Optimum insulation thickness of external walls by integrating indoor moisture buffering effect: a case study in the hot-summer-cold-winter zone of Chinadoi:10.1631/2023.A2200158Journal of Zhejiang University-SCIENCE A - In the high-humidity, hot-summer-cold-winter (HSCW) zone of China, the ...
Optimum insulation thickness of external walls by integrating indoor moisture buffering effect: a case study in the hot-summer-cold-winter zone of China In the high-humidity, hot-summer-cold-winter(HSCW) zone of China, the moisture buffering effect in the envelope is found to be significant in...
In the high-humidity, hot-summer-cold-winter (HSCW) zone of China, the moisture buffering effect in the envelope is found to be significant in optimum insulation thickness. However, few studies have considered the effects of indoor moisture buffering on the optimum insulation thickness and energy...
(2012). Optimum design for indoor humidity by coupling Genetic Algorithm with transient simulation based on Contribution Ratio of Indoor Humidity and Climate analysis. Energy and Buildings, 47, 208-216.H. Huang, S. Kato, R. Hu, Optimum design for indoor humidity by coupling Genetic Algorithm ...
The number of people who use airplanes has increased year by year. However, most passengers have a feeling of discomfort during a long-distance flight. One of the factors is the lack of temperature control in the cabin. If air conditioning control can be
As heat is required during the winter, the optimum position of the PCM-sheet was moved closer to the indoor environment to benefit from the stored heat for heating. However, for the entire year, the third position was the optimum one. They stated that the optimum PCM's position is the ...