In-Depth Exergoeconomic Analysis as an Effective Tool for the Development of Energy-Efficient Circuit Solutions in Air-Conditioning Systems (for Example, a Membrane Air Dehumidification System for Seed Storage Premises)

Ventilation, Illumination and Heat Gas Supply Pub Date : 2020-03-30 DOI:10.32347/2409-2606.2020.0.44-55

O. Zadoiannyi, Y. Yevdokymenko

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Abstract

. The paper presents a method of in-depth exergoeconomic analysis, as well as an example of its application to select the most energy-efficient method of air dehumidification for storing agricultural products, namely pumpkin seeds. Theoretical dependences are presented for determining the exergy components of moist airflow (thermal, humidity and mechanical, as well as full exergy). The formulas and the methodology for determining the exergy efficiency “net", which reflects only the internal thermodynamic transformations of air in the air-conditioning system and the exergy efficiency “gross", taking into account the amount of exergy from external sources are given. For a visual representation of the calculations and analysis of exergy destruction in the air conditioning systems, exergy flow diagrams are constructed. The results of calculations of the costs of processing air in an air conditioning system are presented in the form of streaming accumulative diagrams. Based on the results of analysis and comparison of exergoeconomic costs, a scheme with combined membrane dehumidification of air was selected to ensure the necessary storage conditions. Еxergy efficiency “net" for an air handling unit with combined membrane dehumidification of air is 16 % higher than exergy efficiency “net" for an air handling unit with condensing air drying, and 48 % more than exergy efficiency “net" for an air handling unit with adsorption method of air drying. Еxergy efficiency “gross" for an air handling unit with combined membrane air drying 43.5 % more than exergy efficiency “gross" for an air handling unit with condensing air drying, and 54.6 % more exergy efficiency “gross" for an air handling unit with adsorption air drying. In addition, according to in-depth exergoeconomic analysis, the cost of air treatment in air conditioning systems is halved.

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作为开发空调系统节能电路解决方案的有效工具的深入努力经济分析(例如，用于种子储存场所的膜式空气除湿系统)

．本文提出了一种深入的燃烧经济分析方法，并以其应用为例，选择了最节能的空气除湿方法来储存农产品，即南瓜籽。提出了确定湿气流的火用成分(热、湿、机械以及全火用)的理论依赖关系。给出了确定仅反映空调系统内空气的内部热力学转换的“净”和考虑外部来源的“总”的“用能效率”的公式和方法。为了直观地表示空调系统中火用破坏的计算和分析，构造了火用流程图。空调系统处理空气费用的计算结果以流式累积图的形式给出。在分析和比较耗力经济成本的基础上，选择了空气膜联合除湿方案，以保证必要的储存条件。结合膜除湿空气处理机组的Еxergy效率“净”比冷凝式空气干燥的空气处理机组的效率“净”高16%，比吸附式空气干燥的空气处理机组的效率“净”高48%。结合膜式空气干燥的空气处理机组Еxergy效率“总量”比冷凝式空气干燥的空气处理机组的火用效率“总量”高43.5%，吸附式空气干燥的空气处理机组的火用效率“总量”高54.6%。此外，根据深入的运动经济分析，空调系统的空气处理成本减半。

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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Ventilation, Illumination and Heat Gas Supply

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