由于单效溴化锂吸收制冷循环受太阳能热源温度较低的限制,需要采用适当的辅助手段。
The limitation of the single-effect LiBr absorption chilling circle driven by the low temperature solar energy heat source require adopting auxiliary means for proper operation.
吸收式制冷机主要由四个交换设备组成,即发生器、冷凝器、蒸发器和吸收器,外墙保温材料它们组成两个循环环路:制冷剂循环与吸收剂循环。
Absorption chiller mainly by the four exchange equipment composition, namely generator, condenser, evaporator and absorber, they formed two cycle loop: refrigerants circulation and absorber cycle.
利用氨水吸收式循环将太阳能与地热两个热源结合,提出了一种新颖的制冷与供热系统。
A novel refrigeration and heat-supply system that combined solar energy and geothermal energy by utilizing an ammonia absorption refrigeration were proposed.
进而介绍了利用这两个方程在电子计算机上进行溴化锂吸收式制冷循环热力计算的方法。
The method for using the two equations to calculate the thermodynamic characteristics of an LiBr absorption refrigeration cycle is introduced.
新型混合吸收式制冷循环对太阳能空调实用化具有很大的意义。
The refrigeration cycle of new style mixed absorption isv ery applied for solar air-conditioner.
传统的氨水吸收式制冷机,存在着系统中设备多,体积大,钢材消耗量大,制冷循环COP值较低等缺点。
However the COP of conventional ammonia-water absorption refrigeration system is relatively smaller because of its more equipments, large volume and more steel consumption.
根据旋流理论提出了一种新型的用于吸收式制冷循环的双室涡旋发生器。
In this paper, according to the vortex flow theory, a new dual chamber vortex generator model is suggested to improve the COP of the absorption refrigeration system.
本文所考虑的三源热力循环设备包括:吸收式制冷机、太阳能制冷机和两类三源化学泵等。
The thermodynamic cycle equipments considered in this dissertation include absorption refrigerators, solar refrigerators, two classes of three-source chemical pumps and so on.
制冷机采用吸收扩散式制冷循环,对主要参数的选择和结构设计特点做了说明。
For cooling system, the absorption-diffusion cycle is adopted and its structural design and working parameters are also introduced.
提出了引射吸收式制冷循环。
A new injecting absorption refrigeration cycle is put forward.
这通常涉及使用液体制冷剂循环热吸收和压缩机系统。
It typically involves cyclic heat absorption using a fluid refrigerant and a compressor system.
本发明涉及低温热能回收利用技术,公开了一种吸收式制冷和动力联合循环系统。
The invention relates to a low temperature heat energy recycling technology and discloses a combined circulation system of absorption refrigeration and power.
并讨论了循环的发生温度、蒸发温度、吸收温度对循环性能系数、循环倍率和制冷量的影响。
The influences of generation temperature, evaporation temperature, absorption temperature to the coefficient of performance, circular ratio and cooling capacity were also studied.
并讨论了循环的发生温度、蒸发温度、吸收温度对循环性能系数、循环倍率和制冷量的影响。
The influences of generation temperature, evaporation temperature, absorption temperature to the coefficient of performance, circular ratio and cooling capacity were also studied.
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