Investigation of the use of various materials for the construction of an enthalpy exchanger

Selected Scientific Papers Journal of Civil Engineering Pub Date : 2020-12-01 DOI:10.1515/SSPJCE-2020-0021

P. Kozak, D. Košičanová

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Abstract

Considering the current gradual depletion of non-renewable primary sources, it is necessary to address the reduction of energy consumption in ventilation and air conditioning systems. Although heat recovery alone reduces the energy intensity of these systems, if moisture recovery is considered as well, the contribution in reducing energy consumption is significant. These are mainly the devices designed primarily for spaces where people stay permanently, which do not allow large fluctuations in temperature and humidity. In cooperation with the manufacturer of heat recovery exchangers, we determined our own method of comparing different types of materials that could be used to design an exchanger which would also allow moisture recovery. These results in a significant reduction in energy consumption used to humidify the air in ventilation and air conditioning systems. It is one of the possible ways how to compare individual samples that are being measured. This article primarily deals with the comparison of three different types of materials, out of the total number of twelve measured samples.

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用各种材料建造一个焓交换器的研究

考虑到目前不可再生的一次能源逐渐枯竭，有必要解决通风和空调系统的能耗降低问题。虽然热回收本身降低了这些系统的能量强度，但如果将水分回收也考虑在内，则在降低能耗方面的贡献是显著的。这些主要是为人们永久居住的空间设计的设备，这些空间不允许温度和湿度的大波动。在与热回收交换器制造商的合作中，我们确定了自己的方法来比较不同类型的材料，这些材料可以用来设计一种也可以回收水分的交换器。这些结果显著减少了用于加湿通风和空调系统中的空气的能源消耗。这是比较被测量的单个样本的一种可能的方法。这篇文章主要处理三种不同类型的材料的比较，总共12个测量样本。

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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来源期刊

Selected Scientific Papers Journal of Civil Engineering

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审稿时长

27 weeks