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Stackable energy transfer core spacer
A stackable spacer element for use in a energy recovery core formed by stacking a plurality of relatively thin energy transfer media (e.g. sheets, panels, or plates (un-perforated exchanger sheets) so as to define a plurality of stacked energy transfer stages providing air passages for two separate air flows.
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| Stackable+energy+transfer+core+spacer |
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Hybrid heat exchangers
A light weight hybrid heat exchanger core possessing low density and improved thermal conductivity is disclosed. The hybrid core is comprised of a plurality of parting sheets and interposed by a plurality of high thermal conductivity, light weight bridging elements and enclosure bars. These core members are comprised of dissimilar materials. The parting sheets and bridging elements are interconnected by a specially tailored joint which forms form a substantially strong, high thermal conductivity bond. In particular embodiments, carbon-based bridging elements are bonded to metallic parting sheets using a brazed joint. The parting sheets, in certain embodiments, may comprise titanium or Ni-based superalloys or carbon composites, while the carbon-based bridging elements may comprise fiber-reinforced composites. The carbon-based bridging elements reduce the core weight and increase the core thermal conductivity over conventional all-metal designs, while the brazed joint provides for improved leak resistance over all-composite designs.
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| Hybrid+heat+exchangers |
Radial flow micro-channel heat sink with impingement cooling
A heat sink removes heat from an electronic device and comprises a base, a lid. An inner ring of first fins extend radially outwardly first length from an inner circle and extend axially a first height from the top surface of the base, and an outer ring of second fins extend radially inwardly a second length from an outer periphery and extend axially a second height from the top surface of the base. A confining plate extends radially above the fins and is spaced below the bottom surface of the lid whereby coolant fluid flows from an inlet opening of the lid through the center opening of the confining plate and radially outwardly through the fins and upward around the outer edge of the confining plate and into the space above the confining plate to an outlet opening. A nozzle having a throat is disposed above the lid and extends below the lid to the confining plate. A flow diverter extends upwardly from the top surface of the base and into and through the throat of the nozzle.
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| Radial+flow+micro-channel+heat+sink+with+impingement+cooling |
Heat dissipation device with heat pipe
A heat dissipation device includes a fin set, a sinuous heat pipe transferring heat to different parts of the fin set, and a base thermally contacting the heat pipe. The heat pipe has a middle U-shaped portion and two L-shaped portions at two sides of the U-shaped portion, respectively. The base is for contacting with a heat generating electronic device and transferring heat from the electronic device to the heat pipe and the fin set. The fin set defines a passageway in a middle of thereof. The U-shaped portion of the heat pipe is received in the passageway of the fin set and thermally engages with the fin set.
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| Heat+dissipation+device+with+heat+pipe |
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Ventilating system
Ventilating system including a total heat exchanger at a region where an air supply duct, a passage for supplying outdoor air to a room, and an air discharge duct, a passage for discharging room air to an outside of the room, cross for making room air and outdoor air to heat exchange, an air supply fan connected to the air supply duct for drawing the outdoor air and discharging the outdoor air to the room, an air discharge fan connected to the air discharge duct for drawing the room air and discharging the room air to an outside of the room, and a flow guide between the air supply/discharge fans and the total heat exchanger for guiding flow directions of the room air and the outdoor air, thereby reducing a flow resistance and making the heat exchange efficient.
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| Ventilating+system |
Diamond foam spray cooling system
A diamond foam spray cooling system for improving the thermal management of a heat producing device. The diamond foam spray cooling system includes a thermal management unit including a spray assembly, a chamber, a heat spreader and at least one diamond foam section thermally attached to a cooling surface of the heat spreader. The spray assembly sprays liquid coolant directly upon the engaging surface of the diamond foam section. A portion of the liquid coolant is evaporated from contacting the engaging surface and a portion of the liquid coolant passes into an immersion zone within the diamond foam section. Alternatively, the diamond foam section is thermally attached directly to the heat producing device. The diamond foam section may have varying thicknesses, cavities, raised portions and other configurations.
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| Diamond+foam+spray+cooling+system |
Heatsink thermal module with noise improvement
The invention provided a heatsink thermal module with noise improvement, which has a heatsink thermal module additionally consisting of a heat pipe, a heatsink fins set and a fan module; the fan module is combined with the heatsink fins set which consists of multiple heatsink fins with different lengths and is combined to the fan module with its end with a special geometric shape having the function of lowering the wind drag; by lowering the wind drag, not only the heat dissipation efficiency can be increased, but the noise caused by the heatsink thermal module can also be improved.
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| Heatsink+thermal+module+with+noise+improvement |
Microchannel heat sink
The invention provides a heat sink for flowing coolant into inlet manifold channels extending into a inlet edge of a manifold where the flow is forced downward into parallel and spaced micro-channels extending across the manifold channels and re-directing the coolant up into and out of outlet manifold channels extending into an outlet edge of the manifold and interleaved with the inlet manifold channels, and by maintaining a base-width of the micro-channels in the range of forty microns to one hundred microns, maintaining a base-height of the micro-channels in the range of two hundred microns to four hundred microns, maintaining a manifold-height through of the manifold channels in the range of one thousand microns to three thousand microns, and maintaining a manifold-width of the manifold channels in the range of three hundred and fifty microns to one thousand microns.
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| Microchannel+heat+sink |
Shore power system including a HVAC system
A shore power HVAC system for a vehicle is provided. The vehicle has a vehicular HVAC system with an engine compressor, a condenser, and an expansion valve and an evaporator coupled to each other in series by a plurality of conduits. The shore power HVAC system includes an electric compressor structured to compress a coolant fluid and a diverter valve structured to allow fluid to pass through a selected fluid path. The electric compressor is coupled to, and in fluid communication with the evaporator and the diverter valve. The diverter valve is further coupled to the engine compressor. Thus, a first coolant fluid loop and a second coolant fluid loop are created. The first coolant fluid loop passes through, in series, the engine compressor, the diverter valve, the condenser, the expansion valve, and the evaporator. The second coolant fluid loop passes through, in series, the electric compressor, the diverter valve, the condenser, the expansion valve and the evaporator. The diverter valve selectively directs which loop the coolant fluid may pass through.
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| Shore+power+system+including+a+HVAC+system |
Mounting device for heat dissipating apparatus
A mounting device for mounting a first element onto a second element includes a plurality of fastening elements. Each of the fastening elements includes a connecting member defining a clasping groove therein, and a guiding portion adjacent to the clasping groove. A ring-shaped clipping member snaps in the clasping groove of the connecting member after moving over the guiding portion to be expanded. A fixing member is coupled to the connecting member for sandwiching the first element and the second element therebetween. A resilient member adapts for being sandwiched between the connecting member and the first element to provide resilient force to urge the first element toward the second element.
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| Mounting+device+for+heat+dissipating+apparatus |
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