论文信息 - Coupling of thermal mass and natural ventilation in buildings

Coupling of thermal mass and natural ventilation in buildings

The coupling of thermal mass and natural ventilation is important to passive building design. Thermal mass can be classified as external thermal mass and internal thermal mass. Due to great diurnal variation of ambient air temperature and solar radiation intensity, heat transfer through building envelopes, which is called external thermal mass, is a complex and unsteady process. Indoor furniture are internal thermal mass, affecting the indoor air temperature through the process of absorbing and releasing heat. In this paper, a heat balance model coupling the external and internal thermal mass, natural ventilation rate and indoor air temperature for naturally ventilated building is developed. In this model, the inner surface temperature of building envelopes is obtained based on the harmonic response method. The effect of external and internal thermal mass on indoor air temperature for six external walls is discussed of different configurations including lightweight and heavy structures with and without external/internal insulation. Based on this model, a simple tool is developed to estimate the indoor air temperature for certain external and internal thermal mass and to determine the internal thermal mass needed to maintain required indoor air temperature for certain external wall for naturally ventilated building.

[1] Hongfa Di,et al. Ideal thermophysical properties for free-cooling (or heating) buildings with constant thermal physical property material , 2006 .

[2] P. T. Tsilingiris. Parametric space distribution effects of wall heat capacity and thermal resistance on the dynamic thermal behavior of walls and structures , 2006 .

[3] Zuohuan Zheng,et al. Nonlinear coupling between thermal mass and natural ventilation in buildings , 2003 .

[4] V. Geros,et al. Experimental evaluation of night ventilation phenomena , 1999 .

[5] H. Asan,et al. Effects of Wall's thermophysical properties on time lag and decrement factor , 1998 .

[6] Jan Kosny,et al. Influence of insulation configuration on heating and cooling loads in a continuously used building , 2002 .

[7] Francis W.H. Yik,et al. Influence of thermal insulation position in building envelope on the space cooling of high-rise residential buildings in Hong Kong , 2001 .

[8] Baruch Givoni,et al. Comfort, climate analysis and building design guidelines , 1992 .

[9] Jerald D. Parker,et al. Heating, Ventilating, and Air Conditioning: Analysis and Design , 1977 .

[10] Murray Milne,et al. Effects of window size and thermal mass on building comfort using an intelligent ventilation controller , 2004 .

[11] Francis Allard,et al. Night ventilation for building cooling in summer , 1997 .

[12] Pengcheng Xu,et al. Thermal Mass Design in Buildings – Heavy or Light? , 2006 .