Abstract: A method for setting up a virtual ad hoc network for transmitting at least one piece of information to a first transportation vehicle as a first network subscriber. The method includes the information being provided based on first data from at least one second network subscriber, and at least one second network subscriber being a second transportation vehicle or an infrastructure component; wherein a motor-vehicle-external, central data processing device receives second data from multiple potential second network subscribers and takes the second data and at least one space-time parameter as a basis for determining the second network subscribers and setting up the virtual ad hoc network with the first transportation vehicle, as the first network subscriber, and the determined second network subscribers, the space-time parameter defining a specific area of relevance that has a predetermined physical and temporal correlation with the current position of the first transportation vehicle.

Abstract: A method for producing a thermoelectric module (1) having an inner tube (2), and an outer tube (8), and at least two thermoelectric base elements (5), the method including providing the thermoelectric base elements (5) outside the inner tube (2) or inside the outer tube, and widening the inner tube (2) and/or shrinking the outer tube (8). At least one plastically or elastically deformable functional layer is applied between the inner tube (2) and the thermoelectric base elements (5) and/or between the thermoelectric base elements (5) and the outer tube (8) before the widening/shrinking, and the thermoelectric base elements (5) are operatively connected to the functional layer parallel to the inner tube (2), such that an interference fit assembly is produced by the widening of the inner tube (2) and/or the shrinkage of the outer tube (8).

Abstract: A method for operating cyclic process-based systems, with a hot-side reservoir (1) and a cold-side reservoir (2) for a fluid (3), and at least one heat exchanger unit (4) with mechanocaloric material, wherein the mechanocaloric material of the heat exchanger unit (4) is actively connected to the fluid (3) such that heat is transferred between the mechanocaloric material and the fluid (3). It is essential that the transfer of heat between the mechanocaloric material and the fluid (3) takes place essentially by latent heat transfer. A corresponding heat-transfer unit (4) and a corresponding apparatus are also provided.

Abstract: A method for operating cyclic process-based systems, with a hot-side reservoir (1) and a cold-side reservoir (2) for a fluid (3), and at least one heat exchanger unit (4) with mechanocaloric material, wherein the mechanocaloric material of the heat exchanger unit (4) is actively connected to the fluid (3) such that heat is transferred between the mechanocaloric material and the fluid (3). It is essential that the transfer of heat between the mechanocaloric material and the fluid (3) takes place essentially by latent heat transfer. A corresponding heat-transfer unit (4) and a corresponding apparatus are also provided.

Abstract: The invention relates to an air conditioning device having at least one heat pipe (100), in particular a thermosiphon, having at least one electro- or magnetocaloric material (4) under at least temporary influence of an electrical and/or magnet field, and having a heat transfer oriented from one first end to another second end of the heat pipe. A plurality of these heat pipes, having electro- or magnetocaloric materials integrated or arranged therein, are preferably contained, connected in series in a cascade-like manner and optionally connected to one another via heat exchangers or switchable heat flow regulators.

Abstract: A method is provided for producing a thermoelectric component having at least one pair of thermoelectric legs, including an n-leg and a p-leg, wherein both legs are welded to an electrically conductive contact material, and wherein the n-leg and the p-leg of the pair of legs are welded in separate welding steps to the contact material. A thermoelectric component produced by the method is also provided.

Abstract: A method is provided for producing a thermoelectric component having at least one pair of thermoelectric legs, including an n-leg and a p-leg, wherein both legs are welded to an electrically conductive contact material, and wherein the n-leg and the p-leg of the pair of legs are welded in separate welding steps to the contact material. A thermoelectric component produced by the method is also provided.