A heat exchanger, including a heat exchanger tube for guiding a first medium in its interior, and also at least one connection for a second medium, wherein the region around the heat exchanger tube is provided by an open-pored, in particular solid, material, preferably a body of such a material, into which the second medium in particular can enter.

The present disclosure provides a heat transferring device and a heat transferring component thereof. The heat transferring device includes a heat transferring component, a lower plate and a positioning component. The heat transferring component is in a shape of pouch and includes at least one input end and at least one output end to allow a fluid to be inputted and outputted. The lower plate includes at least one first perforation. The positioning component is disposed on an exterior of the heat transferring component. An end of the positioning component is connected to the lower plate.

The invention relates to a sorptive gas storage device (1) comprising: a sorptive gas storage structure (10) comprising a sorptive gas storage material, said storage structure (10) having a circumferential edge (B), —heating means (3) configured to heat the storage material, and facilitate the desorption of the gas, said heating means (3) comprising: •a first heating part (30) arranged in the storage structure (10), at a distance from the circumferential edge (B), •a second heating part (32) arranged in the storage structure (10), at a distance from the circumferential edge (B) on the one hand and from the first heating part (30) on the other hand, the first heating part (30) and the second heating part (32) defining between them a space whereinto a first portion (11) of the storage structure (10) extends.

The present disclosure provides a heat transferring device and a heat transferring component thereof. The heat transferring device includes a heat transferring component, a lower plate and a positioning component. The heat transferring component is in a shape of pouch and includes at least one input end and at least one output end to allow a fluid to be inputted and outputted. The lower plate includes at least one first perforation. The positioning component is disposed on an exterior of the heat transferring component. An end of the positioning component is connected to the lower plate.

A watercraft includes at least one high-temperature superconducting coil and a cooling system for cooling the high-temperature superconducting coil to a cryogenic operating temperature, wherein the cooling system has a first cryostat tank, which surrounds the high-temperature superconducting coil and is designed to hold a liquid phase of a cryogenic coolant; wherein the watercraft also has a load, which is designed to convert an operating medium in the form of a fuel and/or in the form of a material promoting combustion; wherein at least one first material component of the operating medium is formed by the cryogenic coolant; and wherein the first cryostat tank is designed to hold a major part of the required total amount of the first material component of the operating medium for the operation of the load. A method operates a watercraft of this type.

A heat transferring device and a heat transferring component thereof are disclosed. The heat transferring device includes a heat transferring component, a lower plate, a positioning component and at least one support rod. The heat transferring component is in a shape of pouch and includes input end and an output end to allow a fluid to be inputted and outputted. The lower plate includes at least one first perforation. The positioning component is disposed on and surrounding an exterior of the heat transferring component to restrict the shape and a position of the heat transferring component, wherein an end of the sleeve is connected to the lower plate. The support rod is connected to the lower plate. The heat transferring component further includes at least one protrusion on the periphery, and the protrusion is fixed on the support rod or the sleeve through at least one fastener.

A distributor for use in a vapor compression system includes an enclosure configured to be positioned in a heat exchanger having a tube bundle including a plurality of tubes extending substantially horizontally in the heat exchanger. At least one distribution device formed in an end of the enclosure positioned to face the tube bundle, the at least one distribution device configured to apply a fluid entering the distributor onto the tube bundle. The enclosure has an aspect ratio between about :1 and about 10:1.

An air cooled heat exchanger (1) for cooling a medium, comprising a hollow shell (2) provided with a tube inlet (3) for receiving a medium (M, M) to be cooled and a tube outlet (4) for discharging the medium (M), wherein the shell (2) houses a tube arrangement (5) connecting the tube inlet (3) to the tube outlet (4); wherein the shell (2) is filled with a thermally conductive air permeable material (6) in tight engagement with the tube arrangement (5); wherein the shell (2) is provided with an air inlet (7) for receiving air (A) and an air outlet (8) for di charging the air (A), and wherein the thermally conductive air permeable material (6) fluidly connects the air inlet (7) to the air outlet (8).