| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 165276000 | Control of variable thermal conductivity systems (e.g., heat valves, etc.) | 15 |
| 20080245520 | System and method for changing the convective heat transfer of a surface - A system and method is described generally for producing surface deformations on a surface of a body. The system and method relate to changing the convective heat transfer coefficient for a surface. The system includes a first surface being a surface of a body exposed to a fluid flow and at least one actuator affecting deformation of the first surface. The system also includes a control system providing control commands to the at least one actuator, the control commands configured to change deformations on the first surface in order to change the convective heat transfer coefficient of the first surface. Further, the system includes a sensor providing environmental characteristic information to the control system. | 10-09-2008 |
| 20090321062 | COOLING SYSTEM FOR COOLING HEAT LOADS ON BOARD AN AIRCRAFT AND METHOD FOR OPERATING SUCH A COOLING SYSTEM - A cooling system for cooling heat loads on board an aircraft comprises a cold producing device, a first cold carrier fluid circuit, which is thermally coupled to the cold producing device and is connected to a first heat load in order to carry off heat from the first heat load, and a second cold carrier fluid circuit, which is connected to a second heat load in order to carry off heat from the second heat load. A coupling system of the cooling system is adapted to selectively thermally couple the first cold carrier fluid circuit to the second cold carrier fluid circuit or thermally uncouple it from the second cold carrier fluid circuit. In a method for operating such a cooling system for cooling heat loads on board an aircraft, the first cold carrier fluid circuit is selectively thermally coupled to the second cold carrier fluid circuit or thermally uncoupled from the second cold carrier fluid circuit by means of the coupling system. | 12-31-2009 |
| 20100012311 | HEAT FLOW DEVICE - A device comprises equipment ( | 01-21-2010 |
| 20100294476 | TEMPERATURE CONTROLLED VALVE FOR REGULATING COOLING GAS FLOW - An automatic temperature regulating device for controlling the flow of a cooling gas through a conduit. The device consists of a plurality of flaps connected to the conduit and made of a shape memory alloy, whereby when in the austenite phase said flaps are in a relatively open state and when in the martensite phase said flaps are in a relatively closed state. | 11-25-2010 |
| 20110114304 | METHOD FOR THE HYDRAULIC COMPENSATION AND CONTROL OF A HEATING OR COOLING SYSTEM AND COMPENSATION AND CONTROL VALVE THEREFOR - The invention relates to a method for the hydraulic compensation and control of a heating and cooling system. The system comprises at least one pump and a plurality of lines respectively comprising a compensation and control valve and a load. The method for compensation and control consists of the following steps: a control value for each of the compensation and control valves is determined for which the predetermined discharge values are reached in each line; a control range of each compensation and control valve is defined as the difference between the determined control value and the position when the compensation and control valve is closed; and the signal control range of one each of the compensation and control valves is represented in the newly defined control range. | 05-19-2011 |
| 20110168378 | Thermal power distribution system - The invention is comprised of one or more variably conductive thermal switches. | 07-14-2011 |
| 20120168141 | CONTAINER DATA CENTER - A container data center includes a container, a group of server systems located in the container; a hot aisle and a cold aisle formed at two opposite sides of one group of server systems, a fan apparatus located at a top of the hot aisle, a heat exchanger located adjacent to the fan apparatus and opposite to the hot aisle; a cold airflow buffering area formed at a top of the cold aisle, and blades located below the cold airflow buffering area. Fan apparatus draws in hot airflow from hot aisle into the heat exchanger. The heat exchanger transforms the hot airflow into cold airflow and exhausts the cold airflow into the cold aisle through the cold airflow buffering area and the blades. Swinging angles of the blades are adjusted according to wind speeds of the cold airflow through the blades to obtain a uniform flow. | 07-05-2012 |
| 20130014928 | ROTARY THERMAL SWITCH - An method of controlling thermal transfer between a first structure and a second structure may include a signal at a thermal switch. In response to receiving the signal at the thermal switch, a rotating plate may be rotated into one or more positions adjacent to a fixed plate to facilitate radiative thermal transfer between the rotating plate and the fixed plate. The rotating plate and the fixed plate may be in thermally conductive contact with respective ones of the first structure and the second structure. | 01-17-2013 |
| 20150090436 | FLUID BASED THERMAL CONDUCTIVITY CONTROL - A temperature control system may include a compartment having at least one side with low thermal conductivity and a side with a double wall, the double wall having an interior wall and an exterior wall, the interior wall and the exterior wall having high thermal conductivity and forming a channel therebetween and a reservoir connected to the channel. A drive may be contained within the reservoir, wherein the drive is responsive to a temperature within the compartment to transfer a liquid with high thermal conductivity from the reservoir into the channel to increase thermal conductivity between the interior of the compartment and the exterior of the compartment, and allows a gas with low thermal conductivity to be present within the channel when the channel does not contain the liquid to decrease thermal conductivity between the interior of the compartment and the exterior of the compartment. | 04-02-2015 |
| 20150129193 | Method To Homogenize The Tube Temperatures Between Tubes During Processes Involving Heating Of Gas Flowing In The Tubes - The invention relates to a method for decreasing the spread of the tube temperatures between tubes in a process involving the heating of at least one fluid in a furnace that comprises at least one radiation chamber with radiant walls, at least one essentially vertical row of tubes inside of which circulate the at least one fluid to be heated, and being equipped with burners that heat the tubes, where the method comprises the steps of: determining, for each of the tubes the skin temperature of the tube, selecting the 50% tubes having the lowest temperatures determined, the process being stopped, realizing on each tube selected an operation that decreases the flow of the fluid distributed to said tube while keeping the total flow rate of the fluid unchanged. | 05-14-2015 |
| 20160135334 | EQUIPMENT ENCLOSURE AIR FLOW CONTROL SYSTEM - Disclosed is a system and method for control of air flow in an enclosure. A system discloses: a first element located on a first surface of the equipment enclosure having: first and second reels located along opposing edges of the first element; and a first air flow control element located between first and second reels and having a first portion and a second portion, said first portion being located on an edge of the first element adjoining the first reel, said second portion being located on an edge of the first element adjoining the second reel, each having apertures located therein of a number or cross sectional area different from the other portions, movement of the first air flow control element from a first reel to a second reel by rotation of the reels causing the first portion or second portion to be positioned between the first and second reels. | 05-12-2016 |
| 165277000 | Solid heat transfer path | 4 |
| 20100065263 | Thermal Switch - The invention concerns a thermal switch, characterized in that said switch comprises a thermal connection element consisting of an integral single part forming a body of thermally conductive homogeneous composition as well as an actuator for opening said switch by mechanical rupture of said thermal connection element. | 03-18-2010 |
| 20120145375 | Thermal Impedance Matching Using Common Materials - A device and method for dissipating heat from a source of heat is described. A plurality of layers of thermally conductive materials receives a flow of heat from a source of heat. A first layer of the plurality of layers receives the flow of heat from the source of heat and redirects and transfers the flow of heat to a second of the plurality of layers. Each layer has a separate preselected thermal impedance to control a desired temperature change across the plurality of layers and to maintain a desired operating temperature of the source heat. | 06-14-2012 |
| 20120234526 | METHODS AND SYSTEMS FOR SOLID STATE HEAT TRANSFER - Various embodiments are directed to a thermoelectric device comprising a thermoelectric element, a first heat switch and a second heat switch. The thermoelectric element may comprise a first component in electrical contact with a second component at an interface. The first component may comprise a first material and the second component may comprise a second material different from the first material. The first heat switch may comprise a first terminal in thermal contact with the interface and a second terminal in thermal contact with a thermal reservoir. The second heat switch may comprise a first terminal in thermal contact with the interface and a second terminal in thermal contact with a thermal load. | 09-20-2012 |
| 20160195344 | Thermal Diode | 07-07-2016 |
