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bipv

  • 网络光伏建筑一体化;建筑一体化;一体化;光电建筑一体化
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  1. Air conditioning load characteristics and energy saving strategies of BIPV buildings

    光伏建筑一体化建筑空调负荷特点及节能对策分析

  2. Study of BIPV Design in Modern Building Skin

    现代建筑表皮的光伏一体化设计研究

  3. In different regions , different climatic conditions on the BIPV design produce different effects .

    在不同的地区,不同的气候条件对BIPV设计产生不同的影响。

  4. BIPV : a strategic solution for Urban Building Energy saving

    太阳能&建筑一体化:城市建筑节能的战略选择

  5. Application and development of grid-connected building - integrated photovoltaic ( BIPV ) system

    光伏建筑一体化(BIPV)并网电站的应用与发展

  6. Application of Technology of BIPV in Foreign

    国外太阳能光电技术应用

  7. In recent years , China also issued some dedicated to promoting BIPV , however implementation effect is not good .

    我国近年来也出台了一些致力于推广光伏建筑的政策,然而实施效果并不理想。

  8. Part two deals with the interaction between the BIPV and microclimate in urban environments .

    因此,光伏系统对于建筑和城市热环境都会有影响。

  9. Performance evaluation of PV arrays at different tilt angles and orientations in BIPV

    BIPV中光伏阵列朝向和倾角对性能影响理论研究

  10. Building integrated PV ( namely BIPV ) both in theory and practice field has been greatly improved .

    光伏与建筑一体化(也即BIPV)无论在理论还是在实践领域都得到了极大的发展和提高。

  11. BIPV design by climatic factors , will lead to PV system power generation efficiency and building indoor physical environment changes .

    BIPV设计受到气候因素的影响,会导致PV系统发电效率和建筑室内物理环境的改变。

  12. In order to give full play to the construction of the ecological nature of photovoltaic power generation is proposed BIPV design .

    为了在建筑中充分发挥光伏发电的生态性,提出了BIPV设计理念。

  13. BIPV and its implementation in us

    太阳能光伏-建筑一体化及其在美国的实施

  14. Practice of the developed countries that Feed-in tariff is the most effective policy for BIPV promotion .

    发达国家的实践表明上网电价是目前光伏建筑推广最为有效的政策。

  15. The prospect of BIPV in China

    建筑物用光伏集成系统在中国应用的前景

  16. And a preliminary analysis of the climate in different partitions for BIPV design of the climatic factors should be considered .

    并初步分析了在不同的气候分区下BIPV设计中应考虑的气候因素。

  17. Then explore the solar radiation , temperature , wind and rain and snow and so the impact on the BIPV design .

    然后探讨了太阳能辐射、温度、风和雨雪等对BIPV设计的影响。

  18. Solar low iron glass can be used as both front panel glass of thin-film solar cell and decoration glass for BIPV program .

    太阳能超白玻璃可以作为薄膜太阳能电池的前板玻璃和封装玻璃。

  19. This paper discusses the potential and prospect of building-integrated photovoltaics ( BIPV ) for solar electrical power generation in China .

    论述了建筑物用光伏集成系统(BIPV)在中国用于太阳能发电的潜力和前景。

  20. The advantages of Building Integrated Photovoltaic ( BIPV ) and the system structure are introduced in detail , the development trend of BIPV is also mentioned .

    详细介绍了太阳光伏&建筑一体化(BIPV)的优越性和系统结构;同时也对其发展趋势做了分析。

  21. Compared with normal buildings , BIPV / T reduces the air conditioning load caused by indoor heat gain through the wall and improves building energy efficiency .

    与常规建筑相比,光伏光热建筑减少了墙体得热,改善了室内空调负荷状况,提高了建筑节能效果。

  22. The working principle and development trend of the building-integrated photovoltaic ( BIPV ) system were analyzed , as well as various related issues and relevant recommendations .

    分析了太阳能光伏技术与建筑一体化(BIPV)的趋势、存在的各种问题及其建议。

  23. BIPV which satisfies the architectural requirements for a visually acceptable solution , without compromising the technical performance of the roof and the solar power system ;

    光伏是符合建筑要求的视觉接受的解决办法,不影响技术性能和屋顶的太阳能发电系统;

  24. The BIPV technology has been identified as the most economical renewable energy resource to contribute to world electrical energy demand for protecting environment from reduced fossil fuel consumption .

    为了保护环境,减少矿物能源的消耗,并满足人们对电力的需求,BIPV被认为是最经济的利用可再生能源的技术。

  25. In BIPV system , PV as building materials is easy to form shadow due to its installation angle of orientation and other buildings , resulting in lower system energy conversion efficiency .

    在BIPV系统中,光伏组件作为建筑物表面材料由于其安装角度、方位及其他建筑物的影响,容易形成阴影,导致系统能量转换效率较低。

  26. The available solar energy resource of 14 cities and the potential power generation from PV claddings in buildings in China were estimated . The economical analysis of BIPV application is discussed .

    计算了中国14个城市的太阳能资源,估算了建筑物用光伏集成系统的发电潜力,分析了BIPV技术应用的经济性。

  27. Aiming at this problem , based on the newly development of theory and technology , conformed to the current " interdisciplinary " trend , this paper explores a new BIPV integration model & BIM-BIPV .

    针对这个问题,本文基于理论与技术的发展,顺应当今学科交叉的时代潮流,探索了一种新的BIPV整合模式&BIM-BIPV。

  28. Growing concerns about energy crisis and environmental issues have attracted a great deal of interest in the development and application of the building integrated photovoltaic ( BIPV ) system using the nonpolluting renewable solar energy .

    随着人们对能源危机与环境问题的日益关注,以清洁、可再生的太阳能为能源的建筑集成光伏(BIPV)系统的开发和应用吸引了世界各国广泛的兴趣。

  29. This paper mainly describes the new direction of application of technology of BIPV in foreign and introduces the related policy . The author hopes that this paper will have enlightenment and reference effect to the use of civil solar energy , new technology and material .

    主要论述国外利用太阳能光电技术的新动向,新趋势,并介绍与之相关的政策,希望此文能对国内在太阳能利用,使用新技术和选择新材料时起一定的启发和借鉴作用。

  30. Building Integrated PV ( BIPV ) as one of the main areas of solar applications can improve building energy efficiency , and becomes an important indicator of a " green building ", so it has important significance to solve environmental pollution and the energy crisis .

    光伏建筑一体化(BIPV,BuildingIntegratedPV)作为太阳能应用的主要领域之一,提高了建筑物能效,成为绿色建筑的一项重要指标,对解决环境污染和能源危机有着重要的意义。