Turfed terrace reduces the heat gain through the roof slab.
通过屋顶板和露台铺设草皮减少吸热量。
The walls are angled and projected to minimise the east and west sun and reduce heat gain.
墙壁是倾斜的,预计能减少东西向的阳光照射,同时减少热量的获取。
By allowing cross ventilation through the Spaces, heat gain of the building has been reduced.
通过空间中的交叉通风,可以降低建筑的吸热量。
Use plants to shade the building, particularly Windows, to reduce unwanted glare and heat gain.
运用植物对建筑物进行遮阳,尤其在窗户部分,以减少不需要的强光和得热。
The lower the Infrared Transmission Value, the lower the corresponding Solar Heat Gain Coefficient.
愈低的红外线值,太阳能辐射就愈低。
The tower's volumes are individually offset to respond to local climate and mitigate solar heat gain.
高楼的体量单独偏移,以应对当地气候,减少太阳辐射的热量。
The upper level includes north facing highlight Windows designed to allow winter sun passive heat gain.
高层包括朝北的窗户,目的是允许冬日阳光被动得热。
The idea behind the green roofs was to integrate the project into its environment and minimize heat gain.
绿色屋顶背后的想法是使项目融入环境,并减少热量吸收。
Determine heat gain and loss conditions in insulated ducting by reading register temperatures along a run.
沿管线读取通风调节器的温度读数,确定绝缘层的热增量和热损耗。
The team added vertical fins and horizontal shades to the exterior walls to help reduce unwanted heat gain.
该团队在外墙上增加了垂直的散热片和水平的遮光物,帮助减少不必要的热量值。
Windows are deeply recessed to provide depth and texture, while also minimising solar heat gain, the firm added.
窗户都采用了凹入处理,这样显示出窗台深度和纹理,同时也将太阳得热最小化。事务所补充道。
Choose shading methods that allow adequate amounts of daylight into the building while preventing unwanted heat gain.
要选择适当的遮阳方法,让充足的阳光进入建筑物,避免不需要阳光。
The design incorporates passive solar design strategies as proper orientation reduces the solar heat gain dramatically.
该设计采用被动式太阳能设计策略,正确的方向减少了太阳热量的吸收显着。
These panels allow for the maximum transition of natural light, but provide shading from solar heat gain and maximise views.
这些小组允许的最高过渡自然光,但提供遮荫由太阳能和最大化的意见。
The active fins are cylindrical solar tubes that collect energy while also mediating solar heat gain in the interior Spaces.
主动式翘片是一些圆筒形的太阳能管,可以收集能量,同时调整室内空间太阳辐射量。
Fritted glass and a fixed external aluminum shading system help diminish heat gain and maximize views and ambient natural light.
熔结玻璃和固定的外部铝合金遮阳系统,有助于减少热量的吸收,使得可欣赏的景色和周围的自然光得以最大化。
Position the house on the site to best capture sunlight in the winter, and reduce heat gain in the summer where trees provide shade.
该网站上的位置,以最好的房子在冬季捕获阳光,减少夏季遮荫树木的地方提供热量的吸收。
Therefore increasing the heat gain and reducing the heat loss of the windowpane becomes key question in the saving energy technology.
因此,增加窗玻璃的得热量,降低热损耗,已成为节能技术的关键问题。
This mitigates glare and heat gain, while allowing full sunlight to bounce off the shelf and turn the ceiling into an indirect reflector.
这种措施减缓了光照强度和热辐射,同时使得天花上可以得到完全的光照,间接地反射到教室内。
Shading of glass to reduce unwanted heat gain is critical. Unprotected glass is often the greatest source of unwanted heat gain in a home.
玻璃上的遮阳可以减少不需要的得热,这是非常必要的。没有保护的玻璃经常是室内过多不需要得热的主要来源。
The landscaped roofs further mitigate heat gain to increase the comfort of the balconies and terraces, diminishing the energy loads for cooling.
绿化屋顶进一步减少热辐射,增加了阳台和露台的舒适度,减少了冷却所需的能耗。
The major Windows are recessed to block out the direct sun and Aluminum louvers are employed wherever possible to reduce the heat gain and the glare.
凹进去的主窗抵挡阳光直射,尽可能使用铝制天窗以减少辐射热量和强光。
Solar orientation was carefully considered in the placement of exterior windows, which were kept small to minimize direct solar heat gain in the summer.
外窗的布置仔细考虑了太阳方位,保持小尺寸使夏天的直射太阳得热最小。
In the winter, the low sun penetrates glass with a very high solar heat gain coefficient, and heats the floor, which in and of itself ACTS as a thermal mass.
冬天太阳高度低,穿透有很高太阳能吸热系数的玻璃加热地板,地板本身也充当热质。
Reflective roofing reduces heat gain on the facility and a new high performance heating ventilation and air conditioning system vastly improves energy consumption.
反射屋面减少了吸热,新的高性能采暖通风和空调系统大大减少了能源消耗。
With detailed calculation, provides complete data of cooling load coefficients for sensible heat gain from human bodies in rooms with different building envelopes.
通过详细计算,给出了不同围护结构类型房间完整的人体显热散热冷负荷系数数据。
The existing building shell initially consisted of a conventional glass curtain wall without any measures to protect the building from heat gain through solar radiation.
原有建筑外壳最初由传统的玻璃幕墙构成,没有任何措施可防止太阳暴晒。
The primary question is the energy saving in envelope. Solar heat gain of Windows is an important factor that influences the energy consumption of air conditioning in buildings.
建筑节能面临的首要问题是建筑围护结构的节能,而窗的太阳得热量是影响建筑空调能耗的一个非常重要的因素。
Openings were maximized on North-South face to encourage filtered natural light into the building whilst minimizing large openings on west side to reduce heat gain during daytime.
南北面设置了大开口以便过滤自然光进入建筑,同时,将西侧的开口最小化以减少白天的热量进入建筑。
The design team developed a dot pattern for the glass to mitigate heat gain and glare, and text comprising quotes from famous scholars throughout history is layered over the pattern.
设计团队开发了一个点的玻璃模式,以减轻热量吸收,眩光和文本著名学者组成的整个历史报价超过分层模式。
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