This work describes a prototype of a small-size radioisotope thermophotovoltaic (RTPV) system with the two-dimensional metallic photonic crystal emitter and the low bandgap TPV cell. The project demonstrates the simulation and measurement of a system powered by an electrical heat source that mimics the radioisotope fuel pellet. The photonic crystal and the polished Ta3%W substrate are both used as the emitting surfaces to demonstrate the benefits of spectral control. The rest of the system is thermally insulated to increase the overall system efficiency. The photonic crystal emitter demonstrates four times more output power over a flat metal emitter from the 1 cm[superscript 2] TPV cell. With more cell areas, better TPV cells and improved insulation design, the system is expected to reach an efficiency of 7.8%.
展开▼
机译:这项工作描述了带有二维金属光子晶体发射器和低带隙TPV电池的小型放射性同位素热光电(RTPV)系统的原型。该项目演示了由电热源供电的系统的仿真和测量,该电热源模仿了放射性同位素燃料芯块。光子晶体和抛光的Ta3%W衬底都用作发射表面,以证明光谱控制的好处。系统的其余部分是隔热的,以提高整体系统效率。与1 cm [上标2] TPV电池相比,光子晶体发射器的输出功率是平面金属发射器的四倍。随着更多的电池面积,更好的TPV电池和改进的绝缘设计,该系统的效率有望达到7.8%。
展开▼
