New solar-biomass assisted thermophotovoltaic system and parametrical analysis

Green Energy and Resources Pub Date : 2023-06-01 DOI:10.1016/j.gerr.2023.100019

Shiquan Shan , Siqi Jia , Haojin Wu , Qi Zhang , Hongxun Hui , Zhijun Zhou

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Abstract

This paper proposes a new technical route of solar-biomass assisted thermophotovoltaic (TPV) system for power generation which uses renewable fuel and contributes to carbon neutrality. Here, a thermophysics model is established for solar-biomass assisted TPV based on energy-balance principle. The effects of some key parameters on the new system performance are investigated, including concentrate ratio, emitter area, biomass fuels, etc. Besides, biomass fuel saving after adding solar energy is investigated. The results show that the solar-biomass assisted TPV system can not only increase the output power of photovoltaic cells by more than 10 kW/m² compared to biomass-driven TPV but also increase the electrical efficiency by nearly 10 percentage points. It is pointed out that improving the absorptance of solar absorber is the key for system optimization. Furthermore, the annual performance analysis shows that it also saves biomass fuel by up to 60% in one year. This study provides a reference for the design and application of renewable TPV technology.

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新型太阳能-生物质辅助热光伏系统及参数化分析

提出了一种利用可再生燃料、实现碳中和的太阳能-生物质辅助热光伏发电系统的新技术路线。基于能量平衡原理，建立了太阳能-生物质辅助TPV的热物理模型。研究了浓缩比、发射器面积、生物质燃料等关键参数对新系统性能的影响。此外，还对加入太阳能后的生物质燃料节约进行了研究。结果表明，与生物质驱动的TPV相比，太阳能-生物质辅助TPV系统不仅可以将光伏电池的输出功率提高10 kW/m2以上，而且可以将电效率提高近10个百分点。指出提高太阳能吸收体的吸收率是系统优化的关键。此外，年度性能分析表明，它还可以在一年内节省高达60%的生物质燃料。本研究为可再生TPV技术的设计和应用提供了参考。

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Green Energy and Resources

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