基于TRNSYS的飞机空调保障装备送风特性仿真研究
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摘要
针对飞机地面空调保障时飞机内部出现的结露问题,首先理论分析了飞机地面空调保障装备空调系统;其次利用TRNSYS软件建立飞机地面空调保障装备空调系统的仿真模型,对飞机地面空调保障装备的送风含湿量、送风温度、送风风量和通风时间进行分析,最后讨论了快速、高效的送风状态,为提高飞机地面空调保障效率作理论支撑.
Aiming at moisture condensation of air-conditioning support for airplane, this paper analyzes air-conditioning system of air-conditioning support equipment for airplane theoretically, and sets up the air-conditioning simulation model through Transient System Simulation Program(TRNSYS). Then the influence of different enthalpy humidity ratio and weather conditions to energy consumption are analyzed. Finally the security and efficiency of supplied air state is discussed, which improve air-condition support efficiency of airplane.
Aiming at moisture condensation of air-conditioning support for airplane, this paper analyzes air-conditioning system of air-conditioning support equipment for airplane theoretically, and sets up the air-conditioning simulation model through Transient System Simulation Program(TRNSYS). Then the influence of different enthalpy humidity ratio and weather conditions to energy consumption are analyzed. Finally the security and efficiency of supplied air state is discussed, which improve air-condition support efficiency of airplane.
引文
[1]朱日春·国外飞机地面空调保障装备现状和发展趋势[J].四川工兵学报,2012, 33(10):66-69.
[2]张科,周志刚,吴兆林.飞机地面空调车的应用与发展[J].制冷技术,2009, 37(8):52-55.
[3]唐华杰,吴兆林,周志刚.飞机地面空调车和军用飞机地面液体冷却车的应用及发展[J].流体机械,2006,34(2):72-75.
[4]捐小平,江丰,隋鲁彦,等.基于送风状态的地下工程空调节能运行管理研究[J].暖通空调,2012, 42(9):13-18.
[5]王建奎,陆麟,曾宪纯.温湿度独立控制系统中最小新风量计算方法研究[J].暖通空调,2010, 40(1):29-32
[6] Mortensen D K, Walker L S, Sherman M H. Optimization of occupancy based demand controlled ventilation in residences[J]. Internal Journal Ventilation, 2011, 10(1):49-60.
[7]涂耀东,江宇,葛天舒,等.新型固体吸附除湿空调能耗影响因素分析[J].化工学报,2014, 65(S2):223-227.
[8]胡玮,陈立定,陈锋刚·基于Trnsys的中央空调系统模糊控制仿真[J].低温建筑技术,2012(05):122-124.
[9]吕艳,梁彩华,张小松.基于TRNSYS的热湿分段空调系统仿真[J].建筑热能通风空调,2013, 32(4):11-14.
[10]郑春元,翟晓强,吴静怡,等.基于TRNSYS的冷热电联供系统建模与蓄能策略分析[J].化工学报,2015,66(S2):311-318.
[11]季科,张永贵,刘冰冰.基于TRNSYS的空调水系统仿真平台[J].暖通空调,2015, 5(45):93-96.
[2]张科,周志刚,吴兆林.飞机地面空调车的应用与发展[J].制冷技术,2009, 37(8):52-55.
[3]唐华杰,吴兆林,周志刚.飞机地面空调车和军用飞机地面液体冷却车的应用及发展[J].流体机械,2006,34(2):72-75.
[4]捐小平,江丰,隋鲁彦,等.基于送风状态的地下工程空调节能运行管理研究[J].暖通空调,2012, 42(9):13-18.
[5]王建奎,陆麟,曾宪纯.温湿度独立控制系统中最小新风量计算方法研究[J].暖通空调,2010, 40(1):29-32
[6] Mortensen D K, Walker L S, Sherman M H. Optimization of occupancy based demand controlled ventilation in residences[J]. Internal Journal Ventilation, 2011, 10(1):49-60.
[7]涂耀东,江宇,葛天舒,等.新型固体吸附除湿空调能耗影响因素分析[J].化工学报,2014, 65(S2):223-227.
[8]胡玮,陈立定,陈锋刚·基于Trnsys的中央空调系统模糊控制仿真[J].低温建筑技术,2012(05):122-124.
[9]吕艳,梁彩华,张小松.基于TRNSYS的热湿分段空调系统仿真[J].建筑热能通风空调,2013, 32(4):11-14.
[10]郑春元,翟晓强,吴静怡,等.基于TRNSYS的冷热电联供系统建模与蓄能策略分析[J].化工学报,2015,66(S2):311-318.
[11]季科,张永贵,刘冰冰.基于TRNSYS的空调水系统仿真平台[J].暖通空调,2015, 5(45):93-96.