建筑节能
建築節能
건축절능
CONSTRUCTION CONSERVES ENERGY
2014年
11期
45-48
,共4页
戴绍斌%彭瑶%黄俊%熊明非
戴紹斌%彭瑤%黃俊%熊明非
대소빈%팽요%황준%웅명비
夏热冬冷地区%办公建筑%窗墙比%综合能耗
夏熱鼕冷地區%辦公建築%窗牆比%綜閤能耗
하열동랭지구%판공건축%창장비%종합능모
hot summer and cold winter area%office building%window wall ratio%comprehensive ener-gy consumption
选取了夏热冬冷地区的4个代表性城市,以一个实际的办公建筑为基础,利用eQuest软件建立了分析模型,分析了考虑窗户自然采光时,夏热冬冷地区办公建筑的综合能耗随着建筑窗墙比的变化而变化的规律。分析结果表明:建筑的综合能耗随着建筑窗墙比的增加呈现出先减小后增加的趋势,存在一个使得建筑综合能耗最小的窗墙比最优区间,对于本模型,窗墙比的最优区间为0.5~0.6。
選取瞭夏熱鼕冷地區的4箇代錶性城市,以一箇實際的辦公建築為基礎,利用eQuest軟件建立瞭分析模型,分析瞭攷慮窗戶自然採光時,夏熱鼕冷地區辦公建築的綜閤能耗隨著建築窗牆比的變化而變化的規律。分析結果錶明:建築的綜閤能耗隨著建築窗牆比的增加呈現齣先減小後增加的趨勢,存在一箇使得建築綜閤能耗最小的窗牆比最優區間,對于本模型,窗牆比的最優區間為0.5~0.6。
선취료하열동랭지구적4개대표성성시,이일개실제적판공건축위기출,이용eQuest연건건립료분석모형,분석료고필창호자연채광시,하열동랭지구판공건축적종합능모수착건축창장비적변화이변화적규률。분석결과표명:건축적종합능모수착건축창장비적증가정현출선감소후증가적추세,존재일개사득건축종합능모최소적창장비최우구간,대우본모형,창장비적최우구간위0.5~0.6。
Four typical cities are selected from hot summer and cold winter area. The analysis model is established based on a real office building with eQuest software to analyze the comprehensive energy consumption of the building varied by the increasing of the window wall ratio. The results show that the building comprehensive energy consumption decreased first, then increased, existing a best window wall ra-tio range which makes the building comprehensive energy consumption gets the minimum, and the best window wall ratio range is 0.5~0.6 for this model.
