Abstract: A packaged thermoelectric conversion module that does not need a pressing mechanism for reducing a thermal contact resistance or an application of a thermal-conductive grease between a heat source of a thermoelectric conversion module sealed in an airtight container, wherein an interior of an airtight container 13 containing a thermoelectric conversion module 5 is decompressed or evacuated, wherein the interior of the airtight container 13 is partitioned into two chambers 14 and 17 by a partition plate 7, wherein one chamber 17 is provided with the thermoelectric conversion module 5 and electrodes 9a and 9b led out to the outside of the airtight container 13, while the other chamber 14 is provided with a flow path 16 for introducing a thermal medium 26 or 25 from an external thermal medium supplying source and circulating the thermal medium 26 or 25 between the chamber 14 and the external thermal medium supply source, and heat is transferred to or received from one surface of the thermoelectric semiconductor

Abstract: The present invention relates to a thermoelectric conversion system for receiving heat by radiation from a heat source and an efficiency improving method of the thermoelectric conversion system, the system including at least one thermoelectric conversion module 5 having at least a pair of thermoelectric elements 2, a heat receiving zone 6 placed not to contact a heat source 3 for receiving heat by radiation from the heat source 3 and a radiating zone 7 positioned on an opposite side to the heat receiving zone 6 and cooled by a coolant 4, generating electric power by a temperature difference between the heat receiving zone 6 and the radiating zone 7, a continuous or divided heat receiving surface 18 formed by one or a plurality of surfaces facing the heat source 3 of the heat receiving zone 6, and each of the heat receiving surface 18 is given a different quantity of heat from the heat source 3, the system comprising the heat receiving surface 18 has a plurality of different emissivities according to the quant

Abstract: A thermoelectric conversion module for generating power by using a temperature difference and realizing a large-size module with soundness to improve substantial filling density of a thermoelectric semiconductor, including a sliding member having high heat conductivity intervening at least between a heating plate of a high-temperature heat source side and a heat source side electrode portion of a thermoelectric semiconductor and a coupling plate for coupling the heating plate to the cooling plate, wherein the thermoelectric semiconductors and the electrode portions are integrated by being sandwiched between the cooling plate and the heating plate via the sliding member, and the sliding member in the pressurized state accepts relative sliding between the sliding member and the heat source side electrode portion or the heating plate.

Abstract: A thermoelectric energy conversion unit includes: a thermoelectric conversion module having plural thermoelectric conversion elements disposed away from each other; a heat receiving member; a cooling member, the cooling member and the heat receiving member holding the thermoelectric conversion module; and a non-oxidizing gas charged in a space formed between the heat receiving member and the cooling member.

Abstract: A liquid metal cooled fast breeder reactor which permits a closer installation of a fuel handling mechanism relative to an upper reactor core structure of the reactor. The fuel handling mechanism has a fuel handling body without a housing, and has a rotational driving device on a rotating plug of a shield plug device of a reactor vessel. The fuel handling mechanism has an aseismatic support extending outwardly from the upper reactor core structure. The fuel handling mechanism is supported, at its upper portion, by the rotational driving device, and secured, at its lower protion, by the aseismatic support.

Abstract: An improvement in a liquid metal mechanical pump which includes a hydrostatic bearing immersed in liquid to rotatably support the lower end of a pump drive shaft and is constructed such that a part of liquid forced out of a diffuser is supplied to the bearing to lubricate it by the liquid. A cylindrical partition wall is disposed around the bearing with a clearance therebetween. The areas inside and outside the partition wall are communicated at a position remote from the diffuser. The partition wall prevents the liquid discharged from the diffuser from being directly supplied to the bearing, thereby reducing thermal shocks to the bearing.