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悬索桥主缆联合除湿系统设计与实验研究 被引量:3
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作者 宋翼 张小松 +4 位作者 刘剑 薛鼎 胡颖健 朱军 李鹏 《建筑科学》 CSCD 北大核心 2023年第10期134-143,共10页
悬索桥主缆防腐效果对悬索桥使用寿命起着关键性作用。本文针对悬索桥主缆传统转轮除湿系统高温高湿工况下除湿能效差和再生能耗高的缺点,结合悬索桥主缆除湿需求和工程实际,提出了将冷凝除湿与转轮除湿结合的联合除湿系统,同时引入分... 悬索桥主缆防腐效果对悬索桥使用寿命起着关键性作用。本文针对悬索桥主缆传统转轮除湿系统高温高湿工况下除湿能效差和再生能耗高的缺点,结合悬索桥主缆除湿需求和工程实际,提出了将冷凝除湿与转轮除湿结合的联合除湿系统,同时引入分离式热管充分利用冷凝热。本文通过实验对两种除湿系统的除湿能效和节能水平进行对比分析,研究表明:在进风温度26~34℃、相对湿度60%~80%工况下联合除湿系统的出风相对湿度均低于25%。相同工况下联合除湿系统除湿量、除湿率和单位功率除湿量均高于转轮除湿系统。在温度34℃、相对湿度80%工况下,联合除湿系统除湿量最高为10.12 g/kg,单位功率最大为0.89 kg/kW·h。在温度26℃、相对湿度60%工况下,联合除湿系统除湿率最高为64%。相较于传统转轮除湿系统,采用分离式热管的联合除湿系统节能率随着温度和含湿量的增加,呈现上升趋势,在温度30℃、相对湿度80%工况下,系统节能率最大为8.32%。 展开更多
关键词 悬索桥主缆防腐 联合除湿 实验分析 除湿能效 节能率
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浅析污泥低温干化设备生产运行表现——以某市经济开发区污水处理厂为例 被引量:5
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作者 梁华杰 王杰 +1 位作者 孟建国 汤富俊 《智能城市》 2019年第15期131-132,共2页
介绍了污泥低温干化设备在污水处理厂应用情况,并重点分析了其在污泥干化效果、能耗等方面的表现。生产实践表明,污泥低温干化设备非常适合污泥在污水处理厂内的干化减量处理,易于管理,可以将污泥含水率由80%~90%降低至30%以下,每消耗1... 介绍了污泥低温干化设备在污水处理厂应用情况,并重点分析了其在污泥干化效果、能耗等方面的表现。生产实践表明,污泥低温干化设备非常适合污泥在污水处理厂内的干化减量处理,易于管理,可以将污泥含水率由80%~90%降低至30%以下,每消耗1kwh电能可以蒸发3.3kg以上的水分,且生产过程中对环境的影响较小。文中同时对污泥低温干化设备性能表现的相关生产条件进行了分析,并提出了污泥低温干化设备在日常运行的管理要点。 展开更多
关键词 污泥低温干化 除湿能效 环境影响 运行管理
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Efficiency comparison and performance analysis of internally-cooled liquid desiccant dehumidifiers using LiCl and CaCl2 aqueous solutions 被引量:2
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作者 Dong-gen PENG Shun-yi LI +3 位作者 Dan-ting LUO Yu-ting FU Xiao-song CHENG Yin LIU 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2020年第1期44-63,共20页
Internally-cooled dehumidifiers are efficient liquid desiccant dehumidifiers, whose performance is mainly determined by the device structure and operating conditions. Based on energy and mass conservation in the air, ... Internally-cooled dehumidifiers are efficient liquid desiccant dehumidifiers, whose performance is mainly determined by the device structure and operating conditions. Based on energy and mass conservation in the air, solution, and cooling water in the device, mathematical models are built and their theoretical performance is simulated and analyzed in this paper. A novel measure of dehumidification efficiency is introduced to evaluate the performance of internally-cooled dehumidifiers, in which the equilibrium humidity ratio of the inlet solution is calculated according to the minimum temperature in the inlet solution and the cooling water. Numerical simulations show that a counter flow between air and solution is always the most efficient, followed by cross flow, and parallel flow is the least efficient. Cooling water with the same flow direction as the solution performs better than that with a counter flow, with approximately a 5% improvement in efficiency. Compared with Ca Cl2, the dehumidification efficiency of a Li Cl solution is greater by 60%, while its exergy efficiency is less by 16%. Dehumidification efficiency can be improved with the number of air-solution heat transfer units(NTUa-s) increasing, and reduced with the air mass flow rate raised. With NTUa-s increasing, exergy efficiency can be improved, and an increase in mass flow rate of cooling water results in a decrease of efficiency. Higher solution concentration and lower inlet temperature of solution and air can achieve both higher dehumidification efficiency and exergy efficiency. 展开更多
关键词 Liquid desiccant Internally-cooled dehumidifiers Performance comparison Dehumidification efficiency Exergy efficiency
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