1) area ratio of window to wall
窗墙面积比
1.
Influence of area ratio of window to wall on heating energy consumption in residential buildings;
居住建筑窗墙面积比对供暖能耗的影响研究
2.
Defining the area ratio of window to wall in "Design standard for energy-efficiency of residential buildings in hot summer and cold winter zone;
《夏热冬冷地区居住建筑节能设计标准》中窗墙面积比的确定
3.
Taking high-rise apartment as object, based on the characteristic temperature method, studies the influence of area ratio of window to wall on the heating and cooling energy consumption and their relative variation rates when the same improvement measure is taken to the building.
以高层公寓式居住建筑为对象,利用特征温度法研究了对建筑采取相同改进措施时窗墙面积比对建筑冷热耗量和能耗相对变化率的影响,并分析了当建筑体形系数不同时,窗墙面积比对全年空调与供暖冷热耗量指标以及采取相同节能措施建筑的全年空调与供暖节能量及节能率的影响。
2) void-solid ratio
门窗墙面积比
3) area ratio of skylight to roof
天窗面积比
1.
Taking an office building with atrium skylight as an example,analyses the effect of area ratio of skylight to roof and behaviour of different types of glass commonly used on solar heat gain,cooling load,heating load and energy consumption of atria and energy consumption of buildings in different climatic zones in China.
以有中庭天窗的典型办公建筑为例,分析天窗面积比和工程中常用玻璃对不同气候分区中庭夏季太阳辐射得热、中庭空调冷热负荷及能耗、建筑能耗的影响。
4) area ratio of window to envelope
窗围面积比
5) window-wall ratio
窗墙比
1.
Influence of window-wall ratio on annual energy consumption for heating and air conditioning in residential buildings;
窗墙比对住宅供暖空调总能耗的影响
2.
Analysis on influence of east-facing and west-facing window-wall ratios on office building energy consumption in Nanjing area;
南京地区东西向建筑窗墙比对办公建筑能耗影响分析
6) area ratio of window to wall
窗墙比
1.
Effects on residential buildings from area ratio of window to wall in hot summer and cold winter zone;
夏热冬冷地区窗墙比对建筑能耗的影响
2.
Changes of heating energy consumption and PMV with the area ratio of window to wall were obtained,which was also analyzed through indoor heat load and mean PMV.
采用SCIENCE软件对南京地区冬季某日一变频空调房间的热环境进行数值模拟,得出了采暖能耗和PMV随外墙构造和窗墙比的变化规律,并通过室内加热量和平均PMV对其进行分析。
补充资料:比表面积
分子式:
CAS号:
性质:单位体积或单位质量固体的表面积,通常用1g固体的总表面积表示。由于制备条件的不同,固体与气相接触的表面大小可有很大差异。多孔性和细碎性固体的表面积包括内表面和外表面,内表面由其内部孔隙和裂缝缝隙面积构成,外表面是固体外部的几何面积,二者之和为总表面积。比表面通常用物理吸附法测定,如BET容量法、重量法、流动色谱法等。有时也可用液相吸附法测定。对比表面大于1m2/g的样品常用低温氮吸附容量法或流动法,而小表面则用低温氪吸附法。对于非孔性固体,也可根据测出的粒子大小计算比表面。
CAS号:
性质:单位体积或单位质量固体的表面积,通常用1g固体的总表面积表示。由于制备条件的不同,固体与气相接触的表面大小可有很大差异。多孔性和细碎性固体的表面积包括内表面和外表面,内表面由其内部孔隙和裂缝缝隙面积构成,外表面是固体外部的几何面积,二者之和为总表面积。比表面通常用物理吸附法测定,如BET容量法、重量法、流动色谱法等。有时也可用液相吸附法测定。对比表面大于1m2/g的样品常用低温氮吸附容量法或流动法,而小表面则用低温氪吸附法。对于非孔性固体,也可根据测出的粒子大小计算比表面。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条