恒温恒湿空调节能控制改造与效果分析
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摘要
针对某档案馆恒温恒湿空调能耗高、调节效果不佳、调节难度大等特点,采用互联网与物联网技术,建立了远程节能监管平台,提出了九宫格型优化调节和间歇运行控制策略,并实施了回风管路的密封改造,实现从恒温恒湿空调的优化调节。所提优化运行策略运行于某档案馆恒温恒湿空调的实际控制,与2016年相比,2017年节电16. 67%,证明了所提优化运行策略的节能有效性,可为同类恒温恒湿空调的节能改造提供参考。
In view of the characteristics of high energy consumption,poor adjustment effect and difficult adjustment of a constant temperature and humidity air conditioner in a certain archives,the remote energy saving supervision platform is set up by Internet and Internet of things technology. The optimal control and intermittent operation control strategies of the 9 th palace type are put forward,and the sealing transformation of the return air pipeline is implemented to realize the constant temperature and humidity air space. The optimized operation strategies runs in the actual control of the constant temperature and constant humidity air conditioning in a certain archives. Compared with 2016,the energy saving is 16. 67% in 2017,which proves the efficiency of the optimized operation strategies,and can provide reference for the energy saving transformation of the same kind constant temperature and humidity air conditioning.
In view of the characteristics of high energy consumption,poor adjustment effect and difficult adjustment of a constant temperature and humidity air conditioner in a certain archives,the remote energy saving supervision platform is set up by Internet and Internet of things technology. The optimal control and intermittent operation control strategies of the 9 th palace type are put forward,and the sealing transformation of the return air pipeline is implemented to realize the constant temperature and humidity air space. The optimized operation strategies runs in the actual control of the constant temperature and constant humidity air conditioning in a certain archives. Compared with 2016,the energy saving is 16. 67% in 2017,which proves the efficiency of the optimized operation strategies,and can provide reference for the energy saving transformation of the same kind constant temperature and humidity air conditioning.
引文
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[7]王小宝,王德义,刘翔,等.表冷器对低温空气降温除湿能力的实验研究[J].建筑热能通风空调,2017,36(11):58-60.
[2]PAVLOGEORGATOS G.Environmental parameters in museums[J].Building and Environment,2003,38(12):1457-1462.
[3]刘晓华.温湿度独立控制空调系统[M].北京:中国建筑工业出版社,2013.
[4]垢秋爽,翁文兵,许亚兵.基于热湿分控的恒温恒湿空调机组性能的研究与分析[J].建筑节能,2016,44(9):6-10.
[5]ASCIONE F,BELLIA L,CAPOZZOLI A,et al.Energy saving strategies in air-conditioning for museums[J].Applied Thermal Engineering,2009,29(4):676-686.
[6]薛殿华.空气调节[M].北京:清华大学出版社,1991.
[7]王小宝,王德义,刘翔,等.表冷器对低温空气降温除湿能力的实验研究[J].建筑热能通风空调,2017,36(11):58-60.