Abstract: A parallel magnetic refrigerator assembly, includes at least two magnetocaloric stages arranged in parallel connection, each having in use a cold side and a hot side; each magnetocaloric stage including hot and cold side heat exchange circuit for carrying a heat exchange fluid to respectively receive and transfer heat from the magnetocaloric stages; wherein the hot and cold side heat exchange circuit are configured such that in use a heat exchange fluid passes in thermal contact with the respective hot and cold sides of both magnetocaloric stages. The magnetocaloric stages have substantially the same temperature spans but different cold end and hot end temperatures. In this way the device temperature span may be substantially larger than the individual temperature span of each magnetocaloric stage.

Abstract: The present invention concerns a structure useful for producing a thermoelectric generator, a thermoelectric generator comprising same and a method for producing same. A method for producing a structure useful for producing a thermoelectric generator, wherein the structure comprises at least one stripe of a n-type and at least one stripe of a p-type material, either separated by a stripe of an insulating material, or provided spatially separated on an insulating material, and comprising stripes of conductive material each connecting one n-type stripe with one p-type stripe, and not in electrical contact with each other, wherein the structure is free from polymeric substrates, wherein the method comprises the steps of co-forming the at least one stripe of a n-type and at least one stripe of a p-type material in a single manufacturing step; and forming connections between the at least one stripe of a n-type and at least one stripe of a p-type material by means of stripes of conductive material.

Abstract: The invention provides a method of making a magnetic regenerator for an active magnetic refrigerator, the method comprising: forming a magnetic regenerator from a slurry or a paste containing a magnetocaloric material the magnetic regenerator being formed to have plural paths therethrough for the flow of a heat transfer fluid; and varying the composition of the magnetocaloric material so that the magnetic transition temperature of the magnetic regenerator varies along the paths.

Abstract: The invention provides a refrigeration device, comprising: a magnetic field source; a magnetocaloric bed, one of the magnetocaloric bed and the magnetic field source being arranged to substantially surround the other, the magnetocaloric bed being arranged for relative rotation with respect to the magnetic field source such that during said relative rotation, the magnetic field experienced by parts of the magnetocaloric bed varies; plural pathways formed within the magnetocaloric bed for the flow of a working fluid during the relative rotation between the magnetocaloric bed and the permanent magnet; and a flow distributor placed at each end of the magnetocaloric bed, for controlling the part of the magnetocaloric bed able to receive working fluid during a cycle of operation.

Abstract: The invention provides a method of making a magnetic regenerator for an active magnetic refrigerator, the method comprising: forming a magnetic regenerator from a slurry or a paste containing a magnetocaloric material the magnetic regenerator being formed to have plural paths therethrough for the flow of a heat transfer fluid; and varying the composition of the magnetocaloric material so that the magnetic transition temperature of the magnetic regenerator varies along the paths.

Abstract: A parallel magnetic refrigerator assembly, includes at least: a first magnetocaloric stage having in use a cold side and a hot side; a second magnetocaloric stage having in use a cold side and a hot side, arranged in parallel connection with the first magnetocaloric stage; the first and second magnetocaloric stages each including a hot side heat exchange circuit for carrying a heat exchange fluid to receive heat from the magnetocaloric stages and a cold side heat exchange circuit for carrying a heat exchange fluid to transfer heat to the magnetocaloric stages; wherein the hot side heat exchange circuit is configured such that in use a heat exchange fluid passes in thermal contact with the hot side of both the first and second magnetocaloric stages and the cold side heat exchange circuit is configured such that in use a heat exchange fluid passes in thermal contact with the cold side of both the first and second magnetocaloric stages.

Abstract: The invention provides a method of making a magnetic regenerator for an active magnetic refrigerator, the method comprising: forming a magnetic regenerator from a slurry or a paste containing a magnetocaloric material the magnetic regenerator being formed to have plural paths therethrough for the flow of a heat transfer fluid; and varying the composition of the magnetocaloric material so that the magnetic transition temperature of the magnetic regenerator varies along the paths.

Abstract: The invention provides a refrigeration device, comprising: a magnetic field source; a magnetocaloric bed, one of the magnetocaloric bed and the magnetic field source being arranged to substantially surround the other, the magnetocaloric bed being arranged for relative rotation with respect to the magnetic field source such that during said relative rotation, the magnetic field experienced by parts of the magnetocaloric bed varies; plural pathways formed within the magnetocaloric bed for the flow of a working fluid during the relative rotation between the magnetocaloric bed and the permanent magnet; and a flow distributor placed at each end of the magnetocaloric bed, for controlling the part of the magnetocaloric bed able to receive working fluid during a cycle of operation.

Abstract: The invention provides a magnetic assembly, the assembly comprising: a magnet (4); and a ferromagnetic component (6) having at least two regions of different Curie temperature, the magnet (4) and the ferromagnetic component being movable with respect to each other in dependence on the temperature of the ferromagnetic component (6).

Abstract: The invention provides a method of making a magnetic regenerator for an active magnetic refrigerator, the method comprising: forming a magnetic regenerator from a slurry or a paste containing a magnetocaloric material the magnetic regenerator being formed to have plural paths therethrough for the flow of a heat transfer fluid; and varying the composition of the magnetocaloric material so that the magnetic transition temperature of the magnetic regenerator varies along the paths.

Abstract: A system for designing and analyzing an optical set-up includes an optical rig including a co-ordinate system, an optical component for positioning in the co-ordinate system, and a computer for receiving optical design information modelling the optical set-up and for analyzing the optical design information to analyze the optical set-up and provide positioning information for the component carrier in the co-ordinate system.