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Systematic analysis model on combined heat and water transfer using water potential based on thermodynamics

Ozaki, A.
2003
Journal of Thermal Envelope and Building Science, vol. 27, no. 2, pp. 95-122(28)


Ozaki, A., (2003), "Systematic analysis model on combined heat and water transfer using water potential based on thermodynamics", Journal of Thermal Envelope and Building Science, vol. 27, no. 2, pp. 95-122(28).
Abstract:

Abstract:

A thermodynamic energy "water potential" based on the principles of chemical potential of an element of mixed gas is defined as the driving force of gaseous phase water transfer. Adhesive power or "capillary action" and a portion of the water potential, is confirmed as the driving force of liquid phase water transfer. A numerical model of combined heat and water transfer using the water potential is introduced and influences of forces such as gravity and pressure on water transfer are incorporated from the viewpoint of thermodynamics. A way to estimate diffusivities of gaseous and liquid phase water through porous materials and the thermodynamic relations between such diffusivities and the potential are also shown. Accuracy of the numerical model is demonstrated through a comparison between calculation and experiment for different temperature gradients and water content in a porous material.

Keywords: combined heat and water transfer; driving force of water transfer; diffusivities of heat and water transfer; phase change of gaseous and liquid water; thermodynamic energy; water potential; force potential


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Author Information and Other Publications Notes
Ozaki, A.
Akihito Ozaki, Dr. Eng: Natuural Resources Canada,
  1. Simulation software of the hygrothermal environment of buildings based on detailed thermodynamic models
  2. Systematic analysis model on combined heat and water transfere of gaseous, liquid and solid phase water system, based on thermodynamic energy  



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