Class / Patent application number | Description | Number of patent applications / Date published |
165108000 | RECIRCULATION | 7 |
20090133858 | System and Method for Cooling a Computer - Provided is a system and method of circulating a cooling fluid in a cooling system. For example, provided is a system, comprising a modular unit configured to mount into a computer drive bay, comprising a pump and a reservoir, configured to gravity feed a fluid to the pump, wherein the reservoir is positioned at least partially directly above the pump. | 05-28-2009 |
20100294467 | HIGH PERFORMANCE HEAT TRANSFER DEVICE, METHODS OF MANUFACTURE THEREOF AND ARTICLES COMPRISING THE SAME - Disclosed herein is an heat transfer device that includes a shell; the shell being an enclosure that prevents matter from within the shell from being exchanged with matter outside the shell; the shell having an outer surface and an inner surface; and a particle layer disposed on the inner surface of the shell; the particle layer having a thickness effective to enclose a region for transferring a fluid between opposing faces; the particle layer including a first layer and a second layer; the second layer being disposed upon the first layer; the first layer having average particle sizes of about 10 to about 10,000,000 nanometers; the second layer having average particle sizes of about 10 to about 10,000 nanometers. | 11-25-2010 |
20110011566 | ARRANGEMENT FOR RECOOLING COOLING WATER - The arrangement ( | 01-20-2011 |
20110146959 | EXTENDED-RANGE HEAT TRANSFER FLUID USING VARIABLE COMPOSITION - The present invention provides systems and methods for transferring heat using a variable composition organic heat transfer fluid that remains liquid over a wide operating temperature range useful for solar heating applications. Variable composition heat transfer fluids of the present invention comprise a miscible mixture, optionally a completely miscible mixture, of a high boiling point component selected for its beneficial high temperature physical properties, and a low freezing point component selected for its beneficial low temperature physical properties. In some embodiments, the low freezing point component is removed from the heat transfer fluid as the heat transfer fluid is heated, for example by being removed in the vapor phase, thereby selectively varying the composition and physical properties (e.g., vapor pressure, boiling point, etc.) of the heat transfer fluid as a function of temperature. | 06-23-2011 |
20130192800 | COOLING SYSTEM WITH COOLANT CIRCULATION DUCT - This system (S) comprises a heat exchange plate ( | 08-01-2013 |
20140138064 | AIR CONDITIONER AND METHOD OF CONTROLLING AN AIR CONDITIONER - An air conditioner and a method of controlling an air conditioner are provided. The air conditioner may include a main body that defines an outer appearance of the air conditioner, at least one indoor heat exchanger disposed within the main body, a plurality of branch tubes that guides a refrigerant into the at least one indoor heat exchanger, a circulation tube connected to the plurality of branch tubes to guide the refrigerant, a bypass tube that connects one of the plurality of branch tubes to the circulation tube, and a branch tube valve disposed in the one of the plurality of branch tubes to adjust a flow of the refrigerant flowing into the one of the plurality of branch tubes. The one of the plurality of branch tubes may have a diameter less than a diameter of each of the remaining branch tubes. In a cooling mode, the refrigerant may be introduced from the circulation tube into the at least one indoor heat exchanger through the one of the plurality of branch tubes. In a heating mode, the refrigerant may be discharged from the at least one indoor heat exchanger into the circulation tube through the bypass tube. | 05-22-2014 |
20140251584 | System For Precision Temperature Control of Thermal Bead Baths - A system and apparatus for precision temperature control of thermal bead baths used in biological laboratories to heat biological samples is disclosed. The system has an insulated outer shell and an inner shell sealed together to form a recirculation pathway. The inner shell has an air extraction port opening into the recirculation pathway and at least one air injection port opening into the recirculation pathway. A fan is in the recirculation pathway and is positioned to draw air through the air extraction port. At least one thermal sensor is connected to a control and is disposed in close proximity to one of the air injection ports. Beads used in thermal bead baths are placed in a mesh basket inside the inner shell. The fan draws air from the inner shell through the beads and into the recirculation pathway, where the air is heated by a thermal element. The air flows past the thermal element and through the air injection ports back into the inner shell. | 09-11-2014 |