Litcius/Paper detail

Radioisotope Thermophotovoltaic Generator Design Methods and Performance Estimates for Space Missions

Xiawa Wang, Renrong Liang, Peter Fisher, Walker R. Chan, Jun Xu

2020Journal of Propulsion and Power37 citationsDOIOpen Access PDF

Abstract

This work provides the design methodology of a radioisotope thermophotovoltaic system (RTPV) using spectral control for space missions. The focus is on the feasibility of a practical system by using two-dimensional micropatterned photonic crystal emitters, selecting the proper thermophotovoltaic cell and insulation material to exclude material incompatibilities, to optimize the system efficiency by impedance matching and to design a radiator with minimum mass. In the last section, a design example is presented based on the tested indium gallium arsenide antimonide (InGaAsSb) cells. It is shown computationally that, in using the experimentally tested InGaAsSb cells, the RTPV generator is expected to reach an efficiency of 8.6% and a specific power of with advanced radiators. Using the more efficient InGaAs cells, the system can expect to triple the figure of merits of the radioisotope thermoelectric generator, promising to reach and , respectively. With a high performance device, the results of this work can lead to a functional prototype for further research focusing on manufacturability and reliability.

Topics & Concepts

ThermophotovoltaicCommon emitterRadiator (engine cooling)Gallium arsenideMaterials scienceGenerator (circuit theory)Design for manufacturabilityComputer scienceElectricity generationOptoelectronicsPower (physics)Electrical engineeringMechanical engineeringEngineeringPhysicsQuantum mechanicsThermal Radiation and Cooling Technologiessolar cell performance optimizationAdvanced Thermodynamics and Statistical Mechanics