Comparison of the Efficiency of Solar Collectors in Terms of the Working Medium—Review of Selected Technical Solutions

P. Zielinko, D. Krawczyk
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引用次数: 1

Abstract

In Poland, the most commonly used solar fluid in heating installations with solar collectors are 35–50% water propylene glycol solutions or ethyl. These mixtures (with ennobling additives) effectively protect the solar installation against the effects of freezing of the working medium at low outside temperatures prevailing in winter. These solutions, compared to water, are characterized by higher viscosity and lower values of the specific heat in the range of typical working temperatures of the working fluid in the solar circuit, have a higher price per unit volume, and may cause poisoning due to accidental ingestion. It is possible in solar installations operating also in winter use of water only, without the addition of glycols, but then equipment is necessary the automatic control system controlling the installation with the protection function of anti-freeze. The aim of this study is to review selected examples of solar installations in which water was used as the solar fluid, proving the disadvantage of using glycol.
不同工作介质的太阳能集热器效率比较——技术方案选择综述
在波兰,带有太阳能集热器的加热装置中最常用的太阳能流体是35-50%的水丙二醇溶液或乙基。这些混合物(含增效添加剂)有效地保护太阳能装置免受冬季低温下工作介质冻结的影响。与水相比,这些溶液的特点是粘度更高,在太阳能电路中工作流体的典型工作温度范围内的比热值更低,单位体积的价格更高,并且可能因意外摄入而导致中毒。在太阳能装置运行中也可以在冬季只使用水,不添加乙二醇,但随后设备必须具有防冻保护功能的控制装置的自动控制系统。本研究的目的是审查选定的太阳能装置的例子,其中水被用作太阳能流体,证明使用乙二醇的缺点。
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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