外遮阳

同时设计增加隔声预测设计、可调节外遮阳、CFD模拟优化、隔音窗、过度季节新风利用，删减措施地板辐射采暖、入住前加强通风。

At the same time , increase measures : the sound insulation design , adjustable sunshade , CFD simulation optimization , soundproof Windows , outside fresh air using excessive season , reduce measures : floor radiant heating , strengthen ventilated before check-in .

南昌市住宅固定外遮阳研究

The Research of Residential Fixed Brise-soleil Outside in the Nanchang City

建筑节能65%中活动外遮阳的贡献率

Contribution rate of active exterior-shading in building energy efficiency 65 % situation

外遮阳系统在夏热冬冷地区住宅建筑中的应用

Application of External Sunshade System in Residential Architecture in Summer-hot and Winter-cold Area

由于种种原因，大部分居住建筑并没有正确使用外遮阳设施。

But external shade facilities are not correctly used in the most residential architecture .

百叶外遮阳太阳散射辐射计算模型及程序实现

Calculating Model of Solar Diffuse Radiation Transporting Through External Blinds and It 's Program Realization

遮阳板属于水平外遮阳。

Lateral torsional buckling of gusset plate ; Shade is one kind of horizontal outside shading .

适合的可调节系统包括：水平滑动屏风式，天窗式遮阳棚，曲臂遮阳棚和可调节式外遮阳百叶。

Appropriate adjustable systems include sliding screens , louvre screens , shutters , retractable awnings and adjustable external blinds .

固定外遮阳有水平、垂直和综合（格栅）外遮阳三种形式。

There are three forms of fixed external shading device , which are horizontal device , vertical device and synthesis device .

基于对设计策略的研究，开发了可广泛推广应用的一种高能效活动外遮阳装置。

Based on the design strategy of horizontal external shading , we develop " An energy-efficient activities shading devices ", which can be widely applied .

当前的发达国家中，外遮阳产品已经形成了独立的研究体系，而我国在此方面还有待加强。

In developed countries , the exterior shading products has formed an independent research system , while China has yet to be strengthened in this field .

在研究通风负荷时着重研究了通风季节固定外遮阳计算方法。

In the study of the ventilation load , this paper focuses on studying the shading coefficient calculation methods of the fixed outside shade of ventilation season .

采用夏季外遮阳结合通风可以有效减少南向集热蓄热墙体82%的太阳得热，进一步降低室内温度1～2℃。

Massive wall with shading and ventilation can prevent 82 % solar energy in summer , and can more reduce indoor air temperature by1 ~ 2 ℃ .

文章分析了住宅建筑遮阳的现状及市场上可供选择的遮阳系统，重点阐述了夏热冬冷地区住宅外遮阳系统的应用。

The article analyzes the status quo of residential architecture sunshade and alternative sunshade system on the market and emphasizes the ap - plication of external sunshade system in summer-hot and winter-cold area .

窗户是居住建筑围护结构的薄弱环节，增加外遮阳设施是提高窗户保温隔热性能的主要技术措施之一。

Windows is a weak part of buildings ' external retaining structures , setting window external shade facilities is one of the main technology methods to improve windows ' heat-preserving and insulation functions .

本文分析了室内气流速度、设置外遮阳、幕墙朝向、玻璃类型和玻璃夹层的填充气体等因素对玻璃幕墙建筑能耗的影响。

This paper analyzes the influence of indoor air velocity and the effects of setting of exterior shade , direction of glass curtain wall , glass types and glasses filled different gas on energy consumption in glass curtain buildings .

结果表明，提高室内气流速度、在建筑室外种植树木或设置外遮阳、合理的玻璃性能组合是玻璃幕墙建筑夏季节能的有效措施。

Conclusion shows that the energy saving measures availably include the enhancement of indoor air velocity , the planting of trees as well as the setting of exterior shade , reasonable glasses composition and so on in summer in glass curtain wall buildings .

降低室内温度设定、冷水机组台数和容量比例合理配置、照明合理控制、降低照明功率密度、合理选择新风指标、设置外遮阳和合理选择冷水机组容量等节能手段具有良好的综合评价，适宜推广。

Lower indoor temperature settings , the number and the capacity of water chiller units , lighting reasonable control , reducing lighting power density , reasonable choice of the new wind indicator , set shading and reasonable choice chiller capacity has a good comprehensive evaluation , suitable for promotion .

建筑外窗遮阳技术的研究与应用

Research and Application of Shading Technology for External windows

随外窗遮阳系数的增大，建筑能耗呈线性增长。

With the shading coefficient of windows increasing , building energy consumption increase linearly .

夏热冬冷地区外窗遮阳对居住建筑能耗的影响

The impact of the external window shading on residential energy consumption in Hot summer and cold winter areas

外窗遮阳能降低建筑能耗，活动遮阳的效果好于固定遮阳。

Windows with sun-shading can reduce energy consumption of buildings . The effect of windows with mobile shading is better than that of fixed shading .

外窗遮阳系数对各朝向建筑能耗的影响大小为：西向东向北向南向。

The impact of shading coefficient of windows on the direction of energy consumption as follows : the West the East the North the South .

本文详细的分析了外窗遮阳（包括外遮阳、内遮阳、前景物遮阳和百叶遮阳）的光学和热工性能，提出了建筑遮阳性能的实验检测方法，以及研制了相应实验测试装置。

Based on detailed analysis for optics and thermal performance of windows shading devices ( including external shading , internal shading , object shading , and blind shading ), experimental testing method for building performance and corresponded testing facility are brought forward and developed .

外窗与遮阳系统施工技术

Construction technology for external window and sun-shading system

介绍了外窗不同的遮阳技术，分析了综合外遮阳技术在夏热冬冷地区的适应性。

This article introduces the different sun - shading technologies of external window and analyzes the adaptability of comprehensive external sun - shading technology in hot-summer and cold-winter area .