1) rotary adsorptive dehumidification
转轮吸附除湿
2) sorption dehumidifiers
吸附式转轮除湿机
3) Adsorption dehumidify
吸附除湿
4) desiccant wheel
除湿转轮
1.
Study of a Hybrid Air-conditioning System Incorporating GHP and Desiccant Wheel;
GHP结合除湿转轮的复合空调系统研究
2.
An automotive-derivative engine was converted to drive a vapor-compression chiller while waste heat from the engine was recovered to regenerate desiccant wheel for air-conditioning system.
由改装的天然气发动机直接驱动制冷机、产生冷冻水以承担显热负荷,同时回收发动机余热、再生除湿转轮来承担湿负荷,构成复合空调系统。
3.
Presents the principles and methods involved in dehumidification capacity measurement of the desiccant wheel.
介绍了除湿转轮的性能测试原理与方法,重点讨论了湿度测量方法对测量结果不确定性的影响,同时分析了流量仪表精度对性能测试的影响。
5) rotary dehumidification
转轮除湿
1.
Based on the design and operation characteristics of the combined system in an office building in Shanghai, simulates the energy consumption of the system with rotary dehumidification during cooling season using the EnergyPlus software.
根据上海一办公楼置换通风和冷却顶板复合系统的设计及运行特点,应用EnergyPlus软件模拟了采用转轮除湿方式的复合系统的供冷季能耗,并分别模拟了采用冷却除湿方式的复合系统、带热回收装置的混合通风系统和置换通风系统的供冷季能耗以进行对比。
2.
A combined air-conditioning system composed of gas engine-driven refrigerating unit and rotary dehumidification system is introduced, and the reasons influencing its extended application are discussed.
介绍了燃气发动机驱动制冷机组复合转轮除湿空调系统的组成,探讨了影响其推广的原因。
3.
Five schemes of the IES that combine gas-fired microturbine with rotary dehumidification are summed up.
归纳总结了5种微型燃气轮机与转轮除湿的集成能源系统方案,讨论了各个方案的特点及影响方案设计与性能的因素。
6) desiccant wheel
转轮除湿
1.
This paper is concerned with studies of two types of desiccant wheel systems combined with vapor compression and evaporation cooling hybrid air conditioning systems at equivalent comfort of indoor air condition to that of conventional air condition.
分析了太阳能作为再生热源时等舒适性室内状态点下,两种类型的转轮除湿、蒸气压缩和蒸发冷却相结合的转轮除湿空调系统,建立了系统的物理模型并对系统进行数学描述,通过与相同条件下常规蒸气压缩空调系统的计算比较分析,得出转轮除湿空调系统的空气质量流量减少了9。
2.
The influence of desiccant wheel on vapor-compression (V-C) subsystem in hybrid air condition of desiccant wheel combined with V-C cooling was studied here.
研究了转轮除湿复合式空调系统中,转轮除湿机的使用对蒸汽压缩子系统的影响,建立系统的物理模型,对系统进行数学描述,通过与相同条件下常规蒸汽压缩空调系统的比较分析得出,其压缩子系统的制冷负荷减少,压缩子系统性能系数提高,蒸发器和压缩机结构尺寸减小。
补充资料:特性吸附与半胶束吸附
特性吸附与半胶束吸附
specifical adsorption and hemi-micelle adsorption
texing xifu yu banJ旧oshu xifu特性吸附与半胶束吸附(speeifieal adsorp-tion and hemi一mieelle adsorption)矿物一水界面的吸附的两种形式。特性吸附是因矿物表面与溶液中某种组分(离子或分子)有特殊的亲和力而产生的吸附,也称特殊吸附。特性吸附不仅可以改变电位的数量而且还可以改变电位的符号。例如,刚玉(A12O3)在NaZSO‘或RSO;Na(烷基硫酸钠)溶液中,电动电位随溶液浓度的增大由正值逐渐减小,直至变为负值,说明刚玉对50矛一或RSO不离子有特殊的吸引力。半胶束吸附是水溶液中的表面活性剂在矿物表面产生的吸附,当吸附量达到一定值以后,由于烃基的缔合作用,表面活性剂的离子或分子在矿物表面上形成紧密的吸附层,这类似于溶液中形成的胶束结构,但所形成的“胶束”与溶液中形成的胶束不同,只有二维空间,故称这类吸附为半胶束吸附。矿物表面对胺类捕收剂的吸附,当胺的浓度较大时,常可以产生半胶束吸附。 (龚焕高)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条