太阳能光伏建筑一体化

本文从太阳能光伏建筑一体化发展入手,介绍了太阳能光伏建筑一体化的定义、原理、类型、方式、特点和要求;论述了薄膜光电池在太阳能光伏建筑一体化的发展及优势,列举了一些国内外安全,光伏建筑一体化太阳能将成为动效最佳、价格最低廉的替代新能源,太阳能光伏建筑一体化发展任重道远。     

浅谈太阳能光伏建筑一体化

论述了太阳能光伏建筑一体化的定义、原理、类型、方式、特点和要求;光伏建筑一体化太阳能将成为功效最佳、价格最低廉的替代新能源。太阳能光伏建筑一体化发展任重道远。     

太阳能光伏建筑一体化

从当前世界金融危机促进太阳能光伏建筑一体化发展的观点入手,论述了太阳能光伏建筑一体化的定义、原理、类型、方式、特点和要求,介绍了薄膜光电池在太阳能光伏建筑一体化的发展及优势,列举了一些国内外案例,光伏建筑一体化太阳能将成为功效最佳、价格最低廉的替代新能源,太阳能光伏建筑一体化发展任重道远。     

上海世博会太阳能光伏建筑

上海世博会太阳能光伏建筑一体化（BIPV）工程的建成,成为目前亚洲和中国总容量前列的光伏建筑一体化（BIPV）并网光伏电站,是我国并网光伏发电领域的成功典范,居中国光伏建筑一体化（BIPV）并网太阳能发电的里程碑。上海世博会太阳能光伏建筑一体化工程难度高、工程交叉多、技术先进、系统复杂、质量要求高,本文介绍太阳能光伏建筑一体化工程特点、工程组成、工程实施等,对同类太阳能系统工程有一定的参考价值。     

光伏建筑门窗幕墙——现代建筑的夸父追日

本文从太阳能改变生活,让建筑和太阳能融合起来的太阳能建筑一体化,我国城市发展中的光伏建筑一体化,光伏建筑在门窗幕墙业中的应用,建筑门窗幕墙用光伏组件,光伏建筑一体化建筑的问题与对策以及光伏建筑门窗的日渐平民化等七个方面介绍了太阳能建筑一体化,特别是建筑玻璃幕墙光伏一体化的应用及发展,为实现进一步的节能减排,大力推广使用太阳能等可再生能源是一个大趋势。其中,太阳能建筑一体化无疑是今后发展的重要方向。     

太阳能光伏与建筑屋顶一体化构造深化研究

随着全球城市环保节能需求的不断增加及太阳能开发技术的日益发展,光伏建筑一体化技术势必主导未来建筑工程对新能源利用的潮流.我国东南沿海地区太阳能资源丰富,深化该地区建筑屋顶太阳能光伏一体化构造设计,既可以加快光伏建筑一体化技术在我国建筑领域的应用与推广,又可以实现一种独特的建筑艺术效果,为光伏建筑一体化在国内建筑领域的应...     

瓦型光伏构件在住宅建筑中的应用

屋面开发利用太阳能电力具有采光角度好、替代成本高、输变电成本低、安装维护方便等特点。将光伏发电部件与建筑完美结合是光伏建筑一体化（NPV）的重要内容。秦砖汉瓦在我国建筑文化中历史悠久，将太阳能电池与建筑瓦片结合形成瓦型光伏构件是实现屋面光伏建筑一体化的手段之一。瓦型光伏构件兼具光伏发电部件和建筑材料的属性，研究其技术特点、应用环境和施工方法，对推动屋面光伏建筑一体化具有重要意义。     

太阳能光伏建筑一体化关键技术问题研究

太阳能光伏建筑一体化是建筑节能的一种典型形式。分析了光伏发电的基本原理特性,基于M atlab仿真平台对光伏电池组件的输出特性进行了研究。介绍了光伏建筑一体化的定义、类型,结合光伏电池特性与建筑施工的工艺要求,论述了光伏建筑一体化施工中应该注意的关键技术问题,对提高其发电效率及降低光伏建筑一体化初期投入成本具有现实意义。     

太阳能光伏建筑一体化探讨

太阳能光伏建筑一体化在我国尚处在起步发展阶段,设计时应充分考虑建筑用电需求特性、一体化形式、成本效益等多方面因素,避免盲目上马,做到科学合理利用。随着科学技术的不断进步,光伏建筑一体化水平将不断提高,太阳能光伏建筑一体化将成为未来光伏应用中的重要领域之一。     

光伏建筑一体化组件及应用

对光伏建筑一体化的组件和工程应用进行了介绍。光伏建筑一体化作为太阳能应用的新形式有很多优势。光伏建筑组件主要分为晶体硅电池和薄膜电池两种类型,与建筑的结合形式主要有光伏幕墙、光伏屋顶和光伏遮阳板。     

杭州东站10MWp光伏建筑一体化示范项目简介

通过介绍杭州东站10MWp光伏建筑一体化项目,推广太阳能发电用户侧并网或高压上网并网等成熟可靠的先进技术;利用现有、新建或改扩建公共项目屋顶,建设太阳能光电建筑,同时与建筑风格有效结合,实现建筑与太阳能一体化。     

基于美观性的光伏建筑一体化应用研究

太阳能作为一种洁净的可再生能源,优点突出,技术成熟,政策支持。光伏建筑一体化对建筑节能有很大的贡献,但太阳能电池对建筑物美观的影响制约了其发展,在这方面进行设计研究,提出可行性的探索,可以让光伏建筑更美。     

Compromises between form and function in grid-connected,building-integrated photovoltaics (BIPV) at low-latitude sites

The integration of photovoltaic (PV) modules on building façades and rooftops is an ideal application of solar electricity generators in the urban environment. Maximum annual performance of grid-connected PV is usually obtained with modules tilted at an angle equal to the site latitude, facing the equator. The performance of PV systems not tilted and oriented ideally can drop considerably, depending on site latitude. With grid parity – when the cost of solar electricity becomes competitive with conventional electricity – expected in many countries in the present decade, a more widespread application of PV on buildings is expected, and in this context the main goal of this paper is to demonstrate that good compromises between form and function are possible. In this work we compare the annual energy generation of a curved BIPV system installed as a car port rooftop, with an ideally-oriented and tilted, flat BIPV system installed as a building’s rooftop cover at a low-latitude site (27°S). For the one-year period analysed, the curved-shape BIPV system annual yield was 12% lower than that of the reference BIPV system, and during the summer months (November to February), the curved BIPV installation presented a higher energy yield than the latitude-tilted generator. With these results we show that a good compromise can be reached between form and function in BIPV systems.     

Impacts of the shading-type building-integrated photovoltaic claddings on electricity generation and cooling load component through shaded windows

The shading-type building-integrated photovoltaic (BIPV) claddings can act as power generators as well as external shading devices of a building, which reduce the energy consumption of the building. However, there is little information about energy impacts of different tilt angles of the shading-type BIPV claddings. By considering the typical meteorological conditions of Hong Kong, the energy performance of the shading-type BIPV claddings, in terms of the electricity generation and the cooling load reduction, is analyzed in this paper. The optimum tilt angle of PV modules for maximum electricity generation is found to be 20° instead of local latitude. Combining electricity generation and cooling load reduction, it can be concluded that the optimum tilt angles for the first type of the shading-type BIPV claddings vary from 30° to 50°, while the optimum tilt angle for the second type is 0°.     

Building-integrated photovoltaics (BIPV) in architectural design in China

Building-Integrated Photovoltaics (BIPV) are one of the best ways to harness solar power, which is the most abundant, inexhaustible and clean of all the available energy resources. This paper discusses issues concerning BIPV in architectural design in China, including how to choose between BIPV and building-attached photovoltaics (BAPV), whether it is necessary for photovoltaic components to last as long as buildings and how to design BIPV structures. The paper shows that we should consider the function, cost, technology and aesthetics of BIPV, rather than solely the high integrations. According to developments in technology and markets, photovoltaic structures and design should be focused on the maintenance and replacement of photovoltaic cell modules, rather than simply prolonging their lives. To solve problems associated with the existing photovoltaic structures in China, we design a building photovoltaic structure that allows convenient maintenance and replacement of photovoltaic components.     

太阳能与建筑一体化的实证研究

太阳能与建筑一体化作为21世纪最重要的新兴产业之一,已经引起各国的高度重视。本文介绍太阳能与建筑一体化方面的一些基本情况,通过一些案例,介绍几种太阳能与建筑物相结合的情况。     

Model for calculating the sustainable building index (SBI) in the kingdom of Bahrain

We have developed a model that allows players in the building and construction sector and the energy policy makers on energy strategies to be able to perceive the interest of investors in the kingdom of Bahrain in conducting Building Integrated Photovoltaic (BIPV) or Building integrated wind turbines (BIWT) projects, i.e. a partial sustainable or green buildings. The model allows the calculation of the Sustainable building index (SBI), which ranges from 0.1 (lowest) to 1.0 (highest); the higher figure the more chance for launching BIPV or BIWT.     

光伏光热建筑一体化对建筑节能影响的理论研究

对光伏光热建筑一体化(BIPV／T)的两种主要模式建立了理论模型，采用香港地区典型年的气象数据对两种BIPV／T模式的热性能进行了计算分析。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。     

现代建筑表皮的光伏一体化设计研究

建筑材料与建筑技术的不断进步使现代建筑表皮系统也悄然发生着变化。随着能源危机的到来,光伏发电系统的产生及成熟为现代建筑表皮的设计提供了新的灵感元素。通过对建筑光伏一体化系统（BIPV）的分析及典型建筑实例的介绍,提出含有建筑光伏一体化构成元素的绿色建筑表皮设计将会成为未来建筑表皮设计的发展趋势之一。     

关于光伏建筑一体化的几点思考

通过案例对光伏建筑一体化的形式进行分析比较,认为光伏建筑一体化的形式应均衡功能、经济、技术和美观等各方面的因素,而并非结合的程度越高越好。根据光伏产品的市场发展,判断光伏构件的设计重点应放在光伏电池组件的维修和更换上,而不是注重延长光伏电池组件的寿命。为解决现有PV构件的弊端,设计了一种便于维修和更换的建筑光伏构件。