thin film module introduction-- key feature
TRANSCRIPT
Solibro CIGS组件介绍
弱光发电性能优异 Weak light behavior
光浸润效应 light-soaking effect
阴影遮挡影响小 Shadow shading effect performance
正公差分类 positive sorting -0/+5 W
温度效应特性 Temp corresponding performance is good
抗电诱导优势 Potential Induced Degradation(PID) advantage
组件性能特点和优势Thin Film Module Characteristics and advantages
耐候性好 Double glass lamination, Good weathering resistance
严酷环境下表现最好 Best performance under challenging condition实验在不同气候环境下进行以作参考。Numerous reference systems in a wide range of different climatic conditions
→在严酷环境下仍能保证稳定效率 Proving excellent performance of our modules even under critical climatic conditions
温度响应杰出 Outstanding Temp Performance→ 高温下表现出众 Delivering top performance even at very high temperatures
组件输出会随着温度升高而下降 Output of module will decrease as the temperature increases.→ 高温表现,尤其是最高温表现是产量的决定性因素 crucial factor for yield, particularly at maximum Temp environment condition → Solibro CIGS Temperature coefficient for PMPP : -0.38 %/K; Micro-Si thin film, -0.29%/K; a-Si, -0.28%/K远远领先于晶硅产品温度系数 Long way ahead of c-Si competitors standard: -0.42%/K to -0.49 %/K
温度效应特性 Temperature corresponding performance
汉能薄膜组件对可见光范围内长波和短波的吸收大大优于常规组件,在多云、阴天、
早晚等辐照度不佳时,可以产生更多电量,提高系统发电稳定性。
Hanergy thin film module absorb visible light range of long wave and short wave
better than that of conventional modules. In the cloudy day, cloudy day, morning and
evening poor irradiance, it can produce more power, improve power system stability.
弱光性 Weak light behavior
数据来源:柏林光伏研究所Data resource: Berlin PV institute
晶硅组件Mono/poly Si
微晶硅组件Micro Si
CIGS薄膜组件
CIGS thin film
标准状况下效率Efficiency under
standard condition (25°C, 1000 W/m2)
≥ 16% ≥ 10% ≥ 15%
高温下损失效率Temp coefficient -0.42 %/°C -0.29 %/°C -0.37 %/°C
CIGS光浸透效应Light- soaking
effect-- -- +2.5%
光浸润条件:在1000W/m2 光强下持续43小时后The conditon of Light-soaking: 43 hours continually radiation under 1000W/2
CIGS薄膜组件通常在太阳光浸透数天后效率提高The efficiency of CIGS module will increase after several days of strong sun light radiation.
SOLIBRO 薄膜优势-光浸润效应 Light-soaking effect
年产
量Po
wer
out
put
+2.0%positive sorting
+1.0%positive sorting
+2.5% 正公差 Positive Sorting
薄膜组件的高标准筛能够让组件产生更多电能, Positive sorting 0/+5 make sure that the module generate more electricity for Solibro CIGS.
薄膜组件优势-正公差 positive sorting
Solibro SL3-135 Yingli YL260P Sharp NA-V142CIGS Thin film module (Solibro, Hanergy)
单晶硅组件 Mono/Poly Si top class producer(一等生产商 )
宽边遮挡后的产能表现 Performance comparison under shading
如果晶硅电池板上的其中一块组件被遮挡,并且没有被回路二极管跳过,整块电池板都将不产能。If one cell is completely shaded, the module will lose almost its entire current and thus power.如果薄膜电池板被遮挡,组件只会损失对应比遮挡比例面积的产能。→If all cells are equally shaded, there will be only a partial power loss proportional to the shaded area.
标准晶硅组件Standard crystalline module
薄膜组件Thin film module
薄膜组件优势-遮挡效应 SHADING LOSSES
Imodule = I1 = I2 = …
薄膜组件优势-抗电诱导优势 Thin film module Potential Induced Degradation(PID) advantage
PID效应(Potential Induced Degradation)又称电势诱导衰减,是目前晶硅组件最严重最普遍的质量问题。PID also is known as electric Potential Induced attenuation, is themost common, the most serious quality problem for crystallinesilicon module.
薄膜电池组件采用丁基胶封边、背板玻璃保护,防水汽渗透能力强,并且采用无金属边框的形式,有效规避了PID现象。Some characteristics of thin-film module like butyl rubber sealingside, the back glass protection, preventing moisture penetrationcapability and without metal frame, effectively avoid thephenomenon of PID.
透明玻璃 Glass
薄膜太阳能电池 Cell
EVA 层 EVA Layer
背板玻璃 back side glass
膜玻璃 Glass
EVA 层 EVA layer
晶体硅太阳能电池 Cell
EVA 层 EVA Layer
TPT层压层 TPT Layer
薄膜太阳能电池Thin Film module
薄膜组件优势-封装工艺 Lamination —耐候性好 Good weathering resistance
晶硅体 c/poly SiVS
1. 通过双层玻璃的设计,背板玻璃增强组件强度,保证风沙下的使用寿命使薄膜组件抗风沙性较强, 抗湿度强Double glass encapsulation to improve the intensity of module and make sure the lifetime under the environment with strong sand or humidity 2. 表面光滑,更有效的吸收太阳能并阻止积灰堆积Surface is smooth, more effective absorption of solar energy and prevent dust accumulation 3. 薄膜组件和玻璃面板间不用EVA封装,较少成本的同时增加了光吸收率。EVA is not needed for encapsulation between front glass and thin film layer. To make sue less cost and increase the light absorption rate.
澳洲独立测试场 THIRD PARTY TESTING STATION
EXTERNAL SITES FOR TESTING MODULES AND SYSTEMS
Alice Springs & Photon test site Analysis of energy yield
Analysis of performance ratio
High precision and compatibility with national and international standards
Prognoses for energy yields of modules and systems; basis for financing of C&I free-standing power plants and rooftop projects
澳洲Alice Springs独立测试电站Austria Alice Springs Third party testing station
Project 测试电站 testing station
Site 艾利斯斯普林斯Alice Springs ,Australia
Capacity 5.61 千瓦
Direction 北
tilt angle 10°
COD date 2010年8月, April, 2010
Module Solibro SL1-85
Inverter SMA SMC 6000A
薄膜组件表现 Thin-film module performance:2014年比天合晶硅组件产电量高14%. In 2014, the electricity output is 14% higher than Trina Solar
2,1061,966
1,843 1,840
555
Solibro CIGS module CDTe module Calyxo Poly moduleEvergreen
Mono module Trina CIGS module SolcoChoice
产量
[度/千
瓦]
2014 Power ourput
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