机译:建筑围护结构的湿热特性:节能效果的可靠性
University of PreSov, Faculty of Management, Department of Quantitative Methods and Managerial Informatics, KonStantinova 16,0800J PreSov, Slovak Republic;
Vienna University of Technology, Institute for Building Construction and Technology, Research Centre of Building Physics and Sound Protection, Karlsplatz 13/206-2,1040 Vienna,Austria;
University of PreSov, Faculty of Management, Department of Quantitative Methods and Managerial Informatics, KonStantinova 16,0800J PreSov, Slovak Republic;
Vienna University ofTechnology, Institute for Building Construction and Technology, Research Center of Building Construction and Maintenance, Karlsplatz 13/206-4,1040 Vienna,Austria;
ENERGO-CT s.r.o., Hviezdoslavova 7,040 01 KoSice, Slovak Republic;
University of PreSov, Faculty of Management, Department of Quantitative Methods and Managerial Informatics, KonStantinova 16,0800J PreSov, Slovak Republic;
Vienna University of Technology, Institute for Building Construction and Technology, Research Centre of Building Physics and Sound Protection, Karlsplatz 13/206-2,1040 Vienna,Austria;
moisture; insulation; nondestructive method; building; hygrothermal; energy saving;
机译:现有公共建筑节能改造中围护结构的热性能优化
机译:基于参数和自动化GIS应用程序,以计算恢复零零能量建筑物的建筑信封的节能(NEZEB)。西班牙萨拉戈萨的案例研究
机译:在建筑物能源模拟模型中集成了用于信封的湿热传递模型:HAM-BES协同模拟方法的实验验证
机译:在热带和潮湿的亚热带气候区建筑信封替代木材替代木材的评估 - 第1部分湿热特性试验
机译:在建筑信封中使用生物产品/相变材料复合材料,用于构建热控制和节能
机译:利用高分辨率数据改善节能过程:以大学建筑为例
机译:建筑包络自适应防水屏障的水分控制和能效潜力的湿热分析