1955 start development in LiBr absorption chiller.
1955年开始研发溴化锂吸收式制冷机。
2001 the most efficient WE absorption chiller is manufactured.
2001年生产出最有效的WE型吸收式制冷机。
1993 the biggest absorption chiller with 6000usrt is manufactured.
1993年生产出最大的6000usrt的吸收式制冷机。
1994 start manufacture of L. T. hot water-fired LiBr absorption chiller.
1994年开始生产l.t。热水型溴化锂吸收式制冷机。
The falling film generator is applied in the lithium bromide absorption chiller and heat pump.
降膜式发生器在溴化锂吸收式制冷机与热泵中得到了一定的应用。
Experimental results show a new type of high-effect LiBr absorption chiller has certain advantage.
实验结果表明,这种新型溴化锂吸收式制冷机具有一定的市场优势。
1978 "SANYO" LiBr absorption chiller utilizing gas win the title of excellent saving energy equipment.
1978年“SANYO”蒸汽型溴化锂吸收式制冷机赢得节能产品的称号。
The system consists of solar collector army, lithium-bromide absorption chiller, heat pump and control system.
该系统主要由太阳能集热器阵列、溴化锂制冷机、热泵、控制系统等几部分组成。
Present the advantages of gas-fired absorption chiller-heater, gas-engine chiller and desiccant cooling system.
介绍了燃气吸收式冷温水机组、燃气机驱动的冷水机组和除湿冷却式空调机的优点。
Dynamic simulation of lithium bromide absorption chiller can reveal its dynamic characteristics as well as realize the optimization of design and energy saving.
对溴化锂吸收式制冷机进行动态仿真可以了解其动态特性,进而实现优化设计,利于节能节材目标的实现。
According to the load of air conditioning and the performance of centrifugal and absorption chiller the feasibility of variable chilled water operation is discussed.
根据空调负荷和离心式及吸收式冷水机组的特性,探讨了变水温节能运行的可行性。
It is well known that, dynamic characteristic is the basic character of lithium-bromide absorption chiller and it is also one of the main contents of controlling system.
众所周知,动态特性是溴化锂吸收式制冷机的基本特性,同时又是控制系统的主要内容之一。
This paper introduced a new hot-water absorption chiller, the two-stage integral chiller, specially designed for combined cooling, heating and electric power generation.
本文阐述了一种新型的热水型吸收式冷水机组,即热水两阶一体型吸收式冷水机组,并对其原理、热力计算优化等作了详细介绍。
With the urgent energy demand, the development of combined cooling, heating and power especially the development of waste heat driven absorption chiller is paid much attention.
随着能源使用的日益紧张,各类冷热电联供技术尤其是废热驱动型吸收式制冷机组的性能研究越来越受到关注。
In order to reduce the running time and the energy consumption, the dynamic performance of LiBr absorption chiller under different start-up mode was investigated by experiment.
通过实验探讨了不同季节、不同规模及不同的开机方式对溴化锂吸收式制冷系统动态性能的影响,有助于实现良好的开机控制和减少能源耗费。
This article introduces a refrigeration method using the absorption chiller energized by the district heating system instead of electricity or mechanical energy in summer in Finland.
在夏季采用区域供热系统的热量作为吸收式冷凝器制冷系统的能源,可代替电和机械能源制冷。
The enthalpy data in international literature with high temperature and high concentration is converted, which can be used for developing triple-effect and quadruple-effect absorption chiller.
并根据这一方法,对国外有关的高温高浓度区域的比焓值数据进行了转换,可为三效和四效溴化锂吸收式制冷机的开发和研制提供比焓值数据。
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.
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。
This paper mainly presents the hardware and software design of the lower unit of the controller for steam LiBr Absorption liquid chiller.
本文介绍了蒸汽型溴化锂吸收式冷水机组电脑控制器下位机的软硬件开发设计。
The chiller is compressed refrigerants, such as Ann or fluorine, and make it, then get energy absorption and refrigeration inflation gasification.
制冷机的作用是压缩制冷剂,如安或氟利,使它获得机械能,而后膨胀气化吸热而制冷。
The chiller is compressed refrigerants, such as Ann or fluorine, and make it, then get energy absorption and refrigeration inflation gasification.
制冷机的作用是压缩制冷剂,如安或氟利,使它获得机械能,而后膨胀气化吸热而制冷。
应用推荐