CRC Handbook of ThermoelectricsD.M. Rowe Thermoelectrics is the science and technology associated with thermoelectric converters, that is, the generation of electrical power by the Seebeck effect and refrigeration by the Peltier effect. Thermoelectric generators are being used in increasing numbers to provide electrical power in medical, military, and deep space applications where combinations of their desirable properties outweigh their relatively high cost and low generating efficiency. In recent years there also has been an increase in the requirement for thermoelectric coolers (Peltier devices) for use in infrared detectors and in optical communications. Information on thermoelectrics is not readily available as it is widely scattered throughout the literature. The Handbook centralizes this information in a convenient format under a single cover. Sixty of the world's foremost authorities on thermoelectrics have contributed to this Handbook. It is comprised of fifty-five chapters, a number of which contain previously unpublished material. The contents are arranged in eight sections: general principles and theoretical considerations, material preparation, measurement of thermoelectric properties, thermoelectric materials, thermoelectric generation, generator applications, thermoelectric refrigeration, and applications of thermoelectric cooling. The CRC Handbook of Thermoelectrics has a broad-based scope. It will interest researchers, technologists, and manufacturers, as well as students and the well-informed, non-specialist reader. |
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... increases the mean carrier energy in the flow , hence , the Seebeck ( a ) and Peltier ( P ) coefficients . The ... increase of the thermoelectric parameters can be particularly large when the carriers are degenerate , i.e. , when ...
... increases the mean carrier energy in the flow , hence , the Seebeck ( a ) and Peltier ( P ) coefficients . The ... increase of the thermoelectric parameters can be particularly large when the carriers are degenerate , i.e. , when ...
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alloys annealing applications atoms band bismuth telluride boron carbides calculated carbon carrier concentration cold composition compounds Conf Conference on Thermoelectric cooler cooling power decrease density device dopant doping effective mass efficiency electrical conductivity electrical resistivity electron Equation Fermi FeSi2 films heat exchangers heat source high temperature increase insulation lattice thermal conductivity lead telluride liquid maximum measured melting metals method mobility moelectric Nuclear operating p-type parameters PbTe pellet Peltier modules performance phase diagram phonon Phys power output Proc refrigeration room temperature samples scattering Scherrer Seebeck coefficient semiconductors shown in Figure SiGe silicides silicon silicon germanium single crystals sintering solid solutions Status Solidi structure superconducting technique temperature dependence temperature difference temperature range thermal conductivity thermocouple thermoelectric cooling thermoelectric element Thermoelectric Energy Conversion thermoelectric figure-of-merit thermoelectric material thermoelectric modules thermoelectric power thermoelectric properties thermoelements transport values voltage
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