线性菲涅耳集光镜。测量的系统表面误差及其对焦距的影响

A. Heimsath, P. Schöttl, G. Bern, P. Nitz
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引用次数: 0

摘要

本文的目的是展示和讨论线性菲涅耳集热器太阳反射板的形状精度。由于扭转或取向误差导致的系统形状偏差导致严重的光学损耗和性能低下。这就是为什么本文研究超出标准质量参数(如SDx和FDy)的系统表面偏差。讨论了线性菲涅耳集热器反射板的典型特性。我们的测量结果显示了用偏转法测量的局部地表坡度偏差。在本研究的第二部分,利用参数化模型分析了系统地表坡度偏差的影响。我们将该模型应用于检测系统生产误差,研究光学损耗和光线追踪对焦线的影响。本文的目的是展示和讨论线性菲涅耳集热器太阳反射板的形状精度。由于扭转或取向误差导致的系统形状偏差导致严重的光学损耗和性能低下。这就是为什么本文研究超出标准质量参数(如SDx和FDy)的系统表面偏差。讨论了线性菲涅耳集热器反射板的典型特性。我们的测量结果显示了用偏转法测量的局部地表坡度偏差。在本研究的第二部分,利用参数化模型分析了系统地表坡度偏差的影响。我们将该模型应用于检测系统生产误差,研究光学损耗和光线追踪对焦线的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Linear Fresnel collector mirrors – Measured systematic surface errors and their impact on the focal line
Objective of this article is to show and discuss the shape accuracy of solar reflector panels for linear Fresnel collectors. Systematic shape deviations due to torsion or orientation errors are responsible for severe optical losses and underperformance. This is why this article investigates systematic surface deviations beyond the standard quality parameters like SDx and FDy. We discuss typical characteristics of linear Fresnel collector reflector panels. Our measurement results show local surface slope deviations measured by deflectometry. In the second part of this study, the effect of systematic surface slope deviations is analyzed by use of a parametric model. We apply the model to detect systematic production errors, investigate optical losses and the impact on the focal line with ray tracing.Objective of this article is to show and discuss the shape accuracy of solar reflector panels for linear Fresnel collectors. Systematic shape deviations due to torsion or orientation errors are responsible for severe optical losses and underperformance. This is why this article investigates systematic surface deviations beyond the standard quality parameters like SDx and FDy. We discuss typical characteristics of linear Fresnel collector reflector panels. Our measurement results show local surface slope deviations measured by deflectometry. In the second part of this study, the effect of systematic surface slope deviations is analyzed by use of a parametric model. We apply the model to detect systematic production errors, investigate optical losses and the impact on the focal line with ray tracing.
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