Alexander Zolan, Chad Augustine, Evan Westphal, Ken Armijo, Ye Wang, John Pye
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引用次数: 0
摘要
聚光太阳能热(CST)发电塔可在商业规模上提供高通量浓度。因此,聚光太阳能热发电塔具有应用于高温太阳能工业加工热(SIPH)的潜力。然而,在较高的工作温度下,热辐射损失可能会很大。本研究通过收集三个工作温度范围为 900-1,550 °C 的案例研究,探讨了 SIPH 应用中热辐射损失和光辐射损失之间的权衡。我们假定黑体辐射代表接收器处的热损耗,并使用光线跟踪估算光学损耗。结果显示了工艺温度对可达到的最大系统效率的影响,以及随着温度升高对流量浓度的更高要求。
Impact of Temperature and Optical Error on the Combined Optical and Thermal Efficiency of Solar Tower Systems for Industrial Process Heat
Concentrating solar thermal (CST) power towers can provide high flux concentrations at commercial scale. As a result, CST towers exhibit potential for high-temperature solar industrial process heat (SIPH) applications. However, at higher operating temperatures, thermal radiation losses can be significant. This study explores the trade-off between thermal and optical losses for SIPH applications using a collection of three case studies at operating temperatures that range from 900-1,550 °C. We assume blackbody radiation to represent the thermal losses at the receiver and we use ray tracing to estimate the optical losses. The results show the impact of process temperature on the maximum attainable system efficiency, as well as the higher flux concentration requirements as the temperature increases.
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