Experimental Investigation of the Padding Tower for Air Dehumidifier

机译：空气除湿机填料塔的实验研究

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Air conditioning with all fresh air is founded on the principle of dehumidifying by liquid desiccant. It has the characteristics of being clean, power-saving, easy to operate, and requiring low-grade heat It is suitable for applying waste heat, and solar power as the heat source for regeneration. Hence, this system has a great latent potential for energy savings and environmental protection. The system chooses the padding tower as a dehumidifier and regenerator, which are often used in petrochemical industry. The system chooses a padding tower as a dehumidifier, and LiCl-Water as a liquid desiccant The vapor in the air is absorbed by the spray of the LiCl solution, and then the absorbed vapor will be released by heating the absorbent These processes form the circle of absorptive refrigeration operating in atmospheric pressure.This paper describes studies on the theory and experiment of the padding tower of the dehumidifying air conditioning, including selecting different padding and measuring the speed of the air flow and the solution flow and the pressure drop between the layers of the padding. The experimental and computational results indicate that the design parameters of the padding tower significantly influence the characteristics of the liquid desiccant air conditioning. Of these design parameters, the framework of the padding tower, ratio of the air and the concentration of the inlet solution is largest through the tower, the temperature and effects of the dehumidifying capability of the tower.

机译：所有新鲜空气的空调均基于液体干燥剂除湿的原理。具有清洁，省电，操作简便，热量低等特点。适用于余热利用，太阳能为再生热源。因此，该系统具有巨大的节能和环保潜力。该系统选择填料塔作为除湿器和再生器，这在石化行业中经常使用。该系统选择填料塔作为除湿机，并选择LiCl-水作为液体干燥剂。空气中的蒸气被LiCl溶液的喷雾吸收，然后通过加热吸收剂释放吸收的蒸气。本文描述了除湿空调填料塔的理论和实验研究，包括选择不同的填料并测量空气流速，溶液流速以及各层之间的压降。的填充。实验和计算结果表明，填料塔的设计参数显着影响液体干燥剂空调的特性。在这些设计参数中，填料塔的框架，空气的比例和入口溶液的浓度是通过塔，温度和塔的除湿能力的影响最大的。

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来源
《International Conference on Enhanced Building Operations; 20061106-08; Shenzhen(CN)》|2006年|P.25.1-25.7|共7页
会议地点 Shenzhen(CN)
作者
Jin Wang; Jianhua Liu; Cunnan Li; Guangli Zhang; Shouchao An;
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作者单位

College of Urban Construction Environmental Engineering, University of Shanghai for Science and Technology, Shanghai 200093, PR China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类建筑热工学;
关键词
liquid desiccant; air conditioning with all fresh;

机译：液体干燥剂；新鲜空气;

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Experimental Investigation of the Padding Tower for Air Dehumidifier

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