建筑用能约占我国能源消费总量的30%并持续增长,提高建筑围护结构的保温隔热性能是实现建筑节能较为经济有效的重要途径之一。王劲柏教授提出的建筑围护结构排风隔热机制,即是利用室内空调排风的低品位能,直接降低建筑围护结构室内侧表面与室内空气之间的传热温差,削弱室外气候对室内环境的影响,对建筑节能及提高室内热舒适性具有重要意义。
近期,Elsevier旗下期刊Energy、Energy and Buildings、Applied Thermal Engineering在线发表了我院建环系王劲柏教授在新型建筑围护结构领域最新研究成果(Zhang. C., Gang. W.J., Wang. J.B., et al. Numerical and experimental study on the thermal performance improvement of a triple glazed window by utilizing low-grade exhaust air. Energy, 2019, 167: 1132-1143; Wang. J.B., Du. Q.Z., Zhang. C., et al. Mechanism and preliminary performance analysis of exhaust air insulation for building envelope wall. Energy and Buildings, 2018, 173: 516-529; Zhang. C., Gang. W.J., Wang. J.B., et al. Experimental investigation and dynamic modeling of a triple-glazed exhaust air window with built-in venetian blinds in the cooling season. Applied Thermal Engineering, 2018, 140: 73-85.)。
上述三篇文章均以华中科技大学环境科学与工程学院为第一完成单位,文章的通讯作者、及第一作者均分别为我院建环系王劲柏教授、及张冲博士后。Energy、Energy and Buildings、和Applied Thermal Engineering期刊为建筑与能源领域国际知名期刊,均属于SCI A类期刊,最新影响因子分别为4.968、4.457和3.771。
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https://www.sciencedirect.com/science/article/pii/S1359431118307580