Design and feasibility of high temperature nanoparticle fluid filter in hybrid thermal/photovoltaic concentrating solar power

SPIE Optics + Photonics for Sustainable Energy Pub Date : 2015-09-05 DOI:10.1117/12.2186117
D. DeJarnette, N. Brekke, Ebrima Tunkara, P. Hari, K. Roberts, T. Otanicar
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引用次数: 13

Abstract

A nanoparticle fluid filter used with concentrating hybrid solar/thermal collector design is presented. Nanoparticle fluid filters could be situated on any given concentrating system with appropriate customized engineering. This work shows the design in the context of a trough concentration system. Geometric design and physical placement in the optical path was modeled using SolTrace. It was found that a design can be made that blocks 0% of the traced rays. The nanoparticle fluid filter is tunable for different concentrating systems using various PV cells or operating at varying temperatures.
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热/光电混合聚光太阳能发电中高温纳米颗粒流体过滤器的设计与可行性
提出了一种用于聚光/热混合集热器设计的纳米颗粒流体过滤器。通过适当的定制工程,纳米颗粒流体过滤器可以安装在任何给定的浓缩系统上。这项工作展示了在槽式浓缩系统的背景下的设计。利用SolTrace对光路中的几何设计和物理位置进行建模。人们发现,一种设计可以阻挡0%的追踪光线。纳米颗粒流体过滤器可用于使用各种PV电池或在不同温度下操作的不同浓缩系统。
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SPIE Optics + Photonics for Sustainable Energy
SPIE Optics + Photonics for Sustainable Energy
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