Numerical analysis of thin building envelope-integrated phase change material towards energy-efficient buildings in severe hot location
Author:
Publisher
Elsevier BV
Subject
Transportation,Renewable Energy, Sustainability and the Environment,Civil and Structural Engineering,Geography, Planning and Development
Reference60 articles.
1. Comfort and economic aspects of phase change materials integrated with heavy-structure buildings in hot climates;Abd El-Raheim;Applied Thermal Engineering,2022
2. Energy and thermo-economic analysis of PCM integrated brick in composite climatic condition of Jaipur - A numerical study;Agarwal;Sustainable Cities and Society,2022
3. Towards Sustainable development: building's retrofitting with PCMs to enhance the indoor thermal comfort in tropical climate, Malaysia;Al-Absi;Sustainability,2021
4. Application and sensitivity analysis of the phase change material hysteresis method in EnergyPlus: A case study;Al-Janabi;Applied Thermal Engineering,2019
5. Energy-saving of building envelope using passive PCM technique: A case study of Kuwait City climate conditions;Al-Rashed;Sustainable Energy Technologies and Assessments,2021
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