TY - ECHAP KW - Thermal conductivity KW - Electrical conductivity KW - Ge-Si alloys KW - Thermoelectric conversion KW - thermoelectric properties KW - space power KW - electrical properties KW - Nuclear power supplies [A2850P] KW - radioisotope thermoelectric generators KW - SP-100 KW - transport theory AU - Cronin Vining AB -

Silicon-germanium alloys have proven remarkably reliable in radioisotope thermoelectric generators and are the current materials of choice for the SP-100 space reactor program. However, even after three decades of study and extensive practical experience (including the spectacular Voyager missions) the best available models of the thermoelectric properties of these materials are little more than interpolation schemes based on experimental data. The present study extends a previous model for the thermal conductivity and, for the first time, applies conventional transport theory to develop a model for the electrical properties of n-type silicon germanium. Moreover, it is shown that treating the electrical and thermal models self-consistently predicts the observed properties of silicon-germanium with good accuracy using only three, physically interpretable parameters. The nature of the model and agreement with experiment are discussed. (3 References).

BT - Proceedings of the Seventh Symposium on Space Nuclear Power Systems (CONF-900109). CY - Albuquerque, NM, USA DA - 1990/// LA - eng N2 -

Silicon-germanium alloys have proven remarkably reliable in radioisotope thermoelectric generators and are the current materials of choice for the SP-100 space reactor program. However, even after three decades of study and extensive practical experience (including the spectacular Voyager missions) the best available models of the thermoelectric properties of these materials are little more than interpolation schemes based on experimental data. The present study extends a previous model for the thermal conductivity and, for the first time, applies conventional transport theory to develop a model for the electrical properties of n-type silicon germanium. Moreover, it is shown that treating the electrical and thermal models self-consistently predicts the observed properties of silicon-germanium with good accuracy using only three, physically interpretable parameters. The nature of the model and agreement with experiment are discussed. (3 References).

PB - Univ. New Mexico PP - Albuquerque, NM, USA PY - 1990 EP - 8 EP - 224+ T2 - Proceedings of the Seventh Symposium on Space Nuclear Power Systems (CONF-900109). TI - A model for the thermoelectric properties of n-type silicon-germanium alloys VL - 1 ER -