制冷与空调
製冷與空調
제랭여공조
REFRIGERATION AND AIR-CONDITIONING
2014年
11期
63-67
,共5页
溴化锂%吸收式%冷水%冷却水%冷却塔%水系统%节能%安全%自动控制
溴化鋰%吸收式%冷水%冷卻水%冷卻塔%水繫統%節能%安全%自動控製
추화리%흡수식%랭수%냉각수%냉각탑%수계통%절능%안전%자동공제
lithium bromide%absorption%cold water%cooling water%cooling tower%water system%energy security%safety%auto-control
本文从节能、安全、人工智能等方面出发,论述了单台溴化锂制冷机组水系统、多机组水系统的自动化控制方案,并且,结合溴化锂吸收式制冷机组的运行原理及特点,重点阐述了如何在危急的情况,通过合理、完备的自动化控制方案,使机组发生危险的可能性降到最低。
本文從節能、安全、人工智能等方麵齣髮,論述瞭單檯溴化鋰製冷機組水繫統、多機組水繫統的自動化控製方案,併且,結閤溴化鋰吸收式製冷機組的運行原理及特點,重點闡述瞭如何在危急的情況,通過閤理、完備的自動化控製方案,使機組髮生危險的可能性降到最低。
본문종절능、안전、인공지능등방면출발,논술료단태추화리제랭궤조수계통、다궤조수계통적자동화공제방안,병차,결합추화리흡수식제랭궤조적운행원리급특점,중점천술료여하재위급적정황,통과합리、완비적자동화공제방안,사궤조발생위험적가능성강도최저。
This article illustrates the automatic control projects of both single-unit water system and multiple-unit water system from such aspects as energy saving, safety, and artificial intelligence in order to popularize people’s understanding of the necessity of the automatic control of LiBr absorption cooling unit (hereafter as LiBr cooling unit or unit for short) and its water system (including cold water system and cooling water system) and to improve the automatic level of unit water system’s operation. With analysis of the running principle and characteristics of LiBr absorption refrigeration unit, this article also demonstrates how to reduce the possibility of danger to the lowest level in the units under urgent conditions by appropriate and mature automatic control projects.
