to receive the electronics rack therein. The enclosure is separate and freestanding from the electronics rack and surrounds the electronics rack, and facilitates establishing a closed loop airflow path passing through air inlet and outlet sides of the rack and through an air return pathway of the enclosure. The docking station further includes an air-to-liquid heat exchange assembly, disposed within the air return pathway for cooling circulating air passing through the closed loop airflow path, and at least one modular cooling unit, disposed within the enclosure for providing system coolant to the air-to-liquid heat exchange assembly and to at least one electronics subsystem of the electronics rack. | 04-02-2009 |
20090086432 | DOCKING STATION WITH CLOSED LOOP AIRLFOW PATH FOR FACILITATING COOLING OF AN ELECTRONICS RACK - A docking station is provided for cooling an electronics rack of a data center. The docking station includes an enclosure having at least one wall, a cover coupled to the at least one wall, and a central opening sized to receive the electronics rack therein through an access opening in the wall. The enclosure is separate and freestanding from the electronics rack, and when the electronics rack is operatively positioned within the central opening, the enclosure surrounds the electronics rack and facilitates establishing a closed loop airflow path passing through air inlet and outlet sides of the rack and through an air return pathway of the enclosure. The docking station further includes an air-to-liquid heat exchange assembly disposed within the air return pathway of the enclosure for cooling circulating air passing through the closed loop airflow path. | 04-02-2009 |
20090122487 | SYSTEM OF FACILITATING COOLING OF ELECTRONICS RACKS OF A DATA CENTER EMPLOYING MULTIPLE COOLING STATIONS - A cooling system and method are provided for cooling air exiting one or more electronics racks of a data center. The cooling system includes at least one cooling station separate and freestanding from at least one respective electronics rack of the data center, and configured for disposition of an air outlet side of electronics rack adjacent thereto for cooling egressing air from the electronics rack. The cooling station includes a frame structure separate and freestanding from the respective electronics rack, and an air-to-liquid heat exchange assembly supported by the frame structure. The heat exchange assembly includes an inlet and an outlet configured to respectively couple to coolant supply and coolant return lines for facilitating passage of coolant therethrough. The air-to-liquid heat exchange assembly is sized to cool egressing air from the air outlet side of the respective electronics rack before being expelled into the data center. | 05-14-2009 |
20090122488 | APPARATUS FOR FACILITATING COOLING OF AN ELECTRONICS RACK THROUGH THE USE OF AN AIR-TO-LIQUID HEAT EXCHANGER - An apparatus for facilitating cooling of an electronics rack is provided. The apparatus includes an air-to-liquid heat exchanger and system coolant inlet and outlet plenums mounted to a door of an electronics rack. The inlet and outlet plenums are in fluid communication with the heat exchanger and respectively include a coolant inlet and coolant outlet in the top portions thereof. System coolant supply and return hoses are disposed above the electronics rack and respectively couple in fluid communication the inlet plenum to a system coolant supply header and the outlet plenum to a system coolant return header. The hoses are each flexible, partially looped and of sufficient length to allow for opening and closing of the door. Stress-relief structures are coupled to at least one end of the hoses to relieve stress on the ends of the hoses during opening or closing of the door. | 05-14-2009 |
20090126910 | APPARATUS AND METHOD FOR FACILITATING SERVICING OF A LIQUID-COOLED ELECTRONICS RACK - Apparatus and method for facilitating servicing of a liquid-cooled electronics rack are provided. The apparatus includes a coolant tank, a coolant pump in fluid communication with the coolant tank, multiple parallel-connected coolant supply lines coupling the coolant pump to a coolant supply port of the apparatus, and a coolant return port and a coolant return line coupled between the coolant return port and the coolant tank. Each coolant supply line includes a coolant control valve for selectively controlling flow of coolant therethrough pumped by the coolant pump from the coolant tank. At least one coolant supply line includes at least one filter, and one coolant supply line is a bypass line with no filter. When operational, the apparatus facilitates filling of coolant into a cooling system of a liquid-cooled electronics rack by allowing for selective filtering of coolant inserted into the cooling system. | 05-21-2009 |
20090129000 | INTER-RACK AIRFLOW ARRESTING APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS RACK OF A DATA CENTER - An airflow arrester is provided and configured to reside between electronics racks disposed in a row within a data center. The airflow arrester includes a panel, which when operatively disposed, has a first vertical end, a second vertical end, and a central vertical hinge located intermediate the first and second vertical ends. The airflow arrester further includes an attachment mechanism at the first vertical end and at the second vertical end, and when operatively disposed between a first and second structures, the airflow arrester has a single V-shaped configuration, and is sized and constructed to block airflow from passing therebetween. The single V-shaped configuration provides operational stability to the airflow arrester by translating net twisting forces applied to the airflow arrester to normal forces applied to the first and second structures at the attachment points of the airflow arrester to the first and second structures. | 05-21-2009 |
20090129016 | AIRFLOW ARRESTING APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS RACK OF A DATA CENTER - An airflow arresting apparatus is provided configured to reside above an electronics rack within a data center. The apparatus includes an airflow arrester and a track mechanism. The airflow arrester includes a collapsible panel sized and configured to reside above the electronics rack, and when operatively positioned above the electronics rack, to extend vertically above the electronics rack and at least partially block airflow from passing over the electronics rack between the air outlet and air inlet sides of the rack. The track mechanism is sized and configured to reside above the electronics rack, and the airflow arrester is slidably engaged with the track mechanism. Positioning of the airflow arrester at a desired location above the electronics rack is facilitated by the airflow arrester slidably engaging the track mechanism. | 05-21-2009 |
20090133866 | HYBRID AIR AND LIQUID COOLANT CONDITIONING UNIT FOR FACILITAATING COOLING OF ONE OR MORE ELECTRONICS RACKS OF A DATA CENTER - A hybrid air and liquid coolant conditioning unit is provided for facilitating cooling of electronics rack(s) of a data center. The unit includes a first heat exchange assembly, including a liquid-to-liquid heat exchanger, a system coolant loop and a facility coolant loop, and a second heat exchange assembly, including an air-to-liquid heat exchanger, an air-moving device, and the facility coolant loop. The system coolant loop provides cooled system coolant to the electronics rack(s), and expels heat in the liquid-to-liquid heat exchanger from the electronics rack(s) to the facility coolant. The air-to-liquid heat exchanger extracts heat from the air of the data center and expels the heat to the facility coolant of the facility coolant loop. The facility coolant loop provides chilled facility coolant in parallel to the liquid-to-liquid heat exchanger and the air-to-liquid heat exchanger. In one implementation, the hybrid coolant conditioning unit includes a vapor-compression heat exchange assembly. | 05-28-2009 |
20090150123 | METHOD OF LAYING OUT A DATA CENTER USING A PLURALITY OF THERMAL SIMULATORS - A method is provided for facilitating installation of one or more electronics racks within a data center. The method includes: placing a plurality of thermal simulators in the data center in a data center layout to establish a thermally simulated data center, each thermal simulator simulating at least one of airflow intake or heated airflow exhaust of a respective electronics rack of a plurality of electronics racks to be installed in the data center; monitoring temperature within the thermally simulated data center at multiple locations, and verifying the data center layout if measured temperatures are within respective acceptable temperature ranges for the data center when containing the plurality of electronics racks; and establishing the plurality of electronics racks within the data center using the verified data center layout, the establishing including at least one of reconfiguring or replacing each thermal simulator with a respective electronics rack. | 06-11-2009 |
20090150133 | APPARATUS AND METHOD FOR SIMULATING ONE OR MORE OPERATIONAL CHARACTERISTICS OF AN ELECTRONICS RACK - Apparatus and method are provided for facilitating simulation of one or more operating characteristics of an electronics rack. The apparatus includes a rack frame, one or more air-moving devices associated with the rack frame, and an adjustable heat source associated with the rack frame. The one or more air-moving devices establish airflow through the rack frame from an air inlet side to an air outlet side thereof, wherein the established airflow through the rack frame is related to airflow through the electronics rack to be simulated. The adjustable heat source heats air passing through the rack frame, with heated air exhausting from the air outlet side of the rack frame simulating heated air exhausting from the electronics rack. | 06-11-2009 |
20090154096 | APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS SYSTEM - Apparatus and method are provided for facilitating air-cooling of an electronics system employing a vapor-compression heat exchange system, and front and back covers. An evaporator housing of the heat exchange system is mounted to a system housing of the electronics system and extends at least partially between air inlet and outlet sides of the system housing. The evaporator housing includes air inlet and outlet openings, and an evaporator. The front cover is mounted to the system or evaporator housing adjacent to the air inlet side or air outlet opening, and the back cover is mounted to the system or evaporator housing adjacent to the air outlet side or air inlet opening. Together, the system housing, back cover, evaporator housing and front cover define a closed loop airflow path passing through the system housing and evaporator housing, with the vapor-compression heat exchange system cooling air circulating therethrough. | 06-18-2009 |
20090154159 | LIGHT SOURCE FOR ILLUMINATING AN ELECTRONICS RACK TO FACILITATE SERVICING THEREOF - An apparatus is provided for facilitating servicing of an electronics rack. The apparatus includes a light source, which includes a plurality of light-emitting diodes. The plurality of light-emitting diodes are secured to the electronics rack or a floor tile disposed adjacent to the electronics rack, and are configured to illuminate at least a lower portion of the electronics rack at either the air inlet or air outlet side of the rack. A power supply is also provided for selectively supplying power to the plurality of light-emitting diodes. In one implementation, the light source includes an elongate light bar, which is configured to mount to either the inlet door or outlet door of the electronics rack, and the plurality of light-emitting diodes are secured to an elongate housing structure which pivotally couples to a base plate for adjustment of a direction of illumination by the light-emitting diodes. | 06-18-2009 |
20090156114 | APPARATUS AND METHOD FOR FACILITATING AIR COOLING OF AN ELECTRONICS RACK - Apparatus and method are provided for facilitating air cooling of an electronics rack. The apparatus includes a tile assembly, temperature sensor and controller. The tile assembly is disposed adjacent to the electronics rack, and includes a perforated tile and one or more controllable air-moving devices associated with the perforated tile for moving air through the perforated tile. The temperature sensor is positioned for sensing air temperature adjacent and external to, or within, the electronics rack, and the controller is coupled to the tile assembly and the temperature sensor for controlling operation of the air-moving device. Airflow through the tile assembly is adjusted based on air temperature sensed, thereby facilitating air cooling of the electronics rack. In one embodiment, the tile assembly is a floor tile assembly with an air-to-liquid heat exchanger disposed between the perforated tile and the air-moving device for cooling air passing through the floor tile assembly. | 06-18-2009 |
20090157333 | METHOD AND SYSTEM FOR AUTOMATED ENERGY USAGE MONITORING WITHIN A DATA CENTER - An automated method and system are provided for facilitating monitoring of energy usage within a data center. The method includes automatically determining energy usage of one or more electronics racks of a data center by automatically ascertaining time-based energy usage of the electronics racks. The automatically ascertaining includes obtaining multiple measurements of instantaneous energy usage by each of the electronics racks in the data center over a period of time, and then separately averaging the multiple measurements for each electronics rack to obtain the time-based energy usage of each electronics racks. The method also includes outputting the time-based energy usage of the electronic(s) racks to facilitate monitoring of the data center. | 06-18-2009 |
20090205416 | MONITORING METHOD AND SYSTEM FOR DETERMINING RACK AIRFLOW RATE AND RACK POWER CONSUMPTION - Monitoring method and system are provided for dynamically determining rack airflow rate and rack power consumption employing a heat exchanger disposed at an air outlet side of the electronics rack. The method includes: sensing air temperature at the air outlet side of the electronics rack, sensing coolant temperature at a coolant inlet and coolant temperature at a coolant outlet of the heat exchanger, and determining airflow rate through the electronics rack; and outputting the determined airflow rate through the electronics rack. The determining employs the sensed air temperature at the air outlet side of the rack and the sensed coolant temperatures at the coolant inlet and outlet of the heat exchanger. In one embodiment, the heat exchanger is an air-to-air heat exchanger, and in another embodiment, the heat exchanger is an air-to-liquid heat exchanger. | 08-20-2009 |
20090207564 | TEMPERATURE-BASED MONITORING METHOD AND SYSTEM FOR DETERMINING FIRST AND SECOND FLUID FLOW RATES THROUGH A HEAT EXCHANGER - Monitoring method and system are provided for dynamically determining flow rate of a first fluid and a second fluid through a heat exchanger. The method includes: pre-characterizing the heat exchanger to generate pre-characterized correlation data correlating effectiveness of the heat exchanger to various flow rates of the first and second fluids through the heat exchanger; sensing inlet and outlet temperatures of the first and second fluids through the heat exchanger, when operational; automatically determining flow rates of the first and second fluids through the heat exchanger using the sensed inlet and outlet temperatures of the first and second fluids and the pre-characterized correlation data; and outputting the determined flow rates of the first and second fluids. The automatically determining employs the determined effectiveness of the heat exchanger in interpolating from the pre-characterized correlation data the flow rates of the first and second fluids. | 08-20-2009 |
20090207567 | METHOD AND AIR-COOLING UNIT WITH DYNAMIC AIRFLOW AND HEAT REMOVAL ADJUSTABILITY - Method and air-cooling unit are provided for dynamically adjusting airflow rate through and heat removal rate of the air-cooling unit to facilitate cooling of one or more electronics racks of a data center. The air-cooling unit includes a housing, an air-moving device, and an air-to-liquid heat exchanger. The air-moving device moves air through the housing from the air inlet side to the air outlet side thereof, and the heat exchanger cools the air passing through the housing. A control unit controls the air-moving device and the flow of liquid coolant through the heat exchanger to automatically, dynamically adjust airflow rate and heat removal rate of the air-cooling unit to achieve a current airflow rate target and current heat removal rate target therefore. The current targets are based on airflow rate through and heat load generated by one or more associated electronics racks of the data center. | 08-20-2009 |
20090262501 | Rack With Integrated Rear-Door Heat Exchanger - Rack assemblies and methods for cooling one or more rack-based computer systems, as well as data center configurations that utilize the rack assembly. The rack assembly comprises a rack providing support for multiple columns of heat-generating electronic devices and device fans for moving air from an air inlet side of the rack through the devices and through an air outlet side of the rack. The rack assembly also comprises a unitary door having a support frame spanning the air outlet side of the rack and hingedly coupling the door to a rear vertical edge of the rack. The door includes an air-to-liquid heat exchanger panel spanning an air outlet passage inside the support frame so that substantially all of the air passing through the air outlet must pass through the heat exchanger panel. The air outlet passage has a cross-sectional area that is substantially equal to or greater than the cross-sectional area of the multiple columns of heat-generating devices. | 10-22-2009 |
20090268404 | ENERGY EFFICIENT APPARATUS AND METHOD FOR COOLING AN ELECTRONICS RACK - Apparatus and method are provided for cooling an electronics rack in an energy efficient, dynamic manner. The apparatus includes one or more extraction mechanisms for facilitating cooling of the electronics rack, an enclosure, a heat removal unit, and a control unit. The enclosure has an outer wall, a cover coupled to the outer wall and a central opening sized to surround the electronics rack and the heat extraction mechanism. A liquid coolant loop couples the heat removal unit in fluid communication with the heat extraction mechanism, which removes heat from liquid coolant passing therethrough. The control unit is coupled to the heat removal unit for dynamically adjusting energy consumption of the heat removal unit to limit its energy consumption, while providing a required cooling to the electronics rack employing the liquid coolant passing through the heat extraction mechanism. | 10-29-2009 |
20090314467 | COOLING APPARATUS AND METHOD OF FABRICATION THEREOF WITH JET IMPINGEMENT STRUCTURE INTEGRALLY FORMED ON THERMALLY CONDUCTIVE PIN FINS - A cooling apparatus and method of fabrication are provided for facilitating removal of heat from a heat-generating electronic device. The method of fabrication includes: bonding a plurality of thermally conductive pin fins to a surface to be cooled, each pin fin including a stem with a bulb structure on its distal end; depositing material onto the plurality of thermally conductive pin fins to integrally form a jet impingement structure with the pin fins, wherein the distal ends of the plurality of thermally conductive pin fins form part of the jet impingement structure; and controlling the depositing of material onto the distal ends of the pin fins to form a plurality of jet orifices in the jet impingement structure, with the depositing resulting in the plurality of jet orifices automatically self-aligning between the plurality of thermally conductive pin fins. | 12-24-2009 |
20090316360 | COOLING APPARATUS AND METHOD OF FABRICATION THEREOF WITH A COLD PLATE FORMED IN SITU ON A SURFACE TO BE COOLED - A cooling apparatus and method of fabrication are provided for facilitating removal of heat from a heat-generating electronic device. The method of fabrication includes: obtaining a solder material; disposing the solder material on a surface to be cooled; and reflowing and shaping the solder material disposed on the surface to be cooled to configure the solder material as a base with a plurality of fins extending therefrom. In addition to being in situ-configured on the surface to be cooled, the base is simultaneously metallurgically bonded to the surface to be cooled. The solder material, configured as the base with a plurality of fins extending therefrom, is a single, monolithic structure thermally attached to the surface to be cooled via the metallurgical bonding thereof to the surface to be cooled. | 12-24-2009 |
20090326879 | Techniques for Thermal Modeling of Data Centers to Improve Energy Efficiency - Techniques for modeling a data center are provided. In one aspect, a method for modeling a data center is provided. The method comprises the following steps. Spatially dense three-dimensional thermal distribution and air flow measurements made in the data center using a mobile off-line surveying system are obtained. A temperature and air flow model for the data center is created using the spatially dense three-dimensional thermal distribution and air flow measurements. The temperature and air flow model is used to make thermal distribution and air flow predictions of the data center. The thermal distribution and air flow predictions are compared with the thermal distribution and air flow measurements made using the mobile off-line surveying system to produce a validated model for the data center. | 12-31-2009 |
20100002393 | LIQUID COOLING APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS SYSTEM - Apparatus and method are provided for facilitating liquid cooling one or more components of an electronic subsystem chassis disposed within an electronics rack. The apparatus includes a rack-level coolant manifold assembly and at least one movable chassis-level manifold subassembly. The rack-level coolant manifold assembly includes a rack-level inlet manifold and a rack-level outlet manifold, and each movable chassis-level manifold subassembly includes a chassis-level coolant inlet manifold coupled in fluid communication with the rack-level inlet manifold, and a chassis-level coolant outlet manifold coupled in fluid communication with the rack-level outlet manifold. The chassis-level manifold subassembly is slidably coupled to the electronics rack to facilitate access to one or more removable components of the electronic subsystem chassis. In one embodiment, the electronics subsystem chassis is a multi-blade center system having multiple removable blades, each blade being an electronics subsystem. | 01-07-2010 |
20100012294 | Structure and Apparatus for Cooling Integrated Circuits Using Cooper Microchannels - A cooler having a unitary construction including a channel portion including a plurality of fins on a base, the plurality of fins defining a plurality of microchannels therebetween, a tapered opening formed in a set of the plurality of fins, a manifold portion disposed on an edge portion of the base, the manifold portion including an inlet port and an outlet port disposed above the tapered opening in the plurality of fins, and a separator sheet including at least two elongated openings disposed between the channel portion and the manifold portion. | 01-21-2010 |
20100101759 | APPARATUS AND METHOD FOR FACILITATING IMMERSION-COOLING OF AN ELECTRONIC SUBSYSTEM - Apparatus and method are provided for facilitating immersion-cooling of an electronic subsystem having multiple different types of components to be immersion-cooled. The apparatus includes a container sized to receive the electronic subsystem, and a hermetically sealed electrical connector disposed on a wall of the container. The electrical connector is sized and configured to receive an electrical and network connector of the electronic subsystem when the electronic subsystem is operatively inserted into the container, and to facilitate external electrical and network coupling to the subsystem. The apparatus further includes coolant inlet and outlet ports coupled to the container for facilitating ingress and egress of coolant through the container. When the electronic subsystem is operatively inserted into the container and coolant flows through the container, the electronic subsystem is immersion-cooled by the coolant. | 04-29-2010 |
20100101765 | LIQUID COOLING APPARATUS AND METHOD FOR COOLING BLADES OF AN ELECTRONIC SYSTEM CHASSIS - Apparatus and method are provided for facilitating liquid cooling of a plurality of blades of an electronic system chassis. The apparatus includes a chassis-level manifold assembly with a first coolant path and a plurality of second coolant paths. The first coolant path is isolated from the plurality of second coolant paths by a heat exchanger. The heat exchanger facilitates transfer of heat from coolant within the second coolant paths to coolant within the first coolant path. Each second coolant path is isolated from the other second coolant paths, and coolant passing therethrough facilitates cooling of a respective blade. When operational, each second coolant path forms a portion of a respective closed loop coolant path extending between the manifold assembly and the electronic system chassis, and in one embodiment, each blade is an immersion-blade, with multiple components thereof immersion-cooled by coolant flowing through the respective second coolant path. | 04-29-2010 |
20100103614 | APPARATUS AND METHOD FOR IMMERSION-COOLING OF AN ELECTRONIC SYSTEM UTILIZING COOLANT JET IMPINGEMENT AND COOLANT WASH FLOW - Apparatus and method are provided for facilitating pumped, immersion-cooling of an electronic system having multiple different types of electronic components. The apparatus includes a container sized to receive the electronic system, a coolant inlet port and a coolant outlet port for facilitating ingress and egress of coolant through the container, and a manifold structure associated with the container. The manifold structure includes a coolant jet plenum with an inlet opening in fluid communication with the coolant inlet port, and one or more jet orifices in fluid communication with the coolant jet plenum. The jet orifices are positioned to facilitate cooling of at least one electronic component of the multiple different types of electronic components by jet impingement of coolant thereon when the electronic system is operatively positioned within the container for immersion-cooling thereof. | 04-29-2010 |
20100103618 | APPARATUS AND METHOD FOR FACILITATING PUMPED IMMERSION-COOLING OF AN ELECTRONIC SUBSYSTEM - Apparatus and method are provided for facilitating pumped, immersion-cooling of an electronic subsystem having multiple different types of components to be immersion-cooled. The apparatus includes a container sized to receive the electronic subsystem, and a coolant inlet port and a coolant outlet port for facilitating ingress and egress of coolant through the container. The apparatus further includes a coolant pump assembly coupled in fluid communication with the coolant inlet and outlet ports of the container for facilitating active pumping of coolant through the container. When the electronic subsystem is operatively inserted into the container and coolant is pumped through the container, the multiple different types of components of the electronic subsystem are immersion-cooled by the coolant. In one embodiment, a filler element is disposed within the container, and is sized to reduce the amount of coolant within the container, while still maintaining the components of the electronic subsystem immersion-cooled. | 04-29-2010 |
20100103620 | Open Flow Cold Plate For Liquid Cooled Electronic Packages - A method and associated assembly is provided for cooling of a computing embodiment having electronic components. The heat generating components are disposed in the vicinity of at least one cold plate providing direct liquid cooling. Coolant is provided to the cold plate which will eventually exit it through one or more ports or orifices placed on the sides or both side and bottom of the cold plate. The placement, size and number of port(s) or orifice(s) can be selectively adjusted to control amount of coolant flow. Effluent flow from the cold plate flows over the remaining immersion cooled components and then exits the liquid tight enclosure which houses the electronic components. | 04-29-2010 |
20100118494 | HYBRID IMMERSION COOLED SERVER WITH INTEGRAL SPOT AND BATH COOLING - A hybrid immersion cooling apparatus and method is provided for cooling of electronic components housed in a computing environment. The components are divided into primary and secondary heat generating components and are housed in a liquid sealed enclosure. The primary heat generating components are cooled by indirect liquid cooling provided by at least one cold plate having fins. The cold plate is coupled to a first coolant conduit that circulates a first coolant in the enclosure and supplies the cold plate. Immersion cooling is provided for secondary heat generating components through a second coolant that will be disposed inside the enclosure such as to partially submerge the cold plate and the first coolant conduit as well as the heat generating components. | 05-13-2010 |
20100142150 | COOLING APPARATUS WITH COLD PLATE FORMED IN SITU ON A SURFACE TO BE COOLED - A cooling apparatus and method of fabrication are provided for facilitating removal of heat from a heat-generating electronic device. The method of fabrication includes: obtaining a solder material; disposing the solder material on a surface to be cooled; and reflowing and shaping the solder material disposed on the surface to be cooled to configure the solder material as a base with a plurality of fins extending therefrom. In addition to being in situ-configured on the surface to be cooled, the base is simultaneously metallurgically bonded to the surface to be cooled. The solder material, configured as the base with a plurality of fins extending therefrom, is a single, monolithic structure thermally attached to the surface to be cooled via the metallurgical bonding thereof to the surface to be cooled. | 06-10-2010 |
20100146996 | DATA CENTER COOLING ENERGY RECOVERY SYSTEM - A method and associated system is provided for cooling of a data center. The method includes providing coolant to multiple cooling elements in the data center using a heat pump refrigeration cycle to cool the coolant and provide a high temperature at the condenser. This allows the reclaiming of at least a portion of the heat removed from the refrigeration cycle using a heat engine. The engine is disposed between the refrigeration condenser and the ambient environment or cooling medium. | 06-17-2010 |
20100147490 | APPARATUS AND METHOD FOR PROVIDING IN SITU COOLING OF COMPUTER DATA CENTERS DURING SERVICE CALLS - An apparatus and method for cooling electronic components housed in a computer rack while performing maintenance operations is provided. The apparatus, in one embodiment, comprises a heat exchange assembly disposed within an outlet door cover of the computer rack, having one or more perforations. One or more air moving device(s) are also disposed on the outlet door and activated by an activator when the door is opened such that the devices when activated force hot air into the heat exchanger. Cool air is then exhausted through a planar containment plate having a plurality of edges. The plate is secured to top of the outlet door along one of its edges. | 06-17-2010 |
20100195694 | Heat Flow Measurement Tool for a Rack Mounted Assembly of Electronic Equipment - A rack mount assembly measurement tool, for determining physical values including air flow and heat loads, includes a front assembly and a rear duct assembly that are non-intrusively and releasably mounted on the front and rear of such rack mount enclosure. Physical values are sensed at multiple vertical locations to enable a determination of overall and localized heat loads within the enclosure. Front sensor values are collected and wirelessly transmitted from the front assembly to a receiver/processor supported on the rear duct, which generates computed values that are displayed in addition to the sensed values. | 08-05-2010 |
20100252234 | HIGH PERFORMANCE DUAL-IN-LINE MEMORY (DIMM) ARRAY LIQUID COOLING ASSEMBLY AND METHOD - A method and associated assembly for cooling electronic heat generating components of a computer including dual-in-line memory (DIMM) array(s) is provided. The assembly comprises a cooling component having a plate with a first and a second (reverse) side, thermally coupling to the heat generating components including the DIMM array(s). The first plate side has a coolant conduit connected at one end to a supply manifold via flexible tubing and at another end to a return manifold via another flexible tubing such that when coolant is supplied, the coolant circulates from the supply manifold to the return manifold by passing through said first plate's conduit. | 10-07-2010 |
20100296248 | DUAL-CHAMBER FLUID PUMP FOR A MULTI-FLUID ELECTRONICS COOLING SYSTEM AND METHOD - A dual-chamber fluid pump is provided for a multi-fluid electronics cooling system and method. The pump has a first fluid path for pumping a first fluid coolant and a second fluid path for pumping a second fluid coolant, with the first fluid path including a first pumping chamber and the second fluid path including a second pumping chamber. The first and second pumping chambers are separated by at least one diaphragm, and an actuator is coupled to the diaphragm for transitioning the diaphragm between a first position and a second position. Transitioning of the diaphragm to the first position pumps first fluid coolant from the first pumping chamber while concurrently drawing second fluid coolant into the second pumping chamber, and transitioning of the diaphragm to the second position pumps second fluid coolant from the second pumping chamber while concurrently drawing first fluid coolant into the first pumping chamber. | 11-25-2010 |
20100306994 | MULTI-FLUID COOLING OF AN ELECTRONIC DEVICE - A method of fabricating a multi-fluid cooling system is provided for removing heat from one or more electronic devices. The cooling system includes a multi-fluid manifold structure with at least one first fluid inlet orifice and at least one second fluid inlet orifice for concurrently, separately injecting a first fluid and a second fluid onto a surface to be cooled when the cooling system is employed to cool one or more electronic devices, wherein the first fluid and the second fluid are immiscible, and the first fluid has a lower boiling point temperature than the second fluid. When the cooling system is employed to cool one or more electronic devices and the first fluid boils, evolving first fluid vapor condenses in situ by direct contact with the second fluid of higher boiling point temperature. | 12-09-2010 |
20110010151 | FLUID DISTRIBUTION APPARATUS AND METHOD FACILITATING COOLING OF ELECTRONICS RACK(S) AND SIMULATING HEATED AIRFLOW EXHAUST OF ELECTRONICS RACK(S) - Apparatus and method are provided for facilitating simulation of heated airflow exhaust of an electronics subsystem, electronics rack or row of electronics racks. The apparatus includes a thermal simulator, which includes an air-moving device and a fluid-to-air heat exchanger. The air-moving device establishes airflow from an air inlet to air outlet side of the thermal simulator tailored to correlate to heated airflow exhaust of the electronics subsystem, rack or row of racks being simulated. The fluid-to-air heat exchanger heats airflow through the thermal simulator, with temperature of airflow exhausting from the simulator being tailored to correlate to temperature of the heated airflow exhaust of the electronics subsystem, rack or row of racks being simulated. The apparatus further includes a fluid distribution apparatus, which includes a fluid distribution unit disposed separate from the fluid simulator and providing hot fluid to the fluid-to-air heat exchanger of the thermal simulator. | 01-13-2011 |
20110067842 | FLUID ENCAPSULATED HEAT TRANSFER VESSEL AND METHOD - A heat transfer vessel is provided which facilitates heating of a substance when disposed therein. The vessel is a partially hollow structure which includes a chamber formed between an outer shell and an inner shell, in base and sidewall portions of the vessel. A heat transfer fluid is disposed within the chamber to facilitate transfer of heat from the outer shell to the inner shell, and therefore, to a substance when disposed within the vessel. The heat transfer fluid is a two-phase encapsulated fluid with a liquid state which undergoes boiling with the application of heat to the outer shell and a vapor state which condenses with contact to the inner shell, thereby facilitating transfer of heat from the outer shell to the inner shell, and hence to the substance when disposed within the vessel. | 03-24-2011 |
20110069452 | APPARATUS AND METHOD FOR FACILITATING COOLING OF AN ELECTRONICS RACK - Apparatus and method are provided for facilitating cooling of air passing through an electronics rack. The apparatus includes a heat exchange assembly hingedly mounted above and external to the rack, such that air passing above the rack from an air outlet side to an air inlet side thereof passes through the heat exchange assembly, and is cooled. The heat exchange assembly includes a support structure to support hinged mounting of the assembly above the rack, and an air-to-liquid heat exchanger coupled to the support structure. The heat exchanger has an inlet plenum and an outlet plenum in fluid communication with respective connect couplings which facilitate connection of the plenums to coolant supply and return lines, respectively. The heat exchanger also includes heat exchange tube sections, each of which has a coolant channel with an inlet and an outlet coupled to the inlet and outlet plenums, respectively. | 03-24-2011 |
20110069453 | APPARATUS AND METHOD WITH FORCED COOLANT VAPOR MOVEMENT FOR FACILITATING TWO-PHASE COOLING OF AN ELECTRONIC DEVICE - Apparatus and method are provided for two-phase dielectric cooling of an electronic device. The apparatus includes a coolant flow path, a vapor condenser and one or more vapor fans. The coolant flow path is in fluid communication with the electronic device, where liquid dielectric coolant within the flow path vaporizes upon contacting the electronic device, forming dielectric coolant vapor, and thereby facilitating cooling of the electronic device. The vapor condenser is also in fluid communication with the coolant flow path and facilitates condensate formation from the dielectric coolant vapor. The one or more vapor fans are disposed within the flow path to actively move dielectric coolant vapor into contact with the vapor condenser, and thereby enhance cooling of the electronic device by facilitating coolant condensate formation and thus recirculation of the coolant condensate as liquid dielectric coolant. | 03-24-2011 |
20110069454 | LIQUID-COOLED ELECTRONICS APPARATUS AND METHODS OF FABRICATION - Liquid-cooled electronics apparatuses and methods are provided. The cooled electronics apparatuses include a liquid-cooled cold rail and an electronics subassembly. The liquid-cooled cold rail has a thermally conductive structure and a coolant-carrying channel extending within and cooling the thermally conductive structure. The electronics subassembly includes an electronics card(s) and one or more thermal transfer plates. The electronics card(s) includes electronic devices to be cooled, and the one or more thermal transfer plates are each rigidly affixed to one or more electronic devices of the electronics card(s). Each thermal transfer plate is thermally conductive and couples the electronics subassembly to the liquid-cooled cold rail to thermally interface the one or more electronic devices to the liquid-cooled cold rail to facilitate cooling of the electronic devices. In one embodiment, the electronics subassembly includes multiple interleaved electronics cards and thermal transfer plates. | 03-24-2011 |
20110075367 | COMPLIANT CONDUCTION RAIL ASSEMBLY AND METHOD FACILITATING COOLING OF AN ELECTRONICS STRUCTURE - Compliant conduction rail assembly and method are provided for facilitating cooling of an electronics structure. The rail assembly includes a first thermally conductive rail mounted to a surface of the electronics structure, a second thermally conductive rail thermally conductively interfaced to the first rail, and a biasing mechanism biasing the second rail away from the first rail. The first and second rails and the biasing mechanism are configured for slidable insertion into a housing with the electronics structure, the housing containing a liquid-cooled cold plate(s). With insertion of the electronics structure into the housing, the second rail engages the liquid-cooled cold plate and is forced by the biasing mechanism into thermal contact with the cold plate, and is forced by the cold plate towards the first rail, which results in a compliant thermal interface between the electronics structure and the liquid-cooled cold plate of the housing. | 03-31-2011 |
20110075373 | SYSTEM AND METHOD FOR STANDBY MODE COOLING OF A LIQUID-COOLED ELECTRONICS RACK - System and method are provided for cooling an electronics rack. A modular cooling unit (MCU) is associated with the rack to provide system coolant to an electronics subsystem and a bulk power assembly. The MCU includes a liquid-to-liquid heat exchanger, and defines portions of facility and system coolant loops. Chilled coolant from a facility source is passed through the liquid-to-liquid heat exchanger to cool system coolant flowing through the system coolant loop. The system also includes an air-to-liquid heat exchanger in fluid communication with the system coolant loop, a pump in fluid communication with the system coolant loop, and a controller. The controller controls operation of the pump to adjust flow of system coolant through the system coolant loop dependent upon a mode of operation. In a standby mode, system coolant flows through the air-to-liquid heat exchanger at a lower flow rate, and expels heat to ambient air. | 03-31-2011 |
20110103019 | OPEN FLOW COLD PLATE FOR IMMERSION-COOLED ELECTRONIC PACKAGES - A method and associated assembly are provided for cooling of a computing embodiment having electronic components. The heat generating components are disposed in the vicinity of at least one cold plate providing direct liquid cooling. Coolant is provided to the cold plate which will eventually exit it through one or more ports or orifices placed on the sides or both side and bottom of the cold plate. The placement, size and number of port(s) or orifice(s) can be selectively adjusted to control amount of coolant flow. Effluent flow from the cold plate flows over the remaining immersion cooled components and then exits the liquid tight enclosure which houses the electronic components. | 05-05-2011 |
20110192027 | THERMALLY CONDUCTIVE COMPOSITE INTERFACE, COOLED ELECTRONIC ASSEMBLIES EMPLOYING THE SAME, AND METHODS OF FABRICATION THEREOF - A composite interface and methods of fabrication are provided for coupling a cooling assembly to an electronic device. The interface includes a plurality of thermally conductive wires formed of a first material having a first thermal conductivity, and a thermal interface material at least partially surrounding the wires. The interface material, which thermally interfaces the cooling assembly to a surface to be cooled of the electronic device, is a second material having a second thermal conductivity, wherein the first thermal conductivity is greater than the second thermal conductivity. At least some wires reside partially over a first region of higher heat flux and extend partially over a second region of lower heat flux, wherein the first and second regions are different regions of the surface to he cooled. These wires function as thermal spreaders facilitating heat transfer from the surface to be cooled to the cooling assembly. | 08-11-2011 |
20110197612 | HYBRID AIR AND LIQUID COOLANT CONDITIONING UNIT FOR FACILITATING COOLING OF ONE OR MORE ELECTRONICS RACKS OF A DATA CENTER - A hybrid air and liquid coolant conditioning unit is provided for facilitating cooling of electronics rack(s) of a data center. The unit includes a first heat exchange assembly, including a liquid-to-liquid heat exchanger, a system coolant loop and a facility coolant loop, and a second heat exchange assembly, including an air-to-liquid heat exchanger, an air-moving device, and the facility coolant loop. The system coolant loop provides cooled system coolant to the electronics rack(s), and expels heat in the liquid-to-liquid heat exchanger from the electronics rack(s) to the facility coolant. The air-to-liquid heat exchanger extracts heat from the air of the data center and expels the heat to the facility coolant of the facility coolant loop. The facility coolant loop provides chilled facility coolant in parallel to the liquid-to-liquid heat exchanger and the air-to-liquid heat exchanger. In one implementation, the hybrid coolant conditioning unit includes a vapor-compression heat exchange assembly. | 08-18-2011 |
20110205705 | AIRFLOW RECIRCULATION AND COOLING APPARATUS AND METHOD FOR AN ELECTRONICS RACK - An apparatus is provided for facilitating cooling of an electronics rack of a data center. The apparatus includes: an airflow director mounted to the electronics rack to redirect airflow exhausting from the electronics rack through an airflow return pathway back towards an air inlet side of the rack; an air-to-liquid heat exchanger disposed within the airflow return pathway for cooling redirected airflow before exiting into the data center near the air inlet side of the rack; an air temperature sensor for monitoring air temperature of the redirected airflow; and an automated isolation door associated with the airflow director for automatically blocking airflow exhausting from the air outlet side of the electronics rack from passing through the airflow return pathway back towards the air inlet side of the rack responsive to temperature of the redirected airflow exceeding a defined temperature threshold. | 08-25-2011 |
20110279967 | Techniques for Data Center Cooling - Techniques for cooling in a data center are provided. In one aspect, a computer equipment rack is provided comprising one or more air inlets; one or more exhaust outlets; and one or more of: an air inlet duct mounted to the computer equipment rack surrounding at least a portion of the air inlets, the air inlet duct having a lateral dimension that approximates a lateral dimension of the computer equipment rack and a length that is less than a length of the computer equipment rack, and an air exhaust duct mounted to the computer equipment rack surrounding at least a portion of the exhaust outlets, the air exhaust duct having a lateral dimension that approximates the lateral dimension of the computer equipment rack and a length that is less than the length of the computer equipment rack. | 11-17-2011 |
20110286175 | LIQUID COOLANT CONDUIT SECURED IN AN UNUSED SOCKET FOR MEMORY MODULE COOLING - An apparatus for cooling a memory module installed in a computer system includes a liquid coolant conduit that is connected to a conduit support structure having a form factor selectively securable within a first preconfigured memory module socket of the computer system in order to position the liquid coolant conduit above the first socket. A heat pipe provides direct thermal contact between the liquid conduit and a heat spreader assembly in direct thermal contact with a face of the memory module. The apparatus may include a second heat pipe and second heat spreader assembly for similarly cooling a second memory module. In alternative configurations, the apparatus may cool memory modules on opposing sides of the conduit or memory modules that are both on the same side of the conduit. | 11-24-2011 |
20110290448 | DEHUMIDIFYING COOLING APPARATUS AND METHOD FOR AN ELECTRONICS RACK - Dehumidifying cooling apparatus and method are provided for an electronics rack. The apparatus includes an air-to-liquid heat exchanger disposed at an air inlet or outlet side of the rack, wherein air flows through the rack from the air inlet to the air outlet side. The heat exchanger is positioned for air passing through the electronics rack to pass across the heat exchanger, and is in fluid communication with a coolant loop for passing coolant therethrough at a temperature below a dew point temperature of the air passing across the heat exchanger so that air passing across the heat exchanger is dehumidified and cooled. A condensate collector, disposed below the heat exchanger, collects liquid condensate from the dehumidifying of air passing through the electronics rack, wherein the heat exchanger includes a plurality of sloped surfaces configured to facilitate drainage of liquid condensate from the heat exchanger to the condensate collector. | 12-01-2011 |
20110292594 | Scalable Space-Optimized and Energy-Efficient Computing System - A scalable space-optimized and energy-efficient computing system is provided. The computing system comprises a plurality of modular compartments in at least one level of a frame configured in a hexadron configuration. The computing system also comprises an air inlet, an air mixing plenum, and at least one fan. In the computing system the plurality of modular compartments are affixed above the air inlet, the air mixing plenum is affixed above the plurality of modular compartments, and the at least one fan is affixed above the air mixing plenum. When at least one module is inserted into one of the plurality of modular compartments, the module couples to a backplane within the frame. | 12-01-2011 |
20110292596 | Heatsink Allowing In-Situ Maintenance in a Stackable Module - A modular processing module allowing in-situ maintenance is provided. The modular processing module comprises a set of processing module sides. Each processing module side comprises a circuit board, a plurality of connectors, and a plurality of processing nodes. Each processing module side couples to another processing module side using at least one connector in the plurality of connectors such that, when all of the set of processing module sides are coupled together, the modular processing module is formed. The modular processing module comprises an exterior connection to a power source and a communication system and at least one heatsink that couples to at least a portion of the plurality of processing nodes on one of the processing module sides and is designed such that, when a set of heatsinks in the modular processing module are installed, an empty space is left in a center of the modular processing module. | 12-01-2011 |
20110292597 | Stackable Module for Energy-Efficient Computing Systems - A modular processing module is provided. The modular processing module comprises a set of processing module sides. Each processing module side comprises a circuit board, a plurality of connectors coupled to the circuit board, and a plurality of processing nodes coupled to the circuit board. Each processing module side in the set of processing module sides couples to another processing module side using at least one connector in the plurality of connectors such that, when all of the set of processing module sides are coupled together, the modular processing module is formed. The modular processing module comprises an exterior connection to a power source and a communication system. | 12-01-2011 |
20110292600 | DEHUMIDIFYING AND RE-HUMIDIFYING COOLING APPARATUS AND METHOD FOR AN ELECTRONICS RACK - Dehumidifying and re-humidifying cooling apparatus and method are provided for an electronics rack. The apparatus includes an air-to-liquid heat exchanger disposed at an air inlet side of the rack, wherein air flows through the rack from the air inlet side to an air outlet side. The heat exchanger, which is positioned for ingressing air to pass thereacross before passing through the electronics rack, is in fluid communication with a coolant loop for passing coolant through the heat exchanger, and the heat exchanger dehumidifies ingressing air to the electronics rack to reduce a dew point of air flowing through the rack. A condensate collector disposed at the air inlet side collects liquid condensate from the heat exchanger's dehumidifying of ingressing air, and an evaporator disposed at the air outlet side humidifies air egressing from the electronics rack employing condensate from the condensate collector. | 12-01-2011 |
20110292601 | DEHUMIDIFYING AND RE-HUMIDIFYING APPARATUS AND METHOD FOR AN ELECTRONICS RACK - Dehumidifying and re-humidifying cooling apparatus and method are provided for an electronics rack. The apparatus includes a dehumidifying air-to-liquid heat exchanger disposed at an air inlet side of the rack and a re-humidifying structure disposed at an air outlet side of the rack. The dehumidifying air-to-liquid heat exchanger is in fluid communication with a coolant loop for passing chilled coolant through the heat exchanger, and the dehumidifying heat exchanger dehumidifies ingressing air to the electronics rack to reduce a dew point of air flowing through the rack. A condensate collector disposed at the air inlet side collects liquid condensate from the dehumidifying of ingressing air, and a condensate delivery mechanism delivers the condensate to the re-humidifying structure to humidify air egressing from the electronics rack. | 12-01-2011 |
20110315343 | INTERLEAVED, IMMERSION-COOLING APPARATUSES AND METHODS FOR COOLING ELECTRONIC SUBSYSTEMS - Cooling apparatuses and methods are provided for immersion-cooling of an electronic subsystem of an electronics rack. The cooling apparatuses include a housing at least partially surrounding and forming a sealed compartment about the electronic subsystem and a dielectric fluid disposed within the sealed compartment, with the electronic subsystem being immersed within the dielectric fluid. A liquid-cooled vapor condenser is provided which includes a plurality of thermally conductive condenser fins extending within the sealed compartment. The condenser fins facilitate cooling and condensing of dielectric fluid vapor generated within the sealed compartment. Within the sealed compartment, multiple thermally conductive condenser fins are interleaved with multiple fluid-boiling fins of a heat spreader coupled to one or more of the electronic components immersed within the dielectric fluid. The interleaved fins facilitate localized cooling and condensing of dielectric fluid vapor within the sealed compartment. | 12-29-2011 |
20110315344 | INTERLEAVED, IMMERSION-COOLING APPARATUS AND METHOD FOR AN ELECTRONIC SUBSYSTEM OF AN ELECTRONICS RACK - Cooling apparatus and method are provided for immersion-cooling of an electronic subsystem of an electronics rack. The cooling apparatus includes a housing at least partially surrounding and forming a sealed compartment about the electronic subsystem and a dielectric fluid disposed within the sealed compartment so that the electronic subsystem is immersed within the dielectric fluid. A liquid-cooled vapor condenser is provided which includes a plurality of thermally conductive condenser fins extending within the sealed compartment. The condenser fins facilitate cooling and condensing of dielectric fluid vapor generated within the sealed compartment. Within the sealed compartment, multiple thermally conductive condenser fins are interleaved with multiple electronic components immersed within the dielectric fluid to facilitate localized cooling and condensing of dielectric fluid vapor between the multiple electronic components. | 12-29-2011 |
20110315353 | LIQUID-COOLED ELECTRONICS RACK WITH IMMERSION-COOLED ELECTRONIC SUBSYSTEMS AND VERTICALLY-MOUNTED, VAPOR-CONDENSING UNIT - Liquid-cooled electronics racks are provided which include: immersion-cooled electronic subsystems; a vertically-oriented, vapor-condensing unit facilitating condensing dielectric fluid vapor egressing from the immersion-cooled subsystems, the vertically-oriented, vapor-condensing unit being sized and configured to reside adjacent to at least one side of the electronics rack; a reservoir for holding dielectric fluid, the reservoir receiving dielectric fluid condensate from the vertically-oriented, vapor-condensing unit; a dielectric fluid supply manifold coupling in fluid communication the reservoir and the dielectric fluid inlets of the immersion-cooled electronic subsystems; and a pump associated with a reservoir for pumping under pressure dielectric fluid from the reservoir to the dielectric fluid supply manifold for maintaining dielectric fluid in a liquid state within the immersion-cooled electronic subsystems. | 12-29-2011 |
20110315355 | IMMERSION-COOLING APPARATUS AND METHOD FOR AN ELECTRONIC SUBSYSTEM OF AN ELECTRONICS RACK - Cooling apparatus and method are provided for immersion-cooling of an electronic subsystem of an electronics rack. The cooling apparatus includes a housing at least partially surrounding and forming a sealed compartment about the electronic subsystem and a dielectric fluid disposed within the sealed compartment, with the electronic subsystem being immersed within the dielectric fluid. A liquid-cooled vapor condenser is provided which includes a plurality of thermally conductive condenser fins extending within the sealed compartment in an upper portion of the compartment. The condenser fins facilitate cooling of dielectric fluid vapor rising to the upper portion of the compartment. A filler material is disposed within the sealed compartment to reduce the amount of dielectric fluid required within the compartment to achieve immersion-cooling of the electronic subsystem, and the filler material includes a shaped surface to direct dielectric fluid vapor within the compartment towards the condenser fins. | 12-29-2011 |
20110317367 | LIQUID-COOLED ELECTRONICS RACK WITH IMMERSION-COOLED ELECTRONIC SUBSYSTEMS - Liquid-cooled electronics racks are provided which include: immersion-cooled electronic subsystems; a vapor-condensing heat exchanger to condense dielectric fluid vapor egressing from the immersion-cooled electronic subsystems; a dielectric fluid vapor return coupling in fluid communication the vapor outlets of the immersion-cooled electronic subsystems and the vapor-condensing heat exchanger; a reservoir for holding dielectric fluid; a gravity drain line coupled to drain dielectric fluid condensate from the vapor-condensing heat exchanger to the reservoir; an immersed, sub-cooling heat exchanger disposed within the reservoir; a dielectric fluid supply manifold coupling in fluid communication the reservoir and the dielectric fluid inlets of the immersion-cooled electronic subsystems; and a pump for supplying under pressure dielectric fluid from the reservoir to the dielectric fluid supply manifold for maintaining dielectric fluid in a liquid state within the immersion-cooled electronic subsystems. | 12-29-2011 |
20120024501 | THERMOELECTRIC-ENHANCED, LIQUID-COOLING APPARATUS AND METHOD FOR FACILITATING DISSIPATION OF HEAT - Thermoelectric-enhanced, liquid-cooling apparatus and method are provided for facilitating cooling of one or more components of an electronics rack. The apparatus includes a liquid-cooled structure in thermal communication with the component(s) to be cooled, and a liquid-to-air heat exchanger coupled in fluid communication with the liquid-cooled structure via a coolant loop for receiving coolant from and supply coolant to the liquid-cooled structure. A thermoelectric array is disposed with first and second coolant loop portions in thermal contact with first and second sides of the array. The thermoelectric array operates to transfer heat from coolant passing through the first loop portion to coolant passing through the second loop portion, and cools coolant passing through the first loop portion before the coolant passes through the liquid-cooled structure. Coolant passing through the first and second loop portions passes through the liquid-to-air heat exchanger for cooling thereof. | 02-02-2012 |
20120026691 | APPARATUS AND METHOD FOR FACILITATING DISSIPATION OF HEAT FROM A LIQUID-COOLED ELECTRONICS RACK - Apparatus and method are provided for facilitating cooling of one or more components of an electronics rack. The apparatus includes a liquid-cooled structure associated with the electronic component(s) to be cooled, and a liquid-to-air heat exchanger coupled in fluid communication with the liquid-cooled structure via a coolant loop to receive coolant from and supply coolant to the liquid-cooled structure. The heat exchanger is disposed external to the electronics rack within a cool air plenum of the data center containing the rack, and the plenum is coupled to a cool air source providing cooled air to the data center. Cooled air of the cool air plenum passes across the heat exchanger and cools coolant passing through the heat exchanger, which dissipates heat from the coolant passing therethrough to the cool air passing across the heat exchanger to facilitate liquid cooling of the electronic component(s) associated with the liquid-cooled structure. | 02-02-2012 |
20120103566 | LIQUID COOLED DATA CENTER WITH ALTERNATING COOLANT SUPPLY LINES - Methods of preventing overheating of computer equipment in a cabinet when a supply coolant to a cooler in the cabinet fails. An example embodiment is a data center that includes a plurality of cabinets and at least two coolant supply lines. The cabinets are configured to house computer equipment and the coolant supply lines provide coolant for the cabinets. Moreover, the cabinets are arranged in at least one row of adjacent cabinets such that each row of adjacent cabinets receives coolant from alternating coolant supply lines. | 05-03-2012 |
20120111027 | THERMOELECTRIC-ENHANCED, VAPOR-COMPRESSION REFRIGERATION APPARATUS FACILITATING COOLING OF AN ELECTRONIC COMPONENT - Apparatus and method are provided for facilitating cooling of an electronic component. The apparatus includes a refrigerant loop, a compressor coupled to the refrigerant loop, and a controllable thermoelectric array disposed in thermal communication with the refrigerant loop. Refrigerant flowing through the refrigerant loop facilitates dissipation of heat from the electronic component, and the thermoelectric array is disposed with a first portion of the refrigerant loop, residing upstream of the compressor, in thermal contact with a first side of the array, and a second portion of the refrigerant loop, residing downstream of the compressor, in thermal contact with a second side of the array. The thermoelectric array ensures that refrigerant in the refrigerant loop entering the compressor is in a superheated thermodynamic state by transferring heat from refrigerant passing through the second portion to refrigerant passing through the first portion of the refrigerant loop. | 05-10-2012 |
20120111028 | THERMOELECTRIC-ENHANCED, REFRIGERATION COOLING OF AN ELECTRONIC COMPONENT - Apparatus and method are provided for facilitating cooling of an electronic component of varying heat load. The apparatus includes a refrigerant evaporator coupled in thermal communication with the electronic component, a refrigerant loop coupled in fluid communication with the refrigerant evaporator for facilitating flow of refrigerant through the evaporator, and a thermoelectric array disposed in thermal communication with the evaporator. The thermoelectric array includes one or more thermoelectric elements, and is powered by a voltage and by a current of switchable polarity, which are controlled to maintain heat load on refrigerant flowing through the refrigerant evaporator within a steady state range, notwithstanding varying of the heat load applied to the refrigerant flowing through the refrigerant by the at least one electronic component. | 05-10-2012 |
20120111034 | HEAT EXCHANGE ASSEMBLY WITH INTEGRATED HEATER - A heat exchange assembly and apparatus and method employing the heat exchange assembly are provided. The heat exchange assembly includes a coolant-to-refrigerant heat exchanger and a heater. The heat exchanger includes a coolant inlet and a coolant outlet for passing a coolant through the heat exchanger, and a refrigerant inlet and a refrigerant outlet for separately passing a refrigerant through the heat exchanger. The heat exchanger cools coolant passing through the heat exchanger by dissipating heat from coolant passing through the heat exchanger to refrigerant passing through the heat exchanger. The heater is integrated with the heat exchanger and applies an auxiliary heat load to refrigerant passing through the heat exchanger to facilitate ensuring that refrigerant passing through the heat exchanger absorbs at least a specified minimum heat load, for example, to ensure that refrigerant egressing from the refrigerant outlet of the heat exchanger is superheated vapor refrigerant. | 05-10-2012 |
20120111035 | COOLANT-BUFFERED, VAPOR-COMPRESSION REFRIGERATION APPARATUS AND METHOD WITH CONTROLED COOLANT HEAT LOAD - Apparatus and method are provided for cooling an electronic component. The apparatus includes a coolant-cooled structure in thermal communication with the component(s) to be cooled, and a coolant-to-refrigerant heat exchanger coupled in fluid communication with the coolant-cooled structure via a coolant loop to receive coolant from and supply coolant to the coolant-cooled structure. The apparatus further includes a refrigerant loop coupled in fluid communication with the coolant-to-refrigerant heat exchanger, and the heat exchanger cools coolant passing therethrough by dissipating heat from the coolant in the coolant loop to refrigerant in the refrigerant loop. A controllable coolant heater is associated with the coolant loop for providing an adjustable heat load on the coolant in the coolant loop to ensure at least a minimum heat load is dissipated from the coolant to the refrigerant passing through the heat exchanger. | 05-10-2012 |
20120111036 | COOLANT-BUFFERED, VAPOR-COMPRESSION REFRIGERATION WITH THERMAL STORAGE AND COMPRESSOR CYCLING - Apparatus and method are provided for cooling an electronic component(s). The apparatus includes a coolant-cooled structure in thermal communication with the component(s) to be cooled, and a coolant-to-refrigerant heat exchanger in fluid communication with the coolant-cooled structure via a coolant loop. A thermal buffer unit is coupled in fluid communication with the coolant loop, and a refrigerant loop is coupled in fluid communication with the heat exchanger. The heat exchanger dissipates heat from coolant in the coolant loop to refrigerant in the refrigerant loop. A compressor is coupled in fluid communication with the refrigerant loop and is maintained ON responsive to heat load of the component(s) exceeding a heat load threshold, and is cycled ON and OFF responsive to heat load of the component(s) being below the threshold. The thermal storage unit dampens swings in coolant temperature within the coolant loop during cycling ON and OFF of the compressor. | 05-10-2012 |
20120111037 | VAPOR-COMPRESSION REFRIGERATION APPARATUS WITH REFRGIERANT BYPASS AND CONTROLLED HEAT LOAD - Apparatus and method are provided for cooling an electronic component. The apparatus includes a refrigerant evaporator in thermal communication with the component(s) to be cooled, and a refrigerant loop coupled in fluid communication with the evaporator for facilitating flow of refrigerant through the evaporator. The apparatus further includes a compressor in fluid communication with the refrigerant loop, a refrigerant bypass pipe coupled to the refrigerant loop in parallel fluid communication with the evaporator, and a control valve for controlling refrigerant flow through the evaporator. The control valve is controlled to maintain temperature of the component(s) within a specified temperature range. The apparatus further includes a controllable refrigerant heater associated with the refrigerant bypass pipe for providing an adjustable heat load on refrigerant in the bypass pipe to ensure that refrigerant entering the compressor is in a superheated thermodynamic state. | 05-10-2012 |
20120111038 | VAPOR-COMPRESSION REFRIGERATION APPARATUS WITH BACKUP AIR-COOLED HEAT SINK AND AUXILIARY REFRIGERANT HEATER - Apparatus and method are provided for cooling an electronic component. The apparatus includes a refrigerant evaporator in thermal communication with a component(s) to be cooled, and a refrigerant loop coupled in fluid communication with the evaporator for facilitating flow of refrigerant through the evaporator. The apparatus further includes a compressor in fluid communication with a refrigerant loop, an air-cooled heat sink coupled to the refrigerant evaporator, for providing backup cooling to the electronic component in a backup, air cooling mode, and a controllable refrigerant heater coupled to the heat sink. The refrigerant heater is in thermal communication across the heat sink with refrigerant passing through the refrigerant evaporator, and is controlled in a primary, refrigeration cooling mode to apply an auxiliary heat load to refrigerant passing through the refrigerant evaporator to ensure that refrigerant in the refrigerant loop entering the compressor is in a superheated thermodynamic state. | 05-10-2012 |
20120120603 | AUTOMATICALLY RECONFIGURABLE LIQUID-COOLING APPARATUS FOR AN ELECTRONICS RACK - An apparatus is provided for cooling an electronics rack, which includes an electronic subsystem across which air passing through the rack flows. A cooling unit provides, via system coolant supply and return manifolds, system coolant in parallel to the electronic subsystem and an air-to-liquid heat exchanger disposed to cool, in normal-mode, air passing through the rack. A controller monitors coolant associated with the cooling unit and automatically transitions the cooling apparatus from normal-mode to failure-mode responsive to detecting a failure of the coolant. In transitioning to failure-mode, multiple isolation valves are employed in switching to a serial flow of system coolant from the electronic subsystem to the heat exchanger for rejecting, via the system coolant, heat from the electronic subsystem to air passing across the heat exchanger. | 05-17-2012 |
20120199311 | APPARATUS AND METHOD FOR FACILITATING SERVICING OF A LIQUID-COOLED ELECTRONICS RACK - An apparatus for facilitating servicing of a liquid-cooled electronics rack is provided. The apparatus includes a coolant tank, a coolant pump in fluid communication with the coolant tank, multiple parallel-connected coolant supply lines coupling the coolant pump to a coolant supply port of the apparatus, and a coolant return port and a coolant return line coupled between the coolant return port and the coolant tank. Each coolant supply line includes a coolant control valve for selectively controlling flow of coolant therethrough pumped by the coolant pump from the coolant tank. At least one coolant supply line includes at least one filter, and one coolant supply line is a bypass line with no filter. When operational, the apparatus facilitates filling of coolant into a cooling system of a liquid-cooled electronics rack by allowing for selective filtering of coolant inserted into the cooling system. | 08-09-2012 |
20120210731 | THERMOELECTRIC-ENHANCED, VAPOR-COMPRESSION REFRIGERATION METHOD FACILITATING COOLING OF AN ELECTRONIC COMPONENT - A method is provided for facilitating cooling of an electronic component. The method includes: providing a refrigerant loop configured for refrigerant to flow through the loop; coupling a compressor in fluid communication with the loop, wherein a first portion of the loop resides upstream of a refrigerant inlet of the compressor, and a second portion resides downstream; and disposing a controllable thermoelectric array in thermal communication with the refrigerant loop. The thermoelectric array is disposed with the first portion of the refrigerant loop at least partially in thermal contact with the first side of the array, and the second portion of the loop at least partially in thermal contact with a second side of the array. The array is controlled to ensure that refrigerant in the refrigerant loop entering the compressor is in a superheated thermodynamic state. | 08-23-2012 |
20120232879 | DATA CENTER EFFICIENCY ANALYSES AND OPTIMIZATION - Method, system and computer program product for estimating the overall energy efficiency of a data center over a period of time. In one embodiment, a computer processor coupled to computer readable memory is configured to receive time parameters indicating the period of time over which the overall energy efficiency of the data center is to be estimated, receive component parameters indicating the performance characteristics of data center components and the operational interactions between the data center components, simulate the operation and interaction of the data center components based, at least in part, on the component parameters for the period of time over which the energy efficiency is estimated, and output results of the simulation to estimate the overall energy efficiency of the data center. | 09-13-2012 |
20120254400 | SYSTEM TO IMPROVE OPERATION OF A DATA CENTER WITH HETEROGENEOUS COMPUTING CLOUDS - A system to improve operation of a data center with heterogeneous computing clouds may include monitoring components to track data center climate controls and individual heterogeneous computing clouds' operating parameters within the data center. The system may also include a controller that regulates the individual heterogeneous computing clouds and data center climate controls based upon data generated by the monitoring components to improve the operating performance of the individual heterogeneous computing clouds as well as the operating performance of the data center. The system may further include spilling computing clouds to receive excess workload of an individual heterogeneous computing cloud without violating individual heterogeneous computing clouds contracts. | 10-04-2012 |
20120279047 | METHOD OF FABRICATING A COOLED ELECTRONIC SYSTEM - A method of fabricating a liquid-cooled electronic system is provided which includes an electronic assembly having an electronics card and a socket with a latch at one end. The latch facilitates securing of the card within the socket. The method includes providing a liquid-cooled cold rail at the one end of the socket, and a thermal spreader to couple the electronics card to the cold rail. The thermal spreader includes first and second thermal transfer plates coupled to first and second surfaces on opposite sides of the card, and thermally conductive extensions extending from end edges of the plates, which couple the respective transfer plates to the liquid-cooled cold rail. The extensions are disposed to the sides of the latch, and the card is securable within or removable from the socket using the latch without removing the cold rail or the thermal spreader. | 11-08-2012 |
20120279233 | THERMOELECTRIC-ENHANCED, LIQUID-BASED COOLING OF A MULTI-COMPONENT ELECTRONIC SYSTEM - Apparatus and method are provided for facilitating cooling of an electronic component. The apparatus includes a liquid-cooled structure, a thermal conduction path coupling the electronic component and the liquid-cooled structure, a coolant loop in fluid communication with a coolant-carrying channel of the liquid-cooled structure, and an outdoor-air-cooled heat exchange unit coupled to facilitate heat transfer from the liquid-cooled structure via, at least in part, the coolant loop. The thermoelectric array facilitates transfer of heat from the electronic component to the liquid-cooled structure, and the heat exchange unit cools coolant passing through the coolant loop by dissipating heat from the coolant to outdoor ambient air. In one implementation, temperature of coolant entering the liquid-cooled structure is greater than temperature of the outdoor ambient air to which heat is dissipated. | 11-08-2012 |
20120279686 | COOLED ELECTRONIC SYSTEM WITH LIQUID-COOLED COLD PLATE AND THERMAL SPREADER COUPLED TO ELECTRONIC COMPONENT - Apparatus and method are provided for facilitating cooling of an electronic component. The apparatus includes a liquid-cooled cold plate and a thermal spreader associated with the cold plate. The cold plate includes multiple coolant-carrying channel sections extending within the cold plate, and a thermal conduction surface with a larger surface area than a surface area of the component to be cooled. The thermal spreader includes one or more heat pipes including multiple heat pipe sections. One or more heat pipe sections are partially aligned to a first region of the cold plate, that is, where aligned to the surface to be cooled, and partially aligned to a second region of the cold plate, which is outside the first region. The one or more heat pipes facilitate distribution of heat from the electronic component to coolant-carrying channel sections of the cold plate located in the second region of the cold plate. | 11-08-2012 |
20120281358 | COOLED ELECTRONIC SYSTEM WITH THERMAL SPREADERS COUPLING ELECTRONICS CARDS TO COLD RAILS - Liquid-cooled electronic systems are provided which include an electronic assembly having an electronics card and a socket with a latch at one end. The latch facilitates securing of the card within the socket or removal of the card from the socket. A liquid-cooled cold rail is disposed at the one end of the socket, and a thermal spreader couples the electronics card to the cold rail. The thermal spreader includes first and second thermal transfer plates coupled to first and second surfaces on opposite sides of the card, and thermally conductive extensions extending from end edges of the plates, which couple the respective transfer plates to the liquid-cooled cold rail. The thermally conductive extensions are disposed to the sides of the latch, and the card is securable within or removable from the socket using the latch without removing the cold rail or the thermal spreader. | 11-08-2012 |
20120286514 | FLUID-DRIVEN, ELECTRICITY-GENERATING SYSTEM AND METHOD FOR A DATA CENTER - A fluid-driven, electricity-generating system and method are provided for a data center with a fluid transport pipe. The generating system includes a housing coupled in fluid communication with the fluid transport pipe, an impeller disposed within the housing and positioned to turn with flow of fluid across the impeller, one or more magnetic structures disposed to turn with turning of the impeller, and an electrical circuit. Electricity is generated for the electrical circuit with turning of the one or more magnetic structures, and is supplied to an electrical load disposed within or associated with the data center. | 11-15-2012 |
20120297807 | COOLING UNIT FOR CONTAINER-TYPE DATA CENTER - A cooling unit and cooling method are provided for a container-type data center. The cooling unit includes a heat rejection unit, for rejecting heat from coolant passing through a coolant loop to air passing across the heat rejection unit, and a refrigeration unit controllable to selectively provide auxiliary cooling to at least a portion of the coolant passing through the coolant loop. The heat rejection unit includes a heat exchange assembly, having a first heat exchanger and a second heat exchanger, and one or more air-moving devices providing airflow across the first and second heat exchangers. The first heat exchanger couples in fluid communication with the coolant loop, and the second heat exchanger is coupled in fluid communication with a refrigeration loop of the refrigeration unit for rejecting heat from refrigerant passing through the refrigeration loop to the airflow passing across the second heat exchanger. | 11-29-2012 |
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 |
20120298338 | DATA CENTER WITH DUAL RADIATOR CABINETS FOR REDUNDANT OPERATION - Methods of preventing overheating of computer equipment in a cabinet when a supply coolant to a cooler in the cabinet fails. An example embodiment is a data center that includes a plurality of cabinets and at least two main coolant supply lines. The cabinets are configured to house computer equipment and the main coolant supply lines provide coolant to the plurality of cabinets. Moreover, each cabinet includes a cooler and each of these coolers includes at least two radiators which receive coolant from different main coolant supply lines. | 11-29-2012 |
20120300398 | MULTI-RACK, DOOR-MOUNTED HEAT EXCHANGER - An air-cooling apparatus is provided which includes a securing mechanism for holding two or more separate electronics racks in fixed relation adjacent to each other, and a multi-rack door sized and configured to span the air inlet or air outlet sides of the racks. The securing mechanism holds the electronics racks in fixed relation with their air inlet sides facing a first direction, and air outlet sides facing a second direction. The door includes a door frame with an airflow opening. The airflow opening facilitates the ingress or egress of airflow through the electronics racks, and the door further includes an air-to-liquid heat exchanger supported by the door frame, and disposed so that air flowing through the airflow opening passes across the heat exchanger. In operation, the heat exchanger extracts heat from the air passing through the separate electronics racks. | 11-29-2012 |
20120320524 | Heatsink Allowing In-Situ Maintenance in a Stackable Module - A modular processing module allowing in-situ maintenance is provided. The modular processing module comprises a set of processing module sides. Each processing module side comprises a circuit board, a plurality of connectors, and a plurality of processing nodes. Each processing module side couples to another processing module side using at least one connector in the plurality of connectors such that, when all of the set of processing module sides are coupled together, the modular processing module is formed. The modular processing module comprises an exterior connection to a power source and a communication system and at least one heatsink that couples to at least a portion of the plurality of processing nodes on one of the processing module sides and is designed such that, when a set of heatsinks in the modular processing module are installed, an empty space is left in a center of the modular processing module. | 12-20-2012 |
20130000736 | ADJUSTABLE AND DIRECTIONAL FLOW PERFORATED TILES - An air flow control assembly, system, and method for controlling air flow to a server rack. An example air flow control assembly includes a retractable barrier configured to block the air flow, at least partially, from passing through a perforated floor tile to the server rack. The air flow control assembly also includes a barrier mount configured to secure the retractable barrier proximate the perforated floor tile. | 01-03-2013 |
20130014926 | DATA CENTER COOLANT SWITCHAANM Iyengar; Madhusudan K.AACI WoodstockAAST NYAACO USAAGP Iyengar; Madhusudan K. Woodstock NY USAANM Parida; Pritish R.AACI FishkillAAST NYAACO USAAGP Parida; Pritish R. Fishkill NY USAANM Schultz; Mark D.AACI OssiningAAST NYAACO USAAGP Schultz; Mark D. Ossining NY US - A data center cooling system is operated in a first mode; it has an indoor portion wherein heat is absorbed from components in the data center, and an outdoor heat exchanger portion wherein outside air is used to cool a first heat transfer fluid (e.g., water) present in at least the outdoor heat exchanger portion of the cooling system during the first mode. The first heat transfer fluid is a relatively high performance heat transfer fluid (as compared to the second fluid), and has a first heat transfer fluid freezing point. A determination is made that an appropriate time has been reached to switch from the first mode to a second mode. Based on this determination, the outdoor heat exchanger portion of the data cooling system is switched to a second heat transfer fluid, which is a relatively low performance heat transfer fluid, as compared to the first heat transfer fluid. It has a second heat transfer fluid freezing point lower than the first heat transfer fluid freezing point, and the second heat transfer fluid freezing point is sufficiently low to operate without freezing when the outdoor air temperature drops below a first predetermined relationship with the first heat transfer fluid freezing point. | 01-17-2013 |
20130019614 | AIR-SIDE ECONOMIZER FACILITATING LIQUID-BASED COOLING OF AN ELECTRONICS RACK - A cooling apparatus and method are provided for cooling an electronic subsystem of an electronics rack. The cooling apparatus includes a local cooling station, which has a liquid-to-air heat exchanger and ducting for directing a cooling airflow across the heat exchanger. A cooling subsystem is associated with the electronic subsystem of the rack, and includes either a housing facilitating immersion cooling of electronic components of the electronic subsystem, or one or more liquid-cooled structures providing conductive cooling to the electronic components of the electronic subsystem. A coolant loop couples the cooling subsystem to the liquid-to-air heat exchanger of the local cooling station. In operation, heat is transferred via circulating coolant from the electronic subsystem and rejected in the liquid-to-air heat exchanger of the local cooling station to the cooling airflow passing across the liquid-to-air heat exchanger. In one embodiment, the cooling airflow is outdoor air. | 01-24-2013 |
20130021746 | DATA CENTER COOLING WITH AN AIR-SIDE ECONOMIZER AND LIQUID-COOLED ELECTRONICS RACK(S) - A cooling apparatus and method are provided for cooling an electronics rack. The cooling apparatus includes an air-cooled cooling station, which has a liquid-to-air heat exchanger and ducting for directing a cooling airflow across the heat exchanger. A cooling subsystem is associated with the electronics rack, and includes a liquid-cooled condenser facilitating immersion-cooling of electronic components of the electronics rack, a liquid-cooled structure providing conductive cooling to electronic components of the electronics rack, or an air-to-liquid heat exchanger associated with the rack and cooling airflow passing through the electronics rack. A coolant loop couples the cooling subsystem to the liquid-to-air heat exchanger. In operation, heat is transferred via circulating coolant from the electronics rack, and rejected in the liquid-to-air heat exchanger of the cooling station to the cooling airflow passing across the liquid-to-air heat exchanger. In one embodiment, the cooling airflow is outdoor air. | 01-24-2013 |
20130021752 | TWO-PHASE, WATER-BASED IMMERSION-COOLING APPARATUS WITH PASSIVE DEIONIZATION - Cooling apparatuses, cooled electronic modules and methods of fabrication are provided for fluid immersion-cooling of an electronic component(s). The cooled electronic module includes a substrate supporting the electronic component(s), and the cooling apparatus couples to the substrate, and includes a housing at least partially surrounding and forming a compartment about the electronic component(s). Additionally, the cooling apparatus includes a fluid and a deionization structure disposed within the compartment. The electronic component is at least partially immersed within the fluid, and the fluid is a water-based fluid. The deionization structure includes deionizing material, which ensures deionization of the fluid within the compartment. The deionization structure facilitates boiling heat transfer from the electronic component(s) to a condenser structure disposed in the compartment. Transferred heat is subsequently conducted to, for example, a liquid-cooled cold plate or an air-cooled heat sink coupled to the housing for cooling the condenser structure. | 01-24-2013 |
20130027878 | HEAT SINK STRUCTURE WITH A VAPOR-PERMEABLE MEMBRANE FOR TWO-PHASE COOLING - A heat sink, and cooled electronic structure and cooled electronics apparatus utilizing the heat sink are provided. The heat sink is fabricated of a thermally conductive structure which includes one or more coolant-carrying channels coupled to facilitate the flow of coolant through the coolant-carrying channel(s). The heat sink further includes a membrane associated with the coolant-carrying channel(s). The membrane includes at least one vapor-permeable region, which overlies a portion of the coolant-carrying channel(s) and facilitates removal of vapor from the coolant-carrying channel(s), and at least one orifice coupled to inject coolant onto at least one surface of the coolant-carrying channel(s) intermediate opposite ends of the channel(s). | 01-31-2013 |
20130027883 | FLOW BOILING HEAT SINK STRUCTURE WITH VAPOR VENTING AND CONDENSING - A heat sink, and cooled electronic structure and cooled electronic apparatus utilizing the heat sink, are provided. The heat sink is fabricated of a thermally conductive structure which includes one or more coolant-carrying channels and one or more vapor-condensing channels. A membrane is disposed between the coolant-carrying channel(s) and the vapor-condensing channel(s). The membrane includes at least one vapor-permeable region, at least a portion of which overlies a portion of the coolant-carrying channel(s) and facilitates removal of vapor from the coolant-carrying channel(s) to the vapor-condensing channel(s). The heat sink further includes one or more coolant inlets coupled to provide a first liquid coolant flow to the coolant-carrying channel(s), and a second liquid coolant flow to condense vapor within the vapor-condensing channel(s). | 01-31-2013 |
20130027884 | VALVE CONTROLLED, NODE-LEVEL VAPOR CONDENSATION FOR TWO-PHASE HEAT SINK(S) - A cooling apparatus and method are provided for cooling one or more electronic components of an electronic subsystem of an electronics rack. The cooling apparatus includes a heat sink, which is configured to couple to an electronic component, and which includes a coolant-carrying channel for coolant to flow therethrough. The coolant provides two-phase cooling to the electronic component, and is discharged from the heat sink as coolant exhaust which comprises coolant vapor to be condensed. The cooling apparatus further includes a node-level condensation module, associated with the electronic subsystem, and coupled in fluid communication with the heat sink to receive the coolant exhaust from the heat sink. The condensation module is liquid-cooled, and facilitates condensing of the coolant vapor in the coolant exhaust. A controller automatically controls the liquid-cooling of the heat sink and/or the liquid-cooling of the node-level condensation module. | 01-31-2013 |
20130091866 | THERMOELECTRIC-ENHANCED, VAPOR-CONDENSER FACILITATING IMMERSION-COOLING OF ELECTRONIC COMPONENT(S) - Cooling apparatuses and methods are provided for immersion-cooling one or more electronic components. The cooling apparatus includes a housing at least partially surrounding and forming a fluid-tight compartment about the electronic component(s) and a dielectric fluid disposed within the fluid-tight compartment, with the electronic component(s) immersed within the dielectric fluid. A vapor-condenser, heat sink, and thermal conductive path are also provided. The vapor-condenser includes a plurality of thermally conductive condenser fins extending within the fluid-tight compartment, and the heat sink includes a first region and a second region, with the first region of the heat sink being in thermal contact with the vapor-condenser. The thermal conduction path couples the fluid-tight compartment and the second region of the heat sink in thermal contact, and includes a thermoelectric array, which facilitates transfer of heat from the fluid-tight compartment to the second region of the heat sink through the thermal conduction path. | 04-18-2013 |
20130091867 | CONTAMINANT SEPARATOR FOR A VAPOR-COMPRESSION REFRIGERATION APPARATUS - Apparatuses and methods are provided for facilitating cooling of an electronic component. The apparatus includes a vapor-compression refrigeration system, which includes an expansion component, an evaporator, a compressor and a condenser coupled in fluid communication. The evaporator is coupled to and cools the electronic component. The apparatus further includes a contaminant separator coupled in fluid communication with the refrigerant flow path. The separator includes a refrigerant cold filter and a thermoelectric array. At least a portion of refrigerant passing through the refrigerant flow path passes through the cold filter, and the thermoelectric array provides cooling to the cold filter to cool refrigerant passing through the filter. By cooling refrigerant passing through the filter, contaminants solidify from the refrigerant, and are deposited in the cold filter. The separator may further include a refrigerant hot filter coupled to a hot side of the thermoelectric array for further filtering the refrigerant. | 04-18-2013 |
20130091871 | CONTAMINANT COLD TRAP FOR A VAPOR-COMPRESSION REFRIGERATION APPARATUS - Apparatuses and methods are provided for facilitating cooling of an electronic component. The apparatus includes a vapor-compression refrigeration system. The vapor-compression refrigeration system includes an expansion component, an evaporator and a compressor coupled in fluid communication via a refrigerant flow path. The evaporator is coupled to and cools the electronic component. The apparatus further includes a contaminant cold trap coupled in fluid communication with the refrigerant flow path. The cold trap includes a refrigerant cold filter and a coolant-cooled structure. At least a portion of refrigerant passing through the refrigerant flow path passes through the refrigerant cold filter, and the coolant-cooled structure provides cooling to the refrigerant cold filter to cool refrigerant passing through the filter. By cooling refrigerant passing through the filter, contaminants solidify from the refrigerant, and are deposited in the refrigerant cold filter. | 04-18-2013 |
20130091886 | INTRA-CONDENSER CONTAMINANT EXTRACTOR FOR A VAPOR-COMPRESSION REFRIGERATION APPARATUS - Apparatuses and methods are provided for facilitating cooling of an electronic component. The apparatus includes a vapor-compression refrigeration system. The vapor-compression refrigeration system includes an expansion component, an evaporator, a compressor, and a condenser coupled in fluid communication via a refrigerant flow path. The evaporator is coupled to and cools the electronic component. The apparatus further includes a contaminant extractor coupled in fluid communication with the refrigerant flow path. The extractor includes a refrigerant boiling filter and a heater. At least a portion of refrigerant passing through the refrigerant flow path passes through the refrigerant boiling filter, and the heater provides heat to the refrigerant boiling filter to boil refrigerant passing through the filter. By boiling refrigerant passing through the filter, contaminants are extracted from the refrigerant, and are deposited in the refrigerant boiling filter. | 04-18-2013 |
20130092347 | DATA CENTER WITH DUAL RADIATOR CABINETS FOR REDUNDANT OPERATION - Methods of preventing overheating of computer equipment in a cabinet when a supply coolant to a cooler in the cabinet fails. An example embodiment is a data center that includes a plurality of cabinets and at least two main coolant supply lines. The cabinets are configured to house computer equipment and the main coolant supply lines provide coolant to the plurality of cabinets. Moreover, each cabinet includes a cooler and each of these coolers includes at least two radiators which receive coolant from different main coolant supply lines. | 04-18-2013 |
20130094139 | COMBINED POWER AND COOLING RACK SUPPORTING AN ELECTRONICS RACK(S) - A combined power and cooling apparatus is provided facilitating powering and cooling one or more electronics racks, which are distinct from the power and cooling apparatus. The power and cooling apparatus includes a frame, one or more bulk power assemblies associated with the frame, and one or more heat exchange assemblies associated with the frame. The one or more bulk power assemblies are configured to provide power to the one or more electronics racks, and the one or more heat exchange assemblies are configured to cool system coolant provided to the one or more electronics racks. Heat is transferred by the one or more heat exchange assemblies from the system coolant to a facility coolant. In operation, the power and cooling apparatus is coupled to provide both power and cooling to the one or more electronics racks. | 04-18-2013 |
20130094145 | THERMAL EXPANSION-ENHANCED HEAT SINK FOR AN ELECTRONIC ASSEMBLY - A heat sink and method of fabrication are provided for removing heat from an electronic component(s). The heat sink includes a heat sink base and frame. The base has a first coefficient of thermal expansion (CTE), and includes a base surface configured to couple to the electronic component to facilitate removal of heat. The frame has a second CTE, and is configured to constrain the base surface in opposing relation to the electronic component, wherein the first CTE is greater than the second CTE. At least one of the heat sink base or frame is configured so that heating of the heat sink base results in a compressive force at the base surface of the heat sink base towards the electronic component that facilitates heat transfer from the electronic component. A thermal interface material is disposed between the base surface and the electronic component. | 04-18-2013 |
20130096721 | DATA CENTER COOLING CONTROL - A method, system, and computer program product for controlling data center cooling. In an example embodiment the method includes calculating, using a processor, an over-provisioning factor, where the over-provisioning factor is a function of a ratio of a rated cooling power to a calculated cooling power of a set of cooling units, the set of cooing units comprising at least one cooling unit. The method proceeds by adjusting the data-center cooling until the over-provisioning factor is substantially equal to a target over-provisioning factor. | 04-18-2013 |
20130096905 | DATA CENTER EFFICIENCY ANALYSES AND OPTIMIZATION - Method, system and computer program product for estimating the overall energy efficiency of a data center over a period of time. In one embodiment, a computer processor coupled to computer readable memory is configured to receive time parameters indicating the period of time over which the overall energy efficiency of the data center is to be estimated, receive component parameters indicating the performance characteristics of data center components and the operational interactions between the data center components, simulate the operation and interaction of the data center components based, at least in part, on the component parameters for the period of time over which the energy efficiency is estimated, and output results of the simulation to estimate the overall energy efficiency of the data center. | 04-18-2013 |
20130098579 | DRY-COOLING UNIT WITH GRAVITY-ASSISTED COOLANT FLOW - A cooling unit is provided to facilitate cooling of coolant passing through a coolant loop. The cooling unit includes one or more heat rejection units and an elevated coolant tank. The heat rejection unit(s) rejects heat from coolant passing through the coolant loop to air passing across the heat rejection unit. The heat rejection unit(s) includes one or more heat exchange assemblies coupled to the coolant loop for at least a portion of coolant to pass through the one or more heat exchange assemblies. The elevated coolant tank, which is elevated above at least a portion of the coolant loop, is coupled in fluid communication with the one or more heat exchange assemblies of the heat rejection unit(s), and facilitates return of coolant to the coolant loop at a substantially constant pressure. | 04-25-2013 |
20130105120 | MULTI-FLUID, TWO-PHASE IMMERSION-COOLING OF ELECTRONIC COMPONENT(S) | 05-02-2013 |
20130105122 | WICKING VAPOR-CONDENSER FACILITATING IMMERSION-COOLING OF ELECTRONIC COMPONENT(S) | 05-02-2013 |
20130105139 | MULTI-RACK ASSEMBLY WITH SHARED COOLING UNIT | 05-02-2013 |
20130107447 | MULTI-RACK ASSEMBLY WITH SHARED COOLING APPARATUS | 05-02-2013 |
20130107453 | DIRECTLY CONNECTED HEAT EXCHANGER TUBE SECTION AND COOLANT-COOLED STRUCTURE | 05-02-2013 |
20130107457 | COOLANT MANIFOLD WITH SEPARATELY ROTATABLE MANIFOLD SECTION(S) | 05-02-2013 |
20130118353 | SERVER RACK FRONT DOOR WITH CONTAMINATION FILTER AND SENSOR - An apparatus, system, and method for preventing server contamination. The system includes a server rack and a contamination filter secured to the server rack. The contamination filter may be configured to filter particulate substances and/or chemical substances from air. The system may include a reaction coupon configured to indicate the presence of particulate substances and/or chemical substances in the air. | 05-16-2013 |
20130118712 | DUAL COIL WITH ADAPTER TO MOVE BETWEEN REDUNDANT AND NON-REDUNDANT HIGH PERFORMANCE HEAT EXCHANGER - An apparatus, rear door heat exchanger, system, and method for controlling the redundancy of a cooling system for a server rack. The system includes a cooling system having at least two liquid cooling circuits. The system also includes a rear door heat exchanger connected to the cooling system. The rear door heat exchanger includes two heat exchange coils. Each heat exchange coil is carried by the server rack and configured to interface with a different liquid cooling circuit. The rear door heat exchanger also includes an adapter configured to couple together the two heat exchange coils into one heat exchange unit. The heat exchange unit is configured to interface with one liquid cooling circuit from the cooling system. | 05-16-2013 |
20130128918 | THERMAL RESISTANCE-BASED MONITORING OF COOLING OF AN ELECTRONIC COMPONENT - Monitoring of cooling of an electronic component is provided, which includes: determining a current thermal resistance associated with one or more of the electronic component, a heat sink coupled to the electronic component, or a thermal interface coupling the electronic component and the heat sink; and determining, by a processor, whether the current thermal resistance exceeds a set thermal resistance threshold, and responsive to the current thermal resistance exceeding the set thermal resistance threshold, indicating a thermal resistance fault. As an enhancement, rate of change over time of the thermal resistance is determined, and compared against a rate of change threshold, and if exceeding the threshold, a rate of change thermal resistance warning is provided. | 05-23-2013 |
20130133872 | DIRECT FACILITY COOLANT COOLING OF A RACK-MOUNTED HEAT EXCHANGER - A cooling apparatus and method are provided. The cooling apparatus includes a coolant-cooled heat exchanger for facilitating dissipation of heat generated within an electronics rack, and a coolant control apparatus. The coolant control apparatus includes at least one coolant recirculation conduit coupled in fluid communication between a facility coolant supply and return, wherein the facility coolant supply and return facilitate providing facility coolant to the heat exchanger. The control apparatus further includes a coolant pump(s) associated with the recirculation conduit(s) and a controller which monitors a temperature of facility coolant supplied to the heat exchanger, and redirects facility coolant, via the coolant recirculation conduit(s) and coolant pump(s), from the facility coolant return to the facility coolant supply to, at least in part, ensure that facility coolant supplied to the heat exchanger remains above a dew point temperature. | 05-30-2013 |
20130138252 | DYNAMICALLY LIMITING ENERGY CONSUMED BY COOLING APPARATUS - Cooling apparatuses and methods are provided which include one or more coolant-cooled structures associated with an electronics rack, a coolant loop coupled in fluid communication with one or more passages of the coolant-cooled structure(s), one or more heat exchange units coupled to facilitate heat transfer from coolant within the coolant loop, and N controllable components associated with the coolant loop or the heat exchange unit(s), wherein N≧1. The N controllable components facilitate circulation of coolant through the coolant loop or transfer of heat from the coolant via the heat exchange unit(s). A controller is coupled to the N controllable components, and dynamically adjusts operation of the N controllable components, based on Z input parameters and one or more specified constraints, to provide a specified cooling to the coolant-cooled structure(s), while limiting energy consumed by the N controllable components, wherein Z≧1. | 05-30-2013 |
20130166258 | Techniques for Thermal Modeling of Data Centers to Improve Energy Efficiency - Techniques for modeling a data center are provided. In one aspect, a method for modeling a data center is provided. The method comprises the following steps. Spatially dense three-dimensional thermal distribution and air flow measurements made in the data center using a mobile off-line surveying system are obtained. A temperature and air flow model for the data center is created using the spatially dense three-dimensional thermal distribution and air flow measurements. The temperature and air flow model is used to make thermal distribution and air flow predictions of the data center. The thermal distribution and air flow predictions are compared with the thermal distribution and air flow measurements made using the mobile off-line surveying system to produce a validated model for the data center. | 06-27-2013 |
20130192794 | INTERCHANGEABLE COOLING SYSTEM FOR INTEGRATED CIRCUIT AND CIRCUIT BOARD - Several apparatuses and methods for providing cooling system interchangeability. One apparatus includes a thermally conductive plate thermally coupled to an integrated circuit. The thermally conductive plate is configured to couple interchangeably to a liquid cooling assembly or an air cooling assembly, and the liquid cooling assembly and the air cooling assembly are separate devices. | 08-01-2013 |
20130264046 | COOLANT AND AMBIENT TEMPERATURE CONTROL FOR CHILLERLESS LIQUID COOLED DATA CENTERS - Cooling control methods and systems include measuring a temperature of air provided to one or more nodes by an air-to-liquid heat exchanger; measuring a temperature of at least one component of the one or more nodes and finding a maximum component temperature across all such nodes; comparing the maximum component temperature to a first and second component threshold and comparing the air temperature to a first and second air threshold; and controlling a proportion of coolant flow and a coolant flow rate to the air-to-liquid heat exchanger and the one or more nodes based on the comparisons. | 10-10-2013 |
20130299137 | LIQUID COOLED DATA CENTER WITH ALTERNATING COOLANT SUPPLY LINES - Methods of preventing overheating of computer equipment in a cabinet when a supply coolant to a cooler in the cabinet fails. An example embodiment is a data center that includes a plurality of cabinets configured to house computer equipment. At least two coolant supply lines from which the cabinets receive coolant are made available, with each of the supply lines providing the coolant to multiple cabinets. Moreover, the cabinets are arranged in rows and columns such that the cabinets along a row are spaced closer together than the cabinets along a column. Furthermore, each row of the cabinets receives coolant from alternating coolant supply lines. | 11-14-2013 |
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 |
20130306292 | APPARATUS FOR THE COMPACT COOLING OF MODULES - An apparatus for the compact cooling of modules. The apparatus includes a clip, a first cover plate coupled to a first side of the clip, a second cover plate coupled to a second side of the clip opposite to the first side of the clip, a first frame thermally coupled to the first cover plate, and a second frame thermally coupled to the second cover plate. Each of the first frame and the second frame may include a plurality of channels for passing coolant through the first frame and the second frame, respectively. Additionally, the apparatus may further include a filler for directing coolant through the plurality of channels, and for blocking coolant from flowing along the first side of the clip and the second side of the clip. | 11-21-2013 |
20130317785 | LIQUID COOLED DATA CENTER DESIGN SELECTION - Input data, specifying aspects of a thermal design of a liquid cooled data center, is obtained. The input data includes data indicative of ambient outdoor temperature for a location of the data center; and/or data representing workload power dissipation for the data center. The input data is evaluated to obtain performance of the data center thermal design. The performance includes cooling energy usage; and/or one pertinent temperature associated with the data center. The performance of the data center thermal design is output. | 11-28-2013 |
20140063729 | Techniques for Data Center Cooling - Techniques for cooling in a data center are provided. In one aspect, a computer equipment rack is provided comprising one or more air inlets; one or more exhaust outlets; and one or more of: an air inlet duct mounted to the computer equipment rack surrounding at least a portion of the air inlets, the air inlet duct having a lateral dimension that approximates a lateral dimension of the computer equipment rack and a length that is less than a length of the computer equipment rack, and an air exhaust duct mounted to the computer equipment rack surrounding at least a portion of the exhaust outlets, the air exhaust duct having a lateral dimension that approximates the lateral dimension of the computer equipment rack and a length that is less than the length of the computer equipment rack. | 03-06-2014 |
20140090806 | ADJUSTABLE AND DIRECTIONAL FLOW PERFORATED TILES - An air flow control assembly, system, and method for controlling air flow to a server rack. An example air flow control assembly includes a retractable barrier configured to block the air flow, at least partially, from passing through a perforated floor tile to the server rack. The air flow control assembly also includes a barrier mount configured to secure the retractable barrier proximate the perforated floor tile. | 04-03-2014 |
20140101933 | INTERCHANGEABLE COOLING SYSTEM FOR INTEGRATED CIRCUIT AND CIRCUIT BOARD - Several apparatuses and methods for providing cooling system interchangeability. One apparatus includes a thermally conductive plate thermally coupled to an integrated circuit. The thermally conductive plate is configured to couple interchangeably to a liquid cooling assembly or an air cooling assembly, and the liquid cooling assembly and the air cooling assembly are separate devices. | 04-17-2014 |
20140104787 | INTERCHANGEABLE COOLING SYSTEM FOR INTEGRATED CIRCUIT AND CIRCUIT BOARD - Several apparatuses and methods for providing cooling system interchangeability. One apparatus includes a thermally conductive plate thermally coupled to an integrated circuit. The thermally conductive plate is configured to couple interchangeably to a liquid cooling assembly or an air cooling assembly, and the liquid cooling assembly and the air cooling assembly are separate devices. | 04-17-2014 |
20140146845 | THERMALLY DETERMINING FLOW AND/OR HEAT LOAD DISTRIBUTION IN PARALLEL PATHS - A method including obtaining calibration data for at least one sub-component in a heat transfer assembly, wherein the calibration data comprises at least one indication of coolant flow rate through the sub-component for a given surface temperature delta of the sub-component and a given heat load into said sub-component, determining a measured heat load into the sub-component, determining a measured surface temperature delta of the sub-component, and determining a coolant flow distribution in a first flow path comprising the sub-component from the calibration data according to the measured heat load and the measured surface temperature delta of the sub-component. | 05-29-2014 |