太阳能光伏材料技术英文_本人想学习光伏技术，没有基础，从头学起，想知道刚开始应看哪些书籍，请路过高人告之在下，指点一二。

大家好！今天让小编来大家介绍下关于太阳能光伏材料技术英文_本人想学习光伏技术，没有基础，从头学起，想知道刚开始应看哪些书籍，请路过高人告之在下，指点一二。的问题，以下是小编对此问题的归纳整理，让我们一起来看看吧。

文章目录列表:

什么是太阳能光伏技术

太阳能光伏发电是利用太阳电池半导体材料的光伏效应，将太阳光辐射能直接转换为电能的一种新型发电系统，有独立运行和并网运行两种方式。独立运行的光伏发电系统需要有蓄电池作为储能装置，主要用于无电网的边远地区和人口分散地区，整个系统造价很高；在有公共电网的地区，光伏发电系统与电网连接并网运行，省去蓄电池，不仅可以大幅度降低造价，而且具有更高的发电效率和更好的环保性能。

本人想学习光伏技术，没有基础，从头学起，想知道刚开始应看哪些书籍，请路过高人告之在下，指点一二。

光伏发电是根据光生伏打效应原理，利用太阳电池将太阳光能直接转化为电能。不论是独立使用还是并网发电，光伏发电系统主要由太阳电池板（组件）、控制器和逆变器三大部分组成，它们主要由电子元器件构成，不涉及机械部件，所以，光伏发电设备极为精炼，可靠稳定寿命长、安装维护简便。理论上讲，光伏发电技术可以用于任何需要电源的场合，上至航天器，下至家用电源，大到兆瓦级电站，小到玩具，光伏电源可以无处不在。嗯 还有一件事 目前我在学的ABC天丅英语中心的教师说过 若想将英语学好是不难的~坚持具有好的学习环境和实习口语对象，重点就是老师教学经验，发音纯正才是最好 不间断经常口语沟通 一对一家教式教学才能有.好.的学习成果。完成课堂后需要回放复习课堂录音档 好巩固知识点！若真的是没人帮忙的话 那么就到可可或沪江取得课后材料学习，多说、多练、多问、多听、多读 一下子口语能力就培养起来 学习成效会非常快速显着的。一、太阳能天威保变（000）形成太阳能原材料、电池组件的全产业布局;小天鹅（0001）大股东参股无锡尚德太阳能电力岷江水电（0011）参股华冠科技涉足太阳能产业生益科技（001）控股的东海硅微粉公司是国内最大硅微粉生产企业维科精华（001）成立的宁波维科能源公司专业生产各种动力、太阳能电池安泰科技（000）与德国ODERSUN公司合作薄膜太阳能电池产业长城电工（001）参股长城绿阳太阳能公司涉足太阳能领域乐山电力（00）参股四川新光硅业主要生产多晶硅太阳能硅片华东科技（000）国内最大的太阳能真空集热管生产商?春兰股份（00）大股东计划投资0亿开发新能源威远生化（000）实际控股股东新奥集团从事太阳能等新能源产品生产力诺太阳（00）太阳能热水器的原材料供应商:西藏药业（0011）发起股东之一为西藏科光太阳能工程技术公司新华光（001）太阳能特种光玻基板特变电工（000）控股的新疆新能源从事太阳能光伏组件制造航天机电（0011）控股的上海太阳能科技电池组件产能迅速提升南玻A（00001）0年10月拟首期亿元建设年产能0兆瓦太阳能光伏电池生产网。交大南洋（001）控股的交大泰阳从事太阳能电池组件生产杉杉股份（00）参股尤利卡太阳能，掌握单晶硅太阳能硅片核心技术王府井（00）全资子公司深圳王府井联合了中国最大的太阳能专业研究开发讥构--北京太阳能研究所成立了北京桑普光电技术公司风帆股份（00）投巨资参与太阳能电池组件生产航空动力（00）太阳能发电机、风能发电机乐凯胶片（001）太阳能电池背板生产

急求与太阳能或者太阳能发电等有关的中英文对照文章

1.丛书名直拉单晶硅工艺技术(太阳能光伏产业硅材料系列教材)

出版社化学工业出版社

作者黄有志，王丽 主编

2. 光伏技术基础与技能 作者郑军 张玉琴

丛书名： 职业院校理论实践一体化系列教材

出版社：电子工业出版社

ISBN：9787121118005

3.硅片加工技术(太阳能光伏产业硅材料系列教材)(康自卫//王丽)(化学工业出版社)

出版社：化学工业出版社

类 别：电子电脑

开 本：16开 开

作 者：康自卫//王丽

ISBN：9787122090584

《太阳能光伏产业硅材料系列教材》有一整套 书店都有卖的 网上买更便宜

光伏逆变器原理英文翻译

太阳能

太阳能（Solar）一般指太阳光的辐射能量。在太阳内部进行的由“氢”聚变成“氦”的原子核反应，不停地释放出巨大的能量，并不断向宇宙空间辐射能量，这种能量就是太阳能。太阳内部的这种核聚变反应，可以维持几十亿至上百亿年的时间。太阳向宇宙空间发射的辐射功率为3.8x10^23kW的辐射值，其中20亿分之一到达地球大气层。到达地球大气层的太阳能，30%被大气层反射，23%被大气层吸收，其余的到达地球表面，其功率为800000亿kW，也就是说太阳每秒钟照射到地球上的能量就相当于燃烧500万吨煤释放的热量。平均在大气外每平米面积每分钟接受的能量大约1367w。广义上的太阳能是地球上许多能量的来源，如风能，化学能，水的势能等等。狭义的太阳能则限于太阳辐射能的光热、光电和光化学的直接转换。

人类对太阳能的利用有着悠久的历史。我国早在两千多年前的战国时期，就知道利用钢制四面镜聚焦太阳光来点火；利用太阳能来干燥农副产品。发展到现代，太阳能的利用已日益广泛，它包括太阳能的光热利用，太阳能的光电利用和太阳能的光化学利用等。太阳能的利用有光化学反应,被动式利用（光热转换）和光电转换两种方式。太阳能发电一种新兴的可再生能源利用方式。

使用太阳电池，通过光电转换把太阳光中包含的能量转化为电能，使用太阳能热水器，利用太阳光的热量加热水，并利用热水发电，利用太阳能进行海水淡化。现在，太阳能的利用还不很普及，利用太阳能发电还存在成本高、转换效率低的问题，但是太阳电池在为人造卫星提供能源方面得到了应用。

主要是硅光电池在吸收太阳所发射出来的光能，硅光电池主要是从沙子里提炼出来的，由贝尔实验室开发。太阳能是太阳内部或者表面的黑子连续不断的核聚变反应过程产生的能量。地球轨道上的平均太阳辐射强度为1367w/㎡。地球赤道的周长为40000km，从而可计算出，地球获得的能量可达173000TW。在海平面上的标准峰值强度为1kw/m2，地球表面某一点24h的年平均辐射强度为0.20kw/㎡，相当于有102000TW 的能量，人类依赖这些能量维持生存，其中包括所有其他形式的可再生能源（地热能资源除外），虽然太阳能资源总量相当于现在人类所利用的能源的一万多倍，但太阳能的能量密度低，而且它因地而异，因时而变，这是开发利用太阳能面临的主要问题。太阳能的这些特点会使它在整个综合能源体系中的作用受到一定的限制。

尽管太阳辐射到地球大气层的能量仅为其总辐射能量的22亿分之一，但已高达173,000TW，也就是说太阳每秒钟照射到地球上的能量就相当于500万吨煤。地球上的风能、水能、海洋温差能、波浪能和生物质能以及部分潮汐能都是来源于太阳；即使是地球上的化石燃料（如煤、石油、天然气等）从根本上说也是远古以来贮存下来的太阳能，所以广义的太阳能所包括的范围非常大，狭义的太阳能则限于太阳辐射能的光热、光电和光化学的直接转换。

太阳能既是一次能源，又是可再生能源。它资源丰富，既可免费使用，又无需运输，对环境无任何污染。为人类创造了一种新的生活形态，使社会及人类进入一个节约能源减少污染的时代。

太阳电池是一对光有响应并能将光能转换成电力的器件。能产生光伏效应的材料有许多种，如：单晶硅，多晶硅，非晶硅，砷化镓，硒铟铜等。它们的发电原理基本相同，现以晶体为例描述光发电过程。P型晶体硅经过掺杂磷可得N型硅，形成P－N结。

当光线照射太阳电池表面时，一部分光子被硅材料吸收；光子的能量传递给了硅原子，使电子发生了跃迁，成为自由电子在P-N结两侧集聚形成了电位差，当外部接通电路时，在该电压的作用下，将会有电流流过外部电路产生一定的输出功率。这个过程的的实质是：光子能量转换成电能的过程。

“硅”是我们这个星球上储藏最丰量的材料之一。自从19世纪科学家们发现了晶体硅的半导体特性后，它几乎改变了一切，甚至人类的思维，20世纪末．我们的生活中处处可见“硅”的身影和作用，晶体硅太阳电池是近15年来形成产业化最快。生产过程大致可分为五个步骤：a、提纯过程 b、拉棒过程 c、切片过程 d、制电池过程 e、封装过程。

太阳能光伏

光伏板组件是一种暴露在阳光下便会产生直流电的发电装置，由几乎全部以半导体物料(例如硅)制成的薄身固体光伏电池组成。由于没有活动的部分，故可以长时间操作而不会导致任何损耗。简单的光伏电池可为手表及计算机提供能源，较复杂的光伏系统可为房屋提供照明，并为电网供电。 光伏板组件可以制成不同形状，而组件又可连接，以产生更多电力。近年，天台及建筑物表面均会使用光伏板组件，甚至被用作窗户、天窗或遮蔽装置的一部分，这些光伏设施通常被称为附设于建筑物的光伏系统。

太阳热能

现代的太阳热能科技将阳光聚合，并运用其能量产生热水、蒸气和电力。除了运用适当的科技来收集太阳能外，建筑物亦可利用太阳的光和热能，方法是在设计时加入合适的装备，例如巨型的向南窗户或使用能吸收及慢慢释放太阳热力的建筑材料。

据记载，人类利用太阳能已有3000多年的历史。将太阳能作为一种能源和动力加以利用，只有300多年的历史。真正将太阳能作为“近期急需的补充能源”，“未来能源结构的基础”，则是近来的事。20世纪70年代以来，太阳能科技突飞猛进，太阳能利用日新月异。近代太阳能利用历史可以从1615年法国工程师所罗门·德·考克斯在世界上发明第一台太阳能驱动的发动机算起。该发明是一台利用太阳能加热空气使其膨胀做功而抽水的机器。在1615年～1900年之间，世界上又研制成多台太阳能动力装置和一些其它太阳能装置。这些动力装置几乎全部采用聚光方式采集阳光，发动机功率不大，工质主要是水蒸汽，价格昂贵，实用价值不大，大部分为太阳能爱好者个人研究制造。20世纪的100年间，太阳能科技发展历史大体可分为七个阶段。

第一阶段(1900~1920年)

在这一阶段，世界上太阳能研究的重点仍是太阳能动力装置，但采用的聚光方式多样化，且开始采用平板集热器和低沸点工质，装置逐渐扩大，最大输出功率达73.64kW，实用目的比较明确，造价仍然很高。建造的典型装置有：1901年，在美国加州建成一台太阳能抽水装置，采用截头圆锥聚光器，功率：7.36kW；1902 ~1908年，在美国建造了五套双循环太阳能发动机，采用平板集热器和低沸点工质；1913年，在埃及开罗以南建成一台由5个抛物槽镜组成的太阳能水泵，每个长62.5m，宽4m，总采光面积达1250m2。

第二阶段（1920~1945年）

在这20多年中，太阳能研究工作处于低潮，参加研究工作的人数和研究项目大为减少，其原因与矿物燃料的大量开发利用和发生第二次世界大战（1935~1945年）有关，而太阳能又不能解决当时对能源的急需，因此使太阳能研究工作逐渐受到冷落。

第三阶段（1945~1965年）

在第二次世界大战结束后的20年中，一些有远见的人士已经注意到石油和天然气资源正在迅速减少， 呼吁人们重视这一问题，从而逐渐推动了太阳能研究工作的恢复和开展，并且成立太阳能学术组织，举办学术交流和展览会，再次兴起太阳能研究热潮。 在这一阶段，太阳能研究工作取得一些重大进展，比较突出的有：1945年，美国贝尔实验室研制成实用型硅太阳电池，为光伏发电大规模应用奠定了基础；1955年，以色列泰伯等在第一次国际太阳热科学会议上提出选择性涂层的基础理论，并研制成实用的黑镍等选择性涂层，为高效集热器的发展创造了条件。此外，在这一阶段里还有其它一些重要成果，比较突出的有： 1952年，法国国家研究中心在比利牛斯山东部建成一座功率为50kW的太阳炉。1960年，在美国佛罗里达建成世界上第一套用平板集热器供热的氨——水吸收式空调系统，制冷能力为5冷吨。1961年，一台带有石英窗的斯特林发动机问世。在这一阶段里，加强了太阳能基础理论和基础材料的研究，取得了如太阳选择性涂层和硅太阳电池等技术上的重大突破。平板集热器有了很大的发展，技术上逐渐成熟。太阳能吸收式空调的研究取得进展，建成一批实验性太阳房。对难度较大的斯特林发动机和塔式太阳能热发电技术进行了初步研究。

Solar

Solar (Solar) generally refers to the sun's radiation energy. Carried out in the solar interior from "H" together into a "helium" the nuclear reaction, kept a huge release of energy, and continue to the space radiation energy, which is solar energy. This solar nuclear fusion reaction inside the can to maintain the hundreds of millions of百亿年first time. Solar radiation to space launch 3.8x10 ^ 23kW power of the radiation, of which 20 billionth of the Earth's atmosphere to reach. Solar energy reaching the Earth's atmosphere, 30% of the atmosphere reflectance, 23% of atmospheric absorption, and the rest to reach the Earth's surface,

Its power of 80 trillion kW, that is to say a second exposure to the sun's energy on Earth is equivalent to five million tons of coal combustion heat release. The average per square meter in the atmosphere outside the area of energy per minute to receive about 1367w. A broad sense of the solar energy on earth many sources, such as wind energy, chemical energy, potential energy of water and so on. The narrow sense is limited to solar radiation of solar light thermal, photovoltaic and photochemical conversion of the directly.

At this stage, the world's solar energy is still the focus of the study of solar energy power plant, but the diversification of the use of the condenser, and the introduction of flat-plate collector and a low boiling point working fluid, the device gradually expanded up to maximum output power 73.64kW, Objective To compare the clear and practical, cost remains high. The construction of a typical device are as follows: 1901, California built a solar-powered pumping devices, the use of truncated cone condenser power: 7.36kW; 1902 ~ 1908 years, built in the United States five sets of double-cycle solar-powered engines, the use of flat-panel collector and a low boiling point working fluid; in 1913,

Human use of solar energy has a long history. China more than 2000 years ago, back in the Warring States period, one will find that the use of four steel mirror to focus sunlight ignition; use of solar energy to dry agricultural products. The development of modern, solar energy has become increasingly widespread use, it includes the use of solar energy solar thermal, solar photovoltaic and solar energy use, such as the photochemical use. The use of solar photochemical reaction, a passive use (photo-thermal conversion) and the photoelectric conversion in two ways. A new solar power and renewable sources of energy use.

Silicon photovoltaic cells mainly in the absorption of solar light energy emitted by silicon photocell is mainly extracted from the sand by the development of Bell Labs. Solar energy is the internal or the surface of the sun sunspot continuous process of nuclear fusion reactions produce energy. Earth's orbit on the average solar radiation intensity for the 1367w / ㎡. Circumference of the Earth's equator to 40000km, and thus calculated the Earth's energy can be obtained 173000TW. At sea level standard for peak intensity 1kw/m2, a point on the Earth's surface 24h of the annual average radiation intensity 0.20kw / ㎡, which is equivalent to have 102000TW energy

Human dependence on these energy to survive, including all other forms of renewable energy (except for geothermal energy resources), although the total amount of solar energy resources is the human equivalent of the energy used by ten thousand times, but low energy density of solar energy, and it vary from place to place, from time to time change, the development and utilization of solar energy which is facing a major problem. These features will make solar energy in the integrated energy system of the role of subject to certain restrictions.

The use of solar cells, through the photoelectric conversion to solar energy conversion is included in electricity, the use of solar water heaters, the use of solar heat hot water and use water for power generation, using solar energy for desalination. Now, the use of solar energy is not very popular, the use of solar power costs are high there, the problem of low conversion efficiency, but for satellite solar cells to provide energy has been applied.

Although the Earth's atmosphere solar radiation to the total energy only 22 billionths of a radiation energy, it has been as high as 173,000 TW, that is to say a second exposure to the sun's energy on Earth is equivalent to five million tons of coal. Earth wind energy, hydropower, ocean thermal energy, wave energy and tidal energy as well as some comes from the sun; even in the face of the earth's fossil fuels (such as coal, oil, natural gas, etc.) that is fundamentally Since ancient times the storage of solar energy down, so by including a broad range of solar energy is very large,

The narrow sense is limited to solar radiation of solar light thermal, photovoltaic and photochemical conversion of the directly.

Solar energy is the first time, but also renewable energy. It is rich in resources, can use free of charge, and without transportation, without any pollution to the environment. For mankind to create a new life, so that social and human energy into a era of reducing pollution.

Solar cells have to respond to a light and convert solar energy to power the device. Photovoltaic effect can produce many kinds of materials, such as: single crystal silicon, polycrystalline silicon, amorphous silicon, gallium arsenide, copper indium selenium. They are basically the same principle of power generation is now crystal as an example to describe the process of light generation. P-type crystalline silicon available after phosphorus-doped N-type silicon, the formation of P-N junction.

When the surface of solar light, the silicon material to be part of photon absorption; photon energy transfer to the silicon atom, electronic transitions have taken place, as a free-electron concentration in the PN junction formed on both sides of the potential difference, when the external circuit connected when the effects of the voltage, there will be a current flowing through the external circuit have a certain amount of output power. The substance of this process are: photon energy into electrical energy conversion process.

"Si" is our planet's abundance of storage materials. Since the 19th century, scientists discovered the properties of crystalline silicon semiconductor, it almost changed everything, even human thought, end of the 20th century. Our lives can be seen everywhere, "silicon" figure and role of crystalline silicon solar cells is the formation of the past 15 years the fastest growing industry. Production process can be divided into five steps: a, purification process b, the process of pulling rod c, slicing the process of d, the process of system battery e, the course package.

Solar photovoltaic

Is a component of photovoltaic panels in the sun exposure will generate direct current power generation devices, from virtually all semiconductor materials (eg silicon) are made of thin photovoltaic cells composed of solid. Because there is no part of activity, and would thus be a long time operation would not lead to any loss. Simple photovoltaic cells for watches and computers to provide energy, and more complex PV systems to provide lighting for the housing and power supply. Photovoltaic panels can be made into components of different shapes, and components can be connected to generate more power. In recent years, the surface of the roof and building will be the use of photovoltaic panels components,

Even be used as windows, skylights or sheltered part of devices, which are often called photovoltaic facilities with PV systems in buildings.

Solar thermal

Modern technology solar thermal polymerization sunlight and use its energy produced hot water, steam and electricity. In addition to the use of appropriate technology to collect solar energy, the building can also make use of the sun's light and heat energy is added in the design of appropriate equipment, such as large windows or use of the south can absorb and slowly release the sun heat the building materials .

According to records, human use of solar energy has more than 3,000 years of history. To solar energy as an energy and power use, only 300 years of history. The real solar as "the near future to add much-needed energy," "the basis of the future energy mix" is the latest thing. Since the 20th century, 70s, solar technology has made rapid advances, solar energy use with each passing day. Solar energy utilization in modern history from the French engineers in 1615 in the Solomon and Germany Cox invented the world's first solar-powered engines run. The invention is a use of solar energy heating the air to the expansion and pumping machines acting.

In 1615 ~ 1900, between the developed world and more than one solar power plant and a number of other solar energy devices. Almost all of these power plants collect the sun means the use of condenser, engine power is not, the working fluid is water vapor, which is very expensive, not practical value, the majority of individual studies for manufacturing solar enthusiasts. 100 years of the 20th century, the history of the development of solar energy technology in general can be divided into seven stages.

离网式光伏发电系统与并网式光伏发电系统的工作原理十分相似，唯一不同的是离网系统输出的电力被直接消耗使用而不传送到公共电网中太阳能发电分光热发电和光伏发电.不论产销量.发展速度和发展前景.光热发电都赶不上光伏发电.可能因光伏发电普及较广而接触光热发电较少.通常民间所说的太阳能发电往往指的就是太阳能光伏发电.简称光电.光伏发电是根据光生伏打效应原理.利用太阳电池将太阳光能直接转化为电能.不论是独立使用还是并网发电.光伏发电系统主要由太阳电池板(组件).控制器和逆变器三大部分组成.它们主要由电子元器件构成.不涉及机械部件.所以.光伏发电设备极为精炼.可靠稳定寿命长.安装维护简便.理论上讲.光伏发电技术可以用于任何需要电源的场合.上至航天器.下至家用电源.大到兆瓦级电站.小到玩具.光伏电源可以无处不在.目前.光伏发电产品主要用于三大方面:一是为无电场合提供电源.主要为广大无电地区居民生活生产提供电力.还有微波中继电源等.另外.还包括一些移动电源和备用电源,二是太阳能日用电子产品.如各类太阳能充电器.太阳能路灯和太阳能草地厂各种灯具等,三是并网发电.这在发达国家己经大面积推广实施.我国并网发电还未起步.不过.2008年北京[绿色奥运"部分用电将会由太阳能发电和风力发电提供.

太阳能光伏发电的最基本元件是太阳电池(片).有单晶硅.多晶硅.非晶硅和薄膜电池等.目前.单晶和多晶电池用量最大.非晶电池用于一些小系统和计算器辅助电源等.国产晶体硅电池效率在10-13%左右.国外同类产品效率约12-14%.由一个或多个太阳电池片组成的太阳能电池板称为光伏组件.2002年全球太阳电池和光伏组件产量约600MW.其中日本占45%.美国25%.欧洲约22%.日本是光伏产业发展最快的因家.在不到10年的时间里超过了美国.2001年世界10大太阳电池生产厂.日本就有4家.分别是夏普.京都陶瓷.三洋和三菱.欧美发达国家大都制订了[阳光计划".并采取措施鼓励居民安装太阳能发电系统.比如部分赠款.无息贷款和[种子基金"等.并以高出普通电价几倍的价格购买居民家中多余的太阳能电量.

我国太阳能光伏发电产业近几年发展较快.但总体规模较小.2002年太阳电池产量约SMW.累计装机容量达25MW.不到世界的1%.为配合西部大开发.我国政府实施了[阳光计划".[乘风计划"和[光明工程"等.利用太阳能发电和风力发电为解决西部广大无电地区农牧民生活生产用电.这一工程配套资金20多亿人民币.我国光伏发电产品的市场主要在西部.另有部分产品出日.如组件.小系统和日用太阳能电子产品等.由于国内太阳能电池晶片产量远远不能满足需求.许多厂家进日大量电池片封装组件.在光伏产业方面.深圳占有部分江山.产品加工能力.产品质量和销量在国内外都有一定的影响.政府应加大扶持力度.使之扩大规模发展成为产业群.进而成为深圳的一个经济增长点.

太阳能光伏发电产业增长迅速.不仅因为它是具有许多优点的清洁能源.一个更诱人的动因是.在太阳能与建筑一体化的过程中.太阳电池组件比太阳能热水器与建筑更有亲合力.太阳电池组件不仅可以作为能源设备.还可作为屋面和墙面材料.既供电节能.又节省了建材.国外己有非常好的案例.因此.太阳能光伏发电技术与建筑结合方面.将具有良好的经济效益.前途无限.

(From the nets of photovoltaic power systems and grid type (pv) power system is very similar to the working principle, the only difference is the output power from the nets (systems are used directly to the public without powerSolar spectral heat generation and photovoltaic energy. No matter. The speed of development and the development prospects are missed. Solar-thermal power generation by photovoltaic (pv) power universal. May contact solar-thermal power wider. Usually folk say less often refers to the solar power generation is solar photovoltaic (pv) power. Referred. According to the pv solar battery using principle. The sun light directly into electricity grid. Both independent use or electricity. (pv) power system mainly consists of solar panels (component) controller and inverter. They are mainly composed of three by electronic components. Don't involve mechanical components. So. (pv) power equipment extremely refined. Reliable and stable life long. Installation and maintenance easy. Theory. (pv) power technology can be used for any need to power on the occasion to spacecraft... To household power stations to level. Small toys. Pv power can be everywhere. Now. (pv) power product is mainly used in three aspects: one is to provide electricity for the main power. Residents living without electricity supply power production and power of microwave reliever. Etc. In addition, also include some mobile power and standby power, solar daily electronic products such as all kinds of solar charger. And the solar energy lawn. Solar street lamps factory all sorts of lamps and lanterns, etc. It is implied in the developed countries has widespread implementation in grid generation yet......... But the 2008 Beijing Olympic Games "[green electricity will be part of solar and wind power.

Solar pv power is the most basic elements of solar cells (film) have monocrystalline silicon polysilicon... And the film batteries. Monocrystalline or polycrystalline battery dosage of amorphous batteries used. A small system and computer aided power etc. Domestic crystal silicon efficiency in 10-13. The same products abroad efficiency about 12-14) by one or more solar -products composed of solar panels called pv. 2002, global solar cell and pv yield about 45% of 600 mw) in Japan, America, Europe, about 25% per photovoltaic industry development in Japan is the fastest for home. In less than 10 years than in the United States. 2001 world 10 big solar cells have 4. Japan's Kyoto were sharp.......... And mitsubishi sanyo Europe developed countries are developed [sunshine plan "and take measures to encourage the residents solar power system installation. For instance partial grants. An interest-free loan and [seed fund", etc. And the price several times higher than normal price of solar power people redundant.

Our solar photovoltaic power industry in recent years. But the overall size of the rapid development of small solar cell production. 2002 total installed capacity, about SMW method of less than 1% of the world 25MW) to coordinate the western development. Our government implemented the "[[her plan" and "light engineering [etc. Use solar and wind power for solving the nomadic areas in western life without electricity production of electricity. This project matching funds more than 20 million yuan. Our pv power products market mainly in the west. Otherwise, such as a part of the product components. Small system. And the daily solar electronic products, etc. To the domestic solar wafer yield far cannot satisfy the requirement of many manufacturers into day. -products packaging components. In photovoltaic industry occupies part. Shenzhen. Products processing ability. Product quality and sales at home and abroad, has certain influence on government should strengthen the support strength. The scale development. Make and become shenzhen become industry group. An economic growth.

Solar photovoltaic power industry growth. Not only because it has many advantages are the clean energy. A more attractive in solar energy and motivation is. In the process of building integrated solar cell module. More than the solar water heater with building are affinity. Solar cell module can not only as energy equipment. Can also be used as a roof and wall materials and energy supply. Both saving building. Have very good. Foreign cases. Therefore solar power generation technology. Combined with building. Will has good economic benefit. Future infinite.)