A cooling pad support system for holding a cooling pad may include a support array; a pivoting platform configured to be pivotably connected with respect to the support array and a support finger configured to be pivotably connected to the pivoting platform. The cooling pad may be sandwiched between the support finger and support array.

A cooling pad support system for holding a cooling pad may include a support array; a pivoting platform configured to be pivotably connected with respect to the support array and a support finger configured to be pivotably connected to the pivoting platform. The cooling pad may be sandwiched between the support finger and support array.

A heat exchanger (1) for gases, in particular for the exhaust gases of an engine includes a bundle of tubes (2) arranged inside a casing (3) defining a gas inlet (4) and outlet (5). The tubes (2) being intended for the circulation of the gases with a view to exchanging heat with a coolant, and the tubes (2) being distributed in at least one column having a plurality of rows defining a plurality of spaces (8) between the rows, and including a coolant inlet pipe (9) and outlet pipe (10) connected to the casing (3). The exchanger (1) includes a bypass channel (11) incorporated into the casing (3) capable of connecting the spaces (8) defined between the rows of tubes (2) located in front of the channel (11) with one of the coolant pipes (10), in such a way as to improve the distribution of the coolant.

A thermal conducting structure includes a vapor chamber and at least one heat pipe. The vapor chamber has a casing with a through hole formed on a side of the casing, and a chamber defined inside the casing and communicated with the through hole and having a metal mesh covered on an inner wall of the chamber. The heat pipe has a tubular body and an opening formed at an end of the tubular body, and the tubular body is connected to the through hole, and a cavity is defined inside the tubular body. A capillary member is covered onto an inner wall of the cavity. The metal mesh is passed out from the opening to connect the capillary member. The metal mesh is used as a capillary structure, and the vapor chamber and heat pipe are used together to provide a better cooling efficiency.

A mounting clip that can be used to mount a heat exchanger to a housing, for example, in a HVAC system is disclosed. The mounting clip may include a receiver portion configured to receive, for example, an end portion of the heat exchanger. The mounting clip may also include a clip portion configured to secure the mounting clip to the housing. The mounting clip can be used to mount the heat exchanger to the housing relatively easily, reducing the manufacturing cost and time of the HVAC system.

A mounting clip that can be used to mount a heat exchanger to a housing, for example, in a HVAC system is disclosed. The mounting clip may include a receiver portion configured to receive, for example, an end portion of the heat exchanger. The mounting clip may also include a clip portion configured to secure the mounting clip to the housing. The mounting clip can be used to mount the heat exchanger to the housing relatively easily, reducing the manufacturing cost and time of the HVAC system.

A mounting assembly for mounting a heat exchanger comprises an elongate member defining a screw threaded axial bore at each end, and a bolt for each screw threaded bore. The assembly further comprises two elastomeric parts each being substantially top hat shaped and defining an axial bore to receive one end of the elongate member, such that the assembly can be mounted between two apertured mounting parts by arranging the heat exchanger between the mounting parts, with the elongate member received in a bore through the heat exchanger, and tightening the bolts so that the mounting part is clamped between the end of the elongate member and the bolt head, with the elastomeric parts mounting the mounting assembly in the heat exchanger bore so that resilient compression of the elastomeric parts allows movement of the heat exchanger with respect to the elastomeric parts.

A floating heat sink support with copper sheets for a LED flip chip package may include least two copper sheets and a flexible polymer for fixing the copper sheets, where the copper sheets separated from each other, and where each of the copper sheets is electrically connected with a positive or negative pole of a LED flip chip. Further, a LED package assembly may comprise the floating heat sink support as mentioned above and one or more LED chips welded in a flip chip manner on the floating heat sink support. A number of copper sheets in the floating heat sink support are heated separately and expand separately to avoid the breakage of a chip substrate resulting from the thermal expansion of a whole bulk of copper sheet, thereby improving the reliability of the LED package structure and prolonging the service life of a LED light source.

Disclosed herein is a heat recovery steam generator system comprising a vestibule comprising a base plate, a roof and side walls; where the base plate is opposedly disposed to the roof; a heat exchanger space through which an exhaust gas stream is charged; where the vestibule is disposed atop a heat exchanger space; and where the vestibule comprises at least one header in fluid communication with a tube bundle; where a portion of the tube bundle is disposed in the heat exchanger space; and a support system for the tube bundle; where the support system comprises a strap that is reversibly attached to the base plate as well as to the roof of the vestibule or to a structural member in the vestibule; and where each tube of the tube bundle contacts a collar that rests on the base plate.

A welded plate type air to liquid heat exchanger has a plurality of plates each with an internal volume inside a peripheral flange having a flange thickness. The plates are in parallel fluid communication with an inlet and outlet, and are mounted in a frame with a mutual predetermined distance, such that air flows therebetween. The plates are mounted between two plate holding frame members on opposite sides of the plates. The frame members have an exterior edge and slits in a comb-like shape extending from the exterior edge. First type and second type slits are provided in an alternating configuration. The first type are formed with a narrow entry passage section having a width corresponding to the flange thickness and a widened opening section therebehind. The first type receive the peripheral flanges of the plates in the narrow passage section. The second type are substantially straight and vacant.