1) air cool storage
空气蓄冷
1.
In this paper,a simplified numerical model to simulate the energy transfer process in the underground space was established,and the critical temperature difference between the supply and exhaust air in an air cool storage system using underground space was analyzed.
本文对空气流经地下空间中的能量传递过程建立了简化的数学模型,分析了利用地下空间空气蓄冷供冷系统运行的送排风临界温差,并对上海某实际工程中利用这一系统的最佳通风量进行了计算,进一步分析了通风系统阻力、送风温度、地下空间尺寸以及系统运行方式等因素对最佳通风量的影响。
2) cool storage air conditioning
蓄冷空调
1.
5~8 ℃, and the new phase material is an efficient cool storage material for cool storage air conditioning system.
研究了空调蓄冷技术对高温相变蓄冷材料各种性质的要求,提出了一种蓄冷空调用的新型高温相变蓄冷介质,并且进行了性能测试。
3) Cool storage for air conditioning
空调蓄冷
4) cold storage air-conditioning
蓄冷空调
1.
The classification of phase change materials is introduced,and the applications of phase change walling materials,as well as phase change materials in heating system of solar room,electric heat storage system and cold storage air-conditioning are overviewed.
介绍了相变材料的分类,综述了相变墙体材料的应用以及相变材料在太阳房供暖系统、电热蓄热系统、蓄冷空调中的应
5) cool storage air-conditioning
蓄冷空调
1.
Problems and suggestions in the practice of cool storage air-conditioning projects;
蓄冷空调工程实践中的问题及建议
2.
A new simplified method to assess electric power peak-load shifting capability for cool storage air-conditioning unit;
一种评估蓄冷空调系统移峰填谷能力的新方法
6) cold storage air conditioning system
蓄冷空调
1.
According to the calculating work, testing work, date processing and analyzing , conclusions below could gotten: Fire cisterns which are used to store water can also be used in cold storage air conditioning system.
通过大量的实验及数据处理分析 ,得出利用消防水池进行蓄冷空调的方式是可行的。
2.
This paper , based on the theory of jet fluidics, had quested for the feasibility of utilizing the fire pool for cold storage air conditioning system.
本文从射流理论出发 ,探索利用消防水池进行蓄冷空调的可能性问题。
补充资料:蓄冷器(regenerator)
蓄冷器(regenerator)
是一种回热式热交换器,在低温循环中,它与热交换器的功能相同,即通过热量的交换,达到积蓄冷量的目的。蓄冷器只有一个通道。冷、热流体分别交替通过,它的传热过程在时间上分为加热与冷却两个阶段。在加热阶段,热流体通过蓄冷器,使蓄冷器中填料被加热,同时流体被冷却;在冷却阶段,冷流体反向通过蓄冷器,使蓄冷器填料被冷却而流体被加热,由于它在冷却热流体的过程会产生低温的物理吸附,使流体得到纯化。它的填料可用铜丝绒、不锈钢丝绒、小铅丸、铝矾及硫化铕等。它的比表面积可达3000~6000m2/m3,热交换的效率可达99,流阻小,流体经过时的压降也小,在液化器和气体制冷机中被广泛的使用。
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