Experimental exergy analysis of the solar thermal system in the Off-Grid Zero Emissions Building

2015 IEEE Conference on Technologies for Sustainability (SusTech) Pub Date : 2015-11-02 DOI:10.1109/SUSTECH.2015.7314319

Sam Yang, M. Chagas, Tomas Solano, J. Ordonez, Taylor Davis, J. Vargas, Camilo Ordonez

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引用次数: 2

Abstract

This paper presents an experimental exergy analysis of the solar thermal system in the Off-Grid Zero Emissions Building (OGZEB) at the Florida State University in efforts to identify components with major irreversibilities, i.e., exergy destruction. The solar thermal system comprises a series of flat-plate solar thermal collectors and 250-gal sensible thermal energy storage tank, and it is an essential constituent of the OGZEB heating system. In this study, exergy flow and destruction rates throughout the solar thermal system were evaluated using the experimental data obtained on two different days. According to the analysis, the greatest exergy destruction rate was observed in the solar thermal collector as expected, and its average exergetic efficiencies were 7.9% and 6.5% on each respective day. In the thermal energy storage tank, most of the exergy destruction was attributed to the mixing of hot water from the collector with the reservoir. This work serves as an initial step to the integrative thermodynamic optimization of the HVAC system in an off-grid residential building, where most energy is consumed for air-conditioning and heating.

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离网零排放建筑太阳能热系统实验用能分析

本文介绍了佛罗里达州立大学离网零排放建筑(OGZEB)太阳能热系统的实验用能分析，以确定具有主要不可变性的组件，即用能破坏。太阳能热系统由一系列平板太阳能集热器和250加仑的感热储热罐组成，是OGZEB供热系统的重要组成部分。在这项研究中，利用在两个不同的日子获得的实验数据，评估了整个太阳能热系统的火用流和破坏率。分析结果表明，太阳能集热器的火用破坏率最大，日均火用效率分别为7.9%和6.5%。在储热罐中，大部分的火用破坏是由于集热器的热水与储热器的混合造成的。这项工作是离网住宅建筑暖通空调系统综合热力学优化的第一步，其中大部分能源用于空调和供暖。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Conference on Technologies for Sustainability (SusTech)

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