太阳能电池行业英语词汇1..

太阳能术语中英翻译一、太阳电池相关词汇太阳电池 solar cell将太阳辐射能直接转换成电能的器件单晶硅太阳电池single crystalline silicon solar cell以单晶硅为基体材料的太阳电池多晶硅太阳电池multi crystalline silicon solar cell以多晶硅为基体材料的太阳电池非晶硅太阳电池amorphous silicon solar cell用非晶硅材料及其合金制造的太阳电池。

薄膜太阳能电池Thin-film solar cell用硅、硫化镉、砷化镓等薄膜为基体材料的太阳电池。

这些薄膜通常用辉光放电、化学气相淀积、溅射、真空蒸镀等方法制得。

多结太阳电池 multijunction solar cell由多个p‐n 结形成的太阳电池。

化合物半导体太阳电池 compound semiconductor solar cell 用化合物半导体材料制成的太阳电池带硅太阳电池 silicon ribbon solar cell用带状硅制造的太阳电池光电子 photo-electron由光电效应产生的电子。

太阳电池的伏安特性曲线I-V characteristic curve of solar cell受光照的太阳电池，在一定的辐照度和温度以及不同的外电路负载下，流入的电流I 和电池端电压V 的关系曲线。

短路电流 short-circuit current （Isc）在一定的温度和辐照度条件下，光伏发电器在端电压为零时的输出电流。

开路电压 open-circuit voltage （Voc）在一定的温度和辐照度条件下，光伏发电器在空载（开路）情况下的端电压。

最大功率 maximum power (Pm)在太阳电池的伏安特性曲线上，电流电压乘积的最大值。

最大功率点 maximum power point在太阳电池的伏安特性曲线上对应最大功率的点，亦称最佳工作点。

太阳能电池行业英语词汇A,Ampere的缩写, 安培a-Si:H, amorphous silicon的缩写, 含氢的, 非结晶性硅.Absorption, 吸收.Absorption of the photons:光吸收;当能量大于禁带宽度的光子入射时，太阳电池内的电子能量从价带迁到导带，产生电子——空穴对的作用，称为光吸收。

Absorptions coefficient, 吸收系数, 吸收强度.AC, 交流电.Ah, 安培小时.Acceptor, 接收者, 在半导体中可以接收一个电子.Alternating current, 交流电，简称“交流. 一般指大小和方向随时间作周期性变化的电压或电流. 它的最基本的形式是正弦电流. 我国交流电供电的标准频率规定为50赫兹。

交流电随时间变化的形式可以是多种多样的。

不同变化形式的交流电其应用范围和产生的效果也是不同的。

以正弦交流电应用最为广泛，且其他非正弦交流电一般都可以经过数学处理后，化成为正弦交流电的迭加。

AM, air mass的缩写, 空气质量.直射阳光光束透过大气层所通过的路程，以直射太阳光束从天顶到达海平面所通过的路程的倍数来表示。

当大气压力P=1.013巴，天空无云时，海平面处的大气质量为1。

amorphous silicon solar cell:非晶硅太阳电池（a—si太阳电池）用非晶硅材料及其合金制造的太阳电池称为非晶硅太阳电池，亦称无定形硅太阳电池，简称a—si太阳电池。

Angle of inclination, 倾斜角，即电池板和水平方向的夹角，0-90度之间。

Anode, 阳极, 正极.BBack Surface Field, 缩写BSF, 在晶体太阳能电池板背部附加的电子层, 来提高电流值. Bandbreak, 在半导体中, 价带和导带之间的空隙,对于半导体的吸收特性有重要意义. Becquerel, Alexandre-Edmond, 法国物理学家, 在1839年发现了电池板效应.BSF, back surface field的缩写.Bypass-Diode,与太阳能电池并联的二极管, 当一个太阳能电池被挡住, 其他太阳能电池产生的电流可以从它处通过.CCadmium-Tellurium,缩写CdTe; 位于II/VI位的半导体, 带空隙值为1,45eV, 有很好的吸收性, 应用于超薄太阳能电池板, 或者是连接半导体.Cathode, 阴极，或负极，是在电池板电解液里的带负电的电极，是电池板电解液里带电粒子和导线里导电电子的过渡点。

太阳电池 solar cell通常是指将太阳光能直接转换成电能的一种器件。

硅太阳电池silicon solar cell硅太阳电池是以硅为基体材料的太阳电池。

单晶硅太阳电池single crystalline silicon solar cell单晶硅太阳电池是以单晶硅为基体材料的太阳电池。

非晶硅太阳电池（a—si太阳电池）amorphous silicon solar cell用非晶硅材料及其合金制造的太阳电池称为非晶硅太阳电池，亦称无定形硅太阳电池，简称a—si太阳电池。

多晶硅太阳电池polycrystalline silicon solar cell多晶硅太阳电池是以多晶硅为基体材料的太阳电池。

聚光太阳电池组件photovoltaic concentrator module系指组成聚光太阳电池，方阵的中间组合体，由聚光器、太阳电池、散热器、互连引线和壳体等组成。

电池温度cell temperature系指太阳电池中P-n结的温度。

太阳电池组件表面温度solar cell module surface temperature系指太阳电池组件背表面的温度。

大气质量（AM）Air Mass (AM)直射阳光光束透过大气层所通过的路程，以直射太阳光束从天顶到达海平面所通过的路程的倍数来表示。

太阳高度角solar太阳高度角solar elevation angle太阳光线与观测点处水平面的夹角，称为该观测点的太阳高度角。

辐照度irradiance系指照射到单位表面积上的辐射功率（W/m2）。

总辐照（总的太阳辐照）total irradiation (total insolation)在一段规定的时间内，（根据具体情况而定为每小时，每天、每周、每月、每年）照射到某个倾斜表面的单位面积上的太阳辐照。

直射辐照度direct irradiance照射到单位面积上的，来自太阳圆盘及其周围对照射点所张的圆锥半顶角为8o的天空辐射功率。

太阳能行业专业术语中英文对照汇总1. 太阳能发电系统 Solar Power Generation System2. 光伏板 Photovoltaic Panel3. 太阳能电池 Solar Cell4. 太阳辐射 Solar Radiation5. 光伏效率 Photovoltaic Efficiency6. 光伏薄膜 Photovoltaic Film7. 太阳能阵列 Solar Array8. 阳光能够转换的源能量 Potential Energy Converted by Sunlight9. 太阳能热发电 Solar Thermal Power Generation10. 光伏发电 Photovoltaic Power Generation11. 太阳能板 Solar Panel12. 逆变器 Inverter13. 太阳能光伏发电系统 Solar Photovoltaic Power Generation System14. 太阳能热水系统 Solar Water Heating System15. 太阳能电池组 Solar Battery Pack16. 漏电保护器 Leakage Protector17. 太阳能光伏电池组 Solar Photovoltaic Battery Pack18. 太阳能光伏电动车 Solar Photovoltaic Electric Vehicle19. 太阳能光伏发电机组 Solar Photovoltaic Power Generation Unit20. 太阳能发电塔 Solar Power Generation Tower21. 太阳能发电站 Solar Power Generation Plant22. 太阳能光伏逆变器 Solar Photovoltaic Inverter23. 太阳能电池板 Solar Cell Panel24. 太阳能电力系统 Solar Power System25. 碳排放 Carbon Emissions26. 绿色能源 Green Energy27. 可再生能源 Renewable Energy28. 太阳集热器 Solar Collector29. 太阳能集热器箱体 Solar Collector Box30. 太阳能热发电站 Solar Thermal Power Plant31. 太阳能发电设备 Solar Power Generation Equipment32. 光伏组件 Photovoltaic Module33. 太阳能光伏组件 Solar Photovoltaic Module34. 太阳能发电功率 Solar Power Generation Capacity35. 太阳能发电效益 Solar Power Generation Efficiency36. 太阳能热发电效率 Solar Thermal Power Generation Efficiency37. 太阳能供暖系统 Solar Heating System38. 太阳能温水器 Solar Water Heater39. 太阳能光伏装置 Solar Photovoltaic Device40. 太阳能热力系统 Solar Thermal System41. 太阳能电池片 Solar Cell Wafer42. 太阳能热发电板 Solar Thermal Power Generation Board43. 太阳能热发电效益 Solar Thermal Power Generation Benefit44. 太阳能热发电塔式反应器 Solar Thermal Power Generation Tower Reactor45. 光伏面板 Photovoltaic Panel46. 太阳能光伏面板 Solar Photovoltaic Panel47. 太阳能热板 Solar Thermal Plate48. 太阳能直驱泵 Solar Direct Drive Pump49. 太阳能冷水机组 Solar Cooling Unit50. 太阳能蓄电系统 Solar Battery Charging System。

太阳能产业行业术语光伏产业链PV industry chain多晶硅原料-----单晶硅棒----单晶硅片----晶体硅电池----电池封装----系统集成----工程安装polycrystalline silicon raw material ---mono-crystalline silicon ingot---mono-crystalline silicon wafer---crystalline silicon cell—cells encapsulation---system integration---construction installation单词：1.单晶硅片mono-crystalline silicon wafer多晶硅片polycrystalline silicon wafer晶向orientation少数载流子寿命lifetime导电类型conductivity type位错密度dislocation硅单晶片厚度thickness硅单晶片的弯曲度surface camber准方单晶硅片: quasi-square mono-crystalline silicon wafer2.太阳电池solar cell3.薄膜太阳电池film solar cell4.光电转换photo-electricity conversion5.太阳电池组件solar module多晶硅太阳电池组件polycrystalline solar module单晶硅太阳电池组件mono-crystalline solar module6.太阳能户用系统solar home system（分为：太阳能直流户用系统；太阳能交流户用系统；太阳能交直流户用系统）7.太阳能电站solar power station（分为：离网型太阳能电站off-grid solar power station ；并网型太阳能电站grid-connected solar power station ）8.太阳能热水器solar water heater9.太阳能热水系统：solar heating system10.太阳能直流式热水系统: solar direct heating system11.太阳能强迫循环热水系统solar compelling cycle heating system12.太阳能自然循环热水系统solar spontaneously cycle heating system13.真空管太阳能集热器vacuum tube solar centralized heating system14.平板型太阳能集热器flat type solar centralized heating system15.全玻璃真空太阳能集热器full-glass vacuum solar centralizedheating system16.热管式真空管太阳集热器heat-tube vacuum solar centralizedheating system17.采光面积: lighting area18.太阳能幅照度solar radiant intensity19.太阳能控制器：solar controller20.太阳能逆变器：solar inverter21.太阳能通讯基站solar telecommunication power systems22.石油和天然气管道太阳能阴极保护电站：solar power stations forcathode protection of the oil and gas feeding pipes23.太阳能电池方阵solar array24.太阳能通讯电源solar communication power station25.太阳能自动跟踪装置solar automatic tracker26.太阳能移动电源车（站）solar mobile electrical vehicle (station)27.光伏水泵solar pump28.太阳能杨水系统solar pumping system29.光—网---柴互补系统complementary system for solar –grid-dieseloil30.风---光互补系统complementary system for solar - wind31.太阳能交通信号灯solar traffic signal light32.太阳能交通警示标志solar traffic warning symbol33.太阳能道钉solar road mark34.太阳能庭院灯solar garden light35.太阳能路灯solar street light36.太阳能草坪灯solar lawn light37.太阳能广告牌solar billboard38.太阳能电话亭solar telephone booth短语：太阳能扬水和照明综合应用系统：the comprehensive utilization system of solar pumping and lighting变频调速交流异步电机：high-efficient frequency conversion alternating asynchronous motors（这个产品不是太阳能产品）送电到乡: Power Supply to Township丝绸之路光明工程：Silk Road Brightness Project太阳能亮化工程solar brightness project太阳能与建筑一体化integrate solar energy with building。

光伏行业常用英文术语=============1. 光伏电池板（Photovoltaic panels）-----------------------光伏电池板是太阳能光伏发电系统的核心部件，主要由太阳能电池片和玻璃面板组成。

这些电池片通常排列成矩阵，以便接收和转换太阳光能。

2. 电流（Current）--------------电流是电荷的流动，是衡量电子流量的物理量。

在光伏系统中，电流的大小直接影响到电力生成和系统效率。

3. 电压（Voltage）-------------电压是电位差，是衡量电场对电荷作用力的物理量。

在光伏系统中，电压的大小直接影响到电力输出和设备运行。

4. 开路电压（Open-circuit voltage）------------------------开路电压是指光伏电池板在无负载条件下的电压。

这个电压通常会因为日照强度、温度和电池板的老化程度等因素而变化。

5. 短路电流（Short-circuit current）-------------------------短路电流是指光伏电池板在短路条件下的电流。

这个电流通常会因为日照强度、温度和电池板的老化程度等因素而变化。

6. 最大功率（Maximum power）------------------最大功率是指光伏电池板在特定条件下的最大输出功率。

这个条件通常是在最佳工作点下的开路电压和短路电流的乘积。

7. 最大功率点（Maximum power point）-------------------------最大功率点是指光伏电池板输出最大功率的位置。

这个位置通常是在最佳工作点下的开路电压和短路电流的乘积达到最大值的位置。

8. 最佳工作点电压（Optimum operating voltage）-----------------------------最佳工作点电压是指光伏电池板在最大功率点下的工作电压。

这个电压通常会因为日照强度、温度和电池板的老化程度等因素而变化。

Photovoltaic (PV) Array— An interconnected system of PV modules that function as a single electricity-producing unit. The modules are assembled as a discrete structure, with common support or mounting. In smaller systems, an array can consist of a single module.Photovoltaic (PV) Cell— The smallest semiconductor element within a PV moduleto perform the immediate conversion of light into electrical energy (direct currentvoltage and current). Also called a solar cell.Photovoltaic (PV) Conversion Efficiency— The ratio of the electric power produced by a photovoltaic device to the power of the sunlight incident on the device.Photovoltaic (PV) Device— A solid-state electrical device that converts light directly into direct current electricity of voltage-current characteristics that are a function of the characteristics of the light source and the materials in and design of the device. Solar photovoltaic devices are made of various semiconductor materials including silicon, cadmium sulfide, cadmium telluride, and gallium arsenide, and in single crystalline, multicrystalline, or amorphous forms.Photovoltaic (PV) Effect— The phenomenon that occurs when photons, the "particles" in a beam of light, knock electrons loose from the atoms they strike. When this property of light is combined with the properties of semiconductor s, electrons flow in one direction across a junction, setting up a voltage. With the addition of circuitry, current will flow and electric power will be available.Photovoltaic (PV) Generator— The total of all PV strings of a PV power supply system, which are electrically interconnected.Photovoltaic (PV) Module— The smallest environmentally protected, essentially planar assembly of solar cells and ancillary parts, such as interconnections, terminals, [and protective devices such as diodes] intended to generate direct current power under unconcentrated sunlight. The structural (load carrying) member of a module can either be the top layer (superstrate) or the back layer (substrate).Photovoltaic (PV) Panel— often used interchangeably with PV module (especially in one-module systems), but more accurately used to refer to a physically connected collection of modules (i.e., a laminate string of modules used to achieve a required voltage and current).Photovoltaic (PV) System— A complete set of components for converting sunlight into electricity by the photovoltaic process, including the array and balance of system components.Photovoltaic-Thermal (PV/T) System— A photovoltaic system that, in addition to converting sunlight into electricity, collects the residual heat energy and delivers both heat and electricity in usable form. Also called a total energy system.Physical Vapor Deposition— A method of depositing thin semiconductor photovoltaic films. With this method, physical processes, such as thermal evaporation or bombardment of ions, are used to deposit elemental semiconductor material on a substrate.P-I-N— A semiconductor photovoltaic (PV) device structure that layers an intrinsic semiconductor between a p-type semiconductor and an n-type semiconductor。

太阳能电池英语单词Solar Cells: The Heart of Photovoltaic Energy Generation.Solar cells, also known as photovoltaic cells, are devices that convert sunlight into electrical energy. They are the fundamental building blocks of solar panels and play a crucial role in harnessing the vast and renewable resource of solar energy. The concept of solar cells dates back to the early 19th century, but it was not until the20th century that significant progress was made in their development and commercialization.Working Principle of Solar Cells.Solar cells work on the photovoltaic effect, a physical process whereby photons from sunlight knock electrons out of their atoms, creating a flow of electricity. This flow of electricity, known as a photocurrent, can be harnessed and used to power electronic devices.The core of a solar cell is typically made up of silicon, a semiconductor material. When sunlight hits the silicon surface, it excites the electrons in the atoms, causing them to jump out of their original orbit and leave behind positively charged atoms, known as holes. These electrons and holes then migrate to different sides of the cell, creating a separation of charges and resulting in a voltage difference, or a potential difference, across the cell.Types of Solar Cells.Solar cells can be classified into several types based on their structure and materials used. Some of the common types include:1. Crystalline Silicon Solar Cells: These are the most common type of solar cells and are made from silicon wafers. They are further classified into monocrystalline and polycrystalline varieties. Monocrystalline solar cells are made from a single crystal of silicon and have higherefficiency but are more expensive to produce. Polycrystalline solar cells are made from multiple silicon crystals and are less efficient but cheaper to produce.2. Thin-Film Solar Cells: These solar cells are made from very thin layers of semiconducting materials, such as silicon, copper indium gallium selenide (CIGS), cadmium telluride (CdTe), and amorphous silicon. They are less efficient than crystalline silicon solar cells but are cheaper to produce and can be applied to flexible substrates, making them suitable for use in curved surfaces and lightweight applications.3. Multi-junction Solar Cells: These solar cells are composed of multiple layers of semiconducting materials, each optimized to absorb a different part of the solar spectrum. They are typically used in spacecraft and high-efficiency solar power systems where weight and space are limited.4. Dye-Sensitized Solar Cells (DSSC): These solar cells use a photosensitive dye to absorb sunlight and convert itinto electricity. They are relatively new and still in the research and development stage but offer the potential for low-cost and efficient solar energy conversion.Applications of Solar Cells.Solar cells have a wide range of applications, from powering small electronic devices to large-scale solar power plants. Some of the common applications include:1. Residential Solar Power Systems: Solar cells can be installed on rooftops or in open spaces to generate electricity for household use. This reduces dependency on grid electricity and can help homeowners save money on their utility bills.2. Utility-Scale Solar Power Plants: Large-scale solar power plants use thousands of solar cells mounted on trackers or fixed mounts to generate electricity for commercial use. These plants can supply power to utilities and distribute it to customers through the electric grid.3. Mobile and Portable Devices: Solar cells are often used to power mobile phones, laptops, and other portable electronic devices. They can be integrated into the devices themselves or attached as external power packs.4. Spacecraft and Satellites: Solar cells are essential for powering spacecraft and satellites. They provide a reliable and efficient source of electricity in space, where there is no access to fossil fuels or othertraditional power sources.Advantages and Challenges of Solar Cells.Solar cells offer several advantages as a renewable energy source:Renewable and Sustainable: Solar energy is an infinite resource, and solar cells convert it into electricity without emitting greenhouse gases or other pollutants.Low Maintenance: Solar cells have no moving parts and require minimal maintenance once installed.Scalable: Solar cells can be scaled up or down to meet different power requirements, from small devices to large-scale power plants.However, there are also some challenges and limitations to solar cell technology:Cost: Although solar cell technology has become more affordable in recent years, the initial investment cost can still be high compared to traditional power sources.Efficiency: The efficiency of solar cells, measured as the percentage of sunlight converted into electricity, is still relatively low compared to fossil fuel-based power plants.Weather Dependence: Solar cells rely on sunlight to generate electricity, so their performance can be affected by cloudy or rainy weather.Conclusion.Solar cells are a crucial component of solar energy systems and play a vital role in harnessing the vast potential of solar energy. With continued research and development, solar cell technology is expected to become more efficient, affordable, and widely used, contributing to a cleaner, more sustainable energy future.。