1955年开始研发溴化锂吸收式制冷机。
阐述了溴化锂吸收式制冷机的运行管理与维护。
Operation control and maintenance of lithium bromide absorption refrigerator were introduced.
介绍了新开发的蒸汽双效溴化锂吸收式制冷机控制系统。
A control system newly developed is Presented for vapour duplex effect lithium-Bromide absorption refrigerators.
1994年开始生产l.t。热水型溴化锂吸收式制冷机。
1994 start manufacture of L. T. hot water-fired LiBr absorption chiller.
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。
The falling film generator is applied in the lithium bromide absorption chiller and heat pump.
介绍了常用的蒸汽吸收式制冷机组、双效溴化锂吸收式制冷机的工艺流程。
The process flow of steam absorption refrigerating set and double-effect lithium bromide absorption refrigerating set were introduced.
1978年“SANYO”蒸汽型溴化锂吸收式制冷机赢得节能产品的称号。
1978 "SANYO" LiBr absorption chiller utilizing gas win the title of excellent saving energy equipment.
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。
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.
热源温度较低时,在溴化锂吸收式制冷机或热泵中使用降膜式发生器可以改善传热传质的性能。
When the temperature of heat source is relatively low, the falling film generator in the lithium bromide absorption machine can improve its heat and mass transfer performance.
本文通过实验,研究了塑料管溴化锂吸收式制冷机中聚四氟乙烯换热器的传热性能及制冷机组性能。
Study on the coefficient of PTFE heat exchangers and refrigerator, using the theory calculation and experimental methods.
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。
Dynamic simulation of lithium bromide absorption chiller can reveal its dynamic characteristics as well as realize the optimization of design and energy saving.
详细阐述了溴化锂吸收式制冷机的冷媒水系统、冷却水系统以及机组内部和外部的化学清洗技术和操作方法。
Explains in detail the technique and operating procedure of chemical cleaning for the refrigerant water and chilling water systems and the inside and outside surface of the chiller unit.
分析比较了溴化锂吸收式制冷机的效率、经济性及其对环境的污染,指出溴化锂吸收式制冷目前在我国不宜推广使用。
Analyses and compares the efficiency, environmental pollution and economic accounting of Libr-absorption chillers, points out to use Libr-absorption chillers widely is impracticable.
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。
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.
针对船舶动力系统运行时会产生大量多种形式的低品位余热,而这些余热恰好适合作为溴化锂吸收式制冷机的驱动热源,并利用动力系统余热实现船舶的空气调节。
According to abundant low-waste heat produced from Marine Power Plant, which is suitable for air-conditioning system of ship and be used as driving heat source of the LiBr Absorption refrigerator.
针对船舶动力系统运行时会产生大量多种形式的低品位余热,而这些余热恰好适合作为溴化锂吸收式制冷机的驱动热源,并利用动力系统余热实现船舶的空气调节。
According to abundant low-waste heat produced from Marine Power Plant, which is suitable for air-conditioning system of ship and be used as driving heat source of the LiBr Absorption refrigerator.
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