ترجمه مقاله Simulation Study on the Effects of Changing Band Gap on Solar Cell Parameters  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">Simulationt style="color:red;background-color:#FFFF9F;">onont>ont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">Studyont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">theont> ont style="color:red;background-color:#FFFF9F;">Effectsont> ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">Changingont> ont style="color:red;background-color:#FFFF9F;">Bandont> ont style="color:red;background-color:#FFFF9F;">Gapont> ont style="color:red;background-color:#FFFF9F;">onont> Solar Cell Parameters


Abstract—We perform ont style="color:red;background-color:#FFFF9F;">theont> numerical analysis ont style="color:red;background-color:#FFFF9F;">ofont> a CIGS solar cell parameters such as open circuit voltage, short circuit current, maximum power, fill factor, and external quantum efficiency as a functiont style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">ofont> absorber layer band gap. These parameters are known to be ont style="color:red;background-color:#FFFF9F;">theont> key parameters ont style="color:red;background-color:#FFFF9F;">ofont> a solar cell to determine its performance. We change ont style="color:red;background-color:#FFFF9F;">theont> band gap ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> CIGS absorber layer by changing its alloy compositiont style="color:red;background-color:#FFFF9F;">onont>. ATLAS SILVACO is used to cont style="color:red;background-color:#FFFF9F;">onont>struct and simulate ont style="color:red;background-color:#FFFF9F;">theont> CIGS solar cell structure with standard AM1.5 spectra. The open circuit voltage and ont style="color:red;background-color:#FFFF9F;">theont> maximum power increase almost linearly with ont style="color:red;background-color:#FFFF9F;">theont> band gap. However, ont style="color:red;background-color:#FFFF9F;">theont> change in short circuit current and ont style="color:red;background-color:#FFFF9F;">theont> fill facto

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ترجمه مقاله Simulation Study on the Effects of Changing Band Gap on Solar Cell Parameters  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">Simulationt style="color:red;background-color:#FFFF9F;">onont>ont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">Studyont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">theont> ont style="color:red;background-color:#FFFF9F;">Effectsont> ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">Changingont> ont style="color:red;background-color:#FFFF9F;">Bandont> ont style="color:red;background-color:#FFFF9F;">Gapont> ont style="color:red;background-color:#FFFF9F;">onont> Solar Cell Parameters


Abstract—We perform ont style="color:red;background-color:#FFFF9F;">theont> numerical analysis ont style="color:red;background-color:#FFFF9F;">ofont> a CIGS solar cell parameters such as open circuit voltage, short circuit current, maximum power, fill factor, and external quantum efficiency as a functiont style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">ofont> absorber layer band gap. These parameters are known to be ont style="color:red;background-color:#FFFF9F;">theont> key parameters ont style="color:red;background-color:#FFFF9F;">ofont> a solar cell to determine its performance. We change ont style="color:red;background-color:#FFFF9F;">theont> band gap ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> CIGS absorber layer by changing its alloy compositiont style="color:red;background-color:#FFFF9F;">onont>. ATLAS SILVACO is used to cont style="color:red;background-color:#FFFF9F;">onont>struct and simulate ont style="color:red;background-color:#FFFF9F;">theont> CIGS solar cell structure with standard AM1.5 spectra. The open circuit voltage and ont style="color:red;background-color:#FFFF9F;">theont> maximum power increase almost linearly with ont style="color:red;background-color:#FFFF9F;">theont> band gap. However, ont style="color:red;background-color:#FFFF9F;">theont> change in short circuit current and ont style="color:red;background-color:#FFFF9F;">theont> fill facto

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بررسی اثرات استفاده از ابزار های ذخیره انرژی گرمایی(TESD) در گرم کننده هوای خورشیدی  

بررسی اثرات استفاده از ابزار های ذخیره انرژی گرمایی(TESD) در گرم کننده هوای خورشیدی


این ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> از انگلیسی به فارسی ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> شده است و فایل اصلی به صورت انگلیسی 11 صفحه به صورت pdf می باشد و فایل ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> شده آن به صورت فارسی 20 صفحه به صورتword می باشد .ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> برگرفته از الزویر می باشد و نویسندگان آن Amol Wadhawan, A.S. Dhoble, V.B. Gawandeعنوان فارسی:بررسی اثرات استفاده از ابزار های ذخیره انرژی گرمایی(TESD) در گرم کننده هوای خورشیدیچکیده:در این کار تحقیقی مقدمات

ادامه مطلب  

بررسی اثرات استفاده از ابزار های ذخیره انرژی گرمایی(TESD) در گرم کننده هوای خورشیدی  

بررسی اثرات استفاده از ابزار های ذخیره انرژی گرمایی(TESD) در گرم کننده هوای خورشیدی


این ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> از انگلیسی به فارسی ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> شده است و فایل اصلی به صورت انگلیسی 11 صفحه به صورت pdf می باشد و فایل ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> شده آن به صورت فارسی 20 صفحه به صورتword می باشد .ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> برگرفته از الزویر می باشد و نویسندگان آن Amol Wadhawan, A.S. Dhoble, V.B. Gawandeعنوان فارسی:بررسی اثرات استفاده از ابزار های ذخیره انرژی گرمایی(TESD) در گرم کننده هوای خورشیدیچکیده:در این کار تحقیقی مقدمات

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ترجمه مقاله Improving the performance of a multi-junction solar cell by optimizing BSF, base and emitter layers  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> Improving ont style="color:red;background-color:#FFFF9F;">theont> performance ont style="color:red;background-color:#FFFF9F;">ofont> a multi-junctiont style="color:red;background-color:#FFFF9F;">onont> solar cell by optimizing BSF, base and emitter layers


AbstractReducing ont style="color:red;background-color:#FFFF9F;">theont> recombinationt style="color:red;background-color:#FFFF9F;">onont> rate and increasing ont style="color:red;background-color:#FFFF9F;">theont> photo-generationt style="color:red;background-color:#FFFF9F;">onont> rate play a very significant role in improving ont style="color:red;background-color:#FFFF9F;">theont> performance ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> solar cells. In this research, AlGaAs has been used instead ont style="color:red;background-color:#FFFF9F;">ofont> GaAs in emitter layer with reductiont style="color:red;background-color:#FFFF9F;">onont> in thicknesses ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> base in order to decrease ont style="color:red;background-color:#FFFF9F;">theont> recombinationt style="color:red;background-color:#FFFF9F;">onont> rate and increase ont style="color:red;background-color:#FFFF9F;">theont> efficiency ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> proposed solar cell. In additiont style="color:red;background-color:#FFFF9F;">onont>, tunnel junctiont style="color:red;background-color:#FFFF9F;">onont>, buffer junctiont style="color:red;background-color:#FFFF9F;">onont> and BSF layers have been optimized to achieve higher efficiency. The efficiency can be improved by selecting optimal thickness ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> materials because ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> increase in photo-generationt style="color:red;background-color:#FFFF9F;">onont> rate and absorptiont style="color:red;background-color:#FFFF9F;">onont> rate, improving transparency ont style="color:red;background-color:#FFFF9F;">ofont>

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ترجمه مقاله Improving the performance of a multi-junction solar cell by optimizing BSF, base and emitter layers  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> Improving ont style="color:red;background-color:#FFFF9F;">theont> performance ont style="color:red;background-color:#FFFF9F;">ofont> a multi-junctiont style="color:red;background-color:#FFFF9F;">onont> solar cell by optimizing BSF, base and emitter layers


AbstractReducing ont style="color:red;background-color:#FFFF9F;">theont> recombinationt style="color:red;background-color:#FFFF9F;">onont> rate and increasing ont style="color:red;background-color:#FFFF9F;">theont> photo-generationt style="color:red;background-color:#FFFF9F;">onont> rate play a very significant role in improving ont style="color:red;background-color:#FFFF9F;">theont> performance ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> solar cells. In this research, AlGaAs has been used instead ont style="color:red;background-color:#FFFF9F;">ofont> GaAs in emitter layer with reductiont style="color:red;background-color:#FFFF9F;">onont> in thicknesses ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> base in order to decrease ont style="color:red;background-color:#FFFF9F;">theont> recombinationt style="color:red;background-color:#FFFF9F;">onont> rate and increase ont style="color:red;background-color:#FFFF9F;">theont> efficiency ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> proposed solar cell. In additiont style="color:red;background-color:#FFFF9F;">onont>, tunnel junctiont style="color:red;background-color:#FFFF9F;">onont>, buffer junctiont style="color:red;background-color:#FFFF9F;">onont> and BSF layers have been optimized to achieve higher efficiency. The efficiency can be improved by selecting optimal thickness ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> materials because ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> increase in photo-generationt style="color:red;background-color:#FFFF9F;">onont> rate and absorptiont style="color:red;background-color:#FFFF9F;">onont> rate, improving transparency ont style="color:red;background-color:#FFFF9F;">ofont>

ادامه مطلب  

ترجمه مقاله Improving the performance of a multi-junction solar cell by optimizing BSF, base and emitter layers  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> Improving ont style="color:red;background-color:#FFFF9F;">theont> performance ont style="color:red;background-color:#FFFF9F;">ofont> a multi-junctiont style="color:red;background-color:#FFFF9F;">onont> solar cell by optimizing BSF, base and emitter layers


AbstractReducing ont style="color:red;background-color:#FFFF9F;">theont> recombinationt style="color:red;background-color:#FFFF9F;">onont> rate and increasing ont style="color:red;background-color:#FFFF9F;">theont> photo-generationt style="color:red;background-color:#FFFF9F;">onont> rate play a very significant role in improving ont style="color:red;background-color:#FFFF9F;">theont> performance ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> solar cells. In this research, AlGaAs has been used instead ont style="color:red;background-color:#FFFF9F;">ofont> GaAs in emitter layer with reductiont style="color:red;background-color:#FFFF9F;">onont> in thicknesses ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> base in order to decrease ont style="color:red;background-color:#FFFF9F;">theont> recombinationt style="color:red;background-color:#FFFF9F;">onont> rate and increase ont style="color:red;background-color:#FFFF9F;">theont> efficiency ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> proposed solar cell. In additiont style="color:red;background-color:#FFFF9F;">onont>, tunnel junctiont style="color:red;background-color:#FFFF9F;">onont>, buffer junctiont style="color:red;background-color:#FFFF9F;">onont> and BSF layers have been optimized to achieve higher efficiency. The efficiency can be improved by selecting optimal thickness ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> materials because ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> increase in photo-generationt style="color:red;background-color:#FFFF9F;">onont> rate and absorptiont style="color:red;background-color:#FFFF9F;">onont> rate, improving transparency ont style="color:red;background-color:#FFFF9F;">ofont>

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ترجمه مقاله Design and evaluation of ARC less InGaPGaAs DJ solar cell with InGaP tunnel junction and optimized double top BSF layer  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> Design and evaluationt style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">ofont> ARC less InGaPGaAs DJ solar cell with InGaP tunnel junctiont style="color:red;background-color:#FFFF9F;">onont> and optimized double top BSF layer


The presence and performance ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> tunnel junctiont style="color:red;background-color:#FFFF9F;">onont> layer and back surface field (BSF) layers is ont style="color:red;background-color:#FFFF9F;">theont> chief reasont style="color:red;background-color:#FFFF9F;">onont> behind ont style="color:red;background-color:#FFFF9F;">theont> high efficiency ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> multi-junctiont style="color:red;background-color:#FFFF9F;">onont> solar cells. In this work, ont style="color:red;background-color:#FFFF9F;">theont> focus is ont style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">theont>s electiont style="color:red;background-color:#FFFF9F;">onont> ont style="color:red;background-color:#FFFF9F;">ofont> a suitable material for ont style="color:red;background-color:#FFFF9F;">theont> tunnel junctiont style="color:red;background-color:#FFFF9F;">onont> alont style="color:red;background-color:#FFFF9F;">onont>g with introducing a new top BSF layer. The simulationt style="color:red;background-color:#FFFF9F;">onont> work is carried out in ATLAS TCAD. The various performance parameters like open circuit voltage (VOC), short circuit current density (JSC), fill factor (FF) and efficiency () are extracted from ont style="color:red;background-color:#FFFF9F;">theont> proposed solar cell model and are compared with published results to ascertain ont style="color:red;background-color:#FFFF9F;">theont> accuracy ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> present work. O

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ترجمه مقاله Efficiency improvement of ARC less InGaP/GaAs DJ solar cell with InGaP tunnel junction and optimized two BSF layer in top and bottom cells  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> Efficiency improvement ont style="color:red;background-color:#FFFF9F;">ofont> ARC less InGaP/GaAs DJ solar cell with InGaP tunnel junctiont style="color:red;background-color:#FFFF9F;">onont> and optimized two BSF layer in top and bottom cells


BSF layers with different thicknesses have been used in ont style="color:red;background-color:#FFFF9F;">theont> upper and ont style="color:red;background-color:#FFFF9F;">theont> lower cell and simulationt style="color:red;background-color:#FFFF9F;">onont>s have been dont style="color:red;background-color:#FFFF9F;">onont>e using ont style="color:red;background-color:#FFFF9F;">theont> Silvaco ATLAS numerical modelling tools. It has been also found that in under ont style="color:red;background-color:#FFFF9F;">theont> current matching cont style="color:red;background-color:#FFFF9F;">onont>ditiont style="color:red;background-color:#FFFF9F;">onont> with thinner upper BSF layers (160 nm, 30 nm) and a thicker lower BSF layer (1000 nm, 30 nm), JSC short circuit current density and VOC open circuit voltage and cont style="color:red;background-color:#FFFF9F;">onont>versiont style="color:red;background-color:#FFFF9F;">onont> efficiency solar cell is improved. Major steps ont style="color:red;background-color:#FFFF9F;">ofont> simulationt style="color:red;background-color:#FFFF9F;">onont> and its descriptiont style="color:red;background-color:#FFFF9F;">onont> and results have been compared to ont style="color:red;background-color:#FFFF9F;">theont> previously published data in order to describe accuracy ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> results. By selecting ont style="color:red;background-color:#FFFF9F;">theont> best

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ترجمه مقاله Efficient InGaP/GaAs DJ solar cell with double back surface field layer  

ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">ترجمهont style="color:red;background-color:#FFFF9F;">onont>t> ont style="color:red;background-color:#FFFF9F;">onont>t style="color:red;background-color:#FFFF9F;">مقالهont style="color:red;background-color:#FFFF9F;">onont>t> Efficient InGaP/GaAs DJ solar cell with double back surface field layer


An effective and optimised BSF layer is an important layer in both single junctiont style="color:red;background-color:#FFFF9F;">onont> and multijunctiont style="color:red;background-color:#FFFF9F;">onont> solar cells. In this work ont style="color:red;background-color:#FFFF9F;">theont> use ont style="color:red;background-color:#FFFF9F;">ofont> ont style="color:red;background-color:#FFFF9F;">theont> double layer BSF for top cell with ont style="color:red;background-color:#FFFF9F;">theont>ir varied thicknesses is investigated ont style="color:red;background-color:#FFFF9F;">onont> GaInP/GaAs DJ solar cell using ont style="color:red;background-color:#FFFF9F;">theont> computationt style="color:red;background-color:#FFFF9F;">onont>al numerical modelling TCAD tool Silvaco ATLAS. The detail photo-generationt style="color:red;background-color:#FFFF9F;">onont> rates are determined. The major modelling stages are described and ont style="color:red;background-color:#FFFF9F;">theont> simulationt style="color:red;background-color:#FFFF9F;">onont> results are validated with published experimental data in order to describe ont style="color:red;background-color:#FFFF9F;">theont> accuracy ont style="color:red;background-color:#FFFF9F;">ofont> our results produced. For this optimized cell structure, ont style="color:red;background-color:#FFFF9F;">theont> maximum Jsc ¼ 17.33 mA/cm2, Voc ¼ 2.66 V, and fill factor (FF) ¼ 88.67% are obtained un

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صفحات ادامه نتايج:  1