抛物线槽集热器设计创新方案的有限元分析

F. Sartori, A. Heimsath
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引用次数: 1

摘要

聚光太阳能(CSP)电站利用镜子反射入射的太阳能,将其聚焦到接收器上。然而,在这一过程中,由于反射镜的形状等因素导致了误差的产生,降低了过程的效率。影响性能的不仅是技术方案,还有环境条件(风、温度)。本工作的目的是研究环境条件的影响和有助于降低抛物线槽成本和提高运行性能的技术解决方案。为此,考虑不同的技术方案进行有限元分析模拟,并与参考案例进行比较,以评估所研究的一些相关因素的变化,如变形、斜率偏差(SDx)和焦点偏差(FDx)。结果表明,参考情况下的SDx、FDx和位移值与现有文献中的相似,验证了模型的正确性。此外,在反射镜的支承垫中发现了很大的变形和应力值,这对反射镜的形状有很大的影响。此外,根据模型,较厚的玻璃反射镜和大孔径槽能够降低反射镜的SDx和FDx值,因此它们可能具有提高槽效率的潜力。聚光太阳能(CSP)电站利用镜子反射入射的太阳能,将其聚焦到接收器上。然而,在这一过程中,由于反射镜的形状等因素导致了误差的产生,降低了过程的效率。影响性能的不仅是技术方案,还有环境条件(风、温度)。本工作的目的是研究环境条件的影响和有助于降低抛物线槽成本和提高运行性能的技术解决方案。为此,考虑不同的技术方案进行有限元分析模拟,并与参考案例进行比较,以评估所研究的一些相关因素的变化,如变形、斜率偏差(SDx)和焦点偏差(FDx)。结果表明,参考案例的SDx、FDx和位移值与现有文献的相似,验证了…
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FEA study of innovative solutions for parabolic trough collector design
Concentrated Solar Power (CSP) plants utilize mirrors to reflect the incoming solar energy to focus them to a receiver. However, in this process there are several sources of errors including the ones due to mirrors′ shape, which reduce the efficiency of the process. Not only technical solution, but also environmental conditions (wind, temperature) influence the performance. The purpose of the present work is to study the impact of environmental conditions and technical solutions that contribute to parabolic trough cost reduction and improve performance under operation. To do so, Finite Element Analysis simulations are performed considering different kind of technical solutions that are compared to a reference case in order to assess the change of some relevant factors studied such as deformation, slope deviation (SDx) and focus deviation (FDx). The results obtained show that the reference case presents similar values for SDx, FDx and displacement as the ones shown in available literature, which validates the model. Additionally, it is found large deformation and stress values in the supporting pads of the mirrors that affect considerably the shape of the mirrors. Besides, according to the model, the thicker glass mirror and the large aperture trough are able to reduce the SDx and FDx values of the mirrors, therefore they might have a potential to increase the efficiency of the troughs.Concentrated Solar Power (CSP) plants utilize mirrors to reflect the incoming solar energy to focus them to a receiver. However, in this process there are several sources of errors including the ones due to mirrors′ shape, which reduce the efficiency of the process. Not only technical solution, but also environmental conditions (wind, temperature) influence the performance. The purpose of the present work is to study the impact of environmental conditions and technical solutions that contribute to parabolic trough cost reduction and improve performance under operation. To do so, Finite Element Analysis simulations are performed considering different kind of technical solutions that are compared to a reference case in order to assess the change of some relevant factors studied such as deformation, slope deviation (SDx) and focus deviation (FDx). The results obtained show that the reference case presents similar values for SDx, FDx and displacement as the ones shown in available literature, which validates ...
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