建筑热惰性研究进展
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摘要
建筑热惰性的合理利用可以降低室内温度波动,提高舒适度,是被动式建筑设计技术的重要手段之一。文章详细分析了建筑热惰性的理论基础和研究方法,对热惰性主要研究领域进行了归纳整理,并对其研究进展和存在问题进行了总结,指出研究方向和研究重点。
The rational use of thermal inertia in buildings can reduce indoor temperature fluctuations and improve comfort. It is one of the important means of passive architectural design technology. In this paper,the theoretical basis and research methods of building thermal inertia are analyzed in detail. The main research fields of thermal inertia are summarized,and the research progress and existing problems are summarized. The research direction and research focus are pointed out.
The rational use of thermal inertia in buildings can reduce indoor temperature fluctuations and improve comfort. It is one of the important means of passive architectural design technology. In this paper,the theoretical basis and research methods of building thermal inertia are analyzed in detail. The main research fields of thermal inertia are summarized,and the research progress and existing problems are summarized. The research direction and research focus are pointed out.
引文
[1]朱新荣,王润山,杨柳,等.蓄热体对多层建筑室内热环境的作用分析[J].太阳能学报,2013,(8).
[2]Gao M,Reid C N.A simple virtual sphere method for estimating equilibration times in heat treatment[J].International Communications in Heat&Mass Transfer,1997,24(1):79-88.
[3]Li Y,Xu P.Thermal mass design in buildings-Heavy or light[J].International Journal of Ventilation,2006,5(1):143-149.
[4]周军莉.建筑蓄热与自然通风耦合作用下室内温度计算及影响因素分析[D].长沙:湖南大学,2009.
[5]Orosa J A,Oliveira A C.A field study on building inertia and its effects on indoor thermal environment[J].Renewable Energy,2012,37(1):89-96.
[6]Balcomb J D.HEAT STORAGE AND DISTRIBU-TION INSIDE PASSIVE SOLAR BUILDINGS[J].Passive&Low Energy Architecture,1983,(05):547-561.
[7]Ulgen K.Experimental and theoretical investigation of effects of wall’s thermophysical properties on time lag and decrement factor[J].Energy&Buildings,2002,34(3):273-278.
[8]Ogoli D M.Predicting indoor temperatures in closed buildings with high thermal mass[J].Energy&Buildings,2003,35(9):851-862.
[9]Karlsson J,Wads?L,berg M.A conceptual model that simulates the influence of thermal inertia in building structures[J].Energy&Buildings,2013,60(60):146-151.
[2]Gao M,Reid C N.A simple virtual sphere method for estimating equilibration times in heat treatment[J].International Communications in Heat&Mass Transfer,1997,24(1):79-88.
[3]Li Y,Xu P.Thermal mass design in buildings-Heavy or light[J].International Journal of Ventilation,2006,5(1):143-149.
[4]周军莉.建筑蓄热与自然通风耦合作用下室内温度计算及影响因素分析[D].长沙:湖南大学,2009.
[5]Orosa J A,Oliveira A C.A field study on building inertia and its effects on indoor thermal environment[J].Renewable Energy,2012,37(1):89-96.
[6]Balcomb J D.HEAT STORAGE AND DISTRIBU-TION INSIDE PASSIVE SOLAR BUILDINGS[J].Passive&Low Energy Architecture,1983,(05):547-561.
[7]Ulgen K.Experimental and theoretical investigation of effects of wall’s thermophysical properties on time lag and decrement factor[J].Energy&Buildings,2002,34(3):273-278.
[8]Ogoli D M.Predicting indoor temperatures in closed buildings with high thermal mass[J].Energy&Buildings,2003,35(9):851-862.
[9]Karlsson J,Wads?L,berg M.A conceptual model that simulates the influence of thermal inertia in building structures[J].Energy&Buildings,2013,60(60):146-151.