Energy-Efficient and Renewable Energy-Supported Buildings in Hot and Humid Regions
Author:
Publisher
Springer Singapore
Link
http://link.springer.com/content/pdf/10.1007/978-981-13-7519-4_9
Reference148 articles.
1. Li X-X (2018) Linking residential electricity consumption and outdoor climate in a tropical city. Energy 157:734–743
2. Jin L, Zhang Y, Zhang Z (2017) Human responses to high humidity in elevated temperatures for people in hot-humid climates. Build Environ 114:257–266
3. Buonocore C, De Vecchi R, Scalco V, Lamberts R (2018) Influence of relative air humidity and movement on human thermal perception in classrooms in a hot and humid climate. Build Environ 146:98–106
4. Biswas BK, Hamada Y (2017) Perception of thermal comfort and prediction of heat stress
5. (PHS) due to heat gain in tropical university classrooms. In: 2nd international conference on physics for sustainable development and technology, 10-11 December 2017, Chittagong, Bangladesh
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