Investigation of solar cells lifetime in Iran

Sefid, Seyed Sajjad Salehi Ghaleh; Mirbagheri, Seyed Mohsen; Mousavi, Seyed Mohammad; Sefid, Seyed Ebrahim Salehi Ghaleh

doi:10.1109/pedes.2012.6484264

Cited by 3 publications

(2 citation statements)

References 7 publications

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“…Esse aumento da temperatura por longos períodos, degradam as células, reduzindo sua vida útil. Os conjuntos de vidro/ encapsulante, com o tempo, perdem elasticidade e a capacidade de proteger a célula da radiação ultravioleta e infravermelho (SEFID et al 2012).…”

Section: Tecnologiaunclassified

Integração de sistemas fotovoltaicos e aquecedores de água solar em telhados residenciais

Serrano

Moreira

Castro

et al. 2017

Nativa

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O aumento da demanda de energia elétrica no Brasil para os próximos 10 anos é de 4,25% ao ano, demandando assim uma expansão do sistema de 3,8% a.a., com previsão de crescimento médio da carga de energia de 2.900 MW ano-1. O aumento da demanda, somado aos recorrentes déficits hídricos em várias usinas hidrelétricas e a lentidão da expansão do sistema de geração sustentável, acarretará aumento do consumo de energia gerada por meio de combustíveis fósseis. Neste contexto, a implantação de sistemas híbridos (energia elétrica fotovoltaica e aquecedor de água solar) integrados a rede de distribuição de energia elétrica, apresenta-se como uma alternativa para reduzir essa demanda, com um potencial de produção média de cerca de 3.000 MWh mês-1 a cada 10 mil casas, que corresponde a energia produzida por uma pequena central hidrelétrica de 6 MW (FC = 0,7) de capacidade instalada. Palavras-chave: energia solar, aquecimento de água, matriz energética. Integration of photovoltaic systems and water heater solar roofs in residential ABSTRACT: The increase in electric energy demand in Brazil for the next 10 years is 4.25% per year, thus requiring an expansion of the system of 3.8% per year, with an expected average energy load growth of 2,900 MW year-1. The increase in demand coupled with the recurring water deficits in several hydroelectric plants and the slow expansion of the sustainable generation system will increase the consumption of energy generated by fossil. In this context, the deployment of hybrid systems (photovoltaic electricity and solar water heater) integrated electrical power distribution network, presents itself as an alternative to reduce this demand, with an average production potential of about 3,000 MWh month-1 every 10,000 homes, equivalent to the energy produced by a small hydroelectric power plant of 6 MW (FC = 0,7) of installed capacity.

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Section: Tecnologiaunclassified

Integração de sistemas fotovoltaicos e aquecedores de água solar em telhados residenciais

Serrano

Moreira

Castro

et al. 2017

Nativa

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“…The household load along with an automobile has been the leading sources for the depletion of the fossil fuels. 3,4 The power generation from the fossil fuels is destroying the environment by the exhaust of polluting gasses. 3,5,6 Due to the usage of conventional energy resources to meet the energy demand of domestic and industrial load, there is an adverse effect on the environment such as increasing pollution, acid rain, and global warming.…”

Section: Introductionmentioning

confidence: 99%

Comprehensive equation-based design of photovoltaic module to investigate its physical parameters and operating conditions used for small application

Saleem

Liu

et al. 2020

Measurement and Control

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Solar photovoltaic is clean and green energy for renewable power generation, which plays a vital role to fulfil the power shortage for any region. Photovoltaic array is quite expensive and has non-linear characteristics. Under varying conditions, it takes much time to give operating curves. Before mount photovoltaic for any application or at any location, there is a vital phase of analysis, modelling, and simulation of the photovoltaic system, which helps to understand the actual behaviour in real conditions. This paper emphasizes on the stepwise procedure of modelling and simulation for the photovoltaic panel, which is proposed to use for the small application. The proposed system provides a reliable, accurate, and simple method to model the photovoltaic system. It takes a flexible solar panel of 180 W as a reference model. The I–V and P–V characteristics are further investigated at different operating conditions such as a variation of irradiance from 1000 to 400 W/m2, variation of temperature from 15 to 70 °C, and vary shunt resistance from higher to low values. The equation-based modelling of the photovoltaic system is built in the MATLAB/Simulink. This methodology allows investigating the photovoltaic system on different operating conditions (varying temperature and irradiance) and physical parameters (ideality factor, series and shunt resistance) along with partial shading effect.

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An Electric Vehicle Using On-board Maximum Utilization of Renewable Energy For a Green and Clean Environment

Saleem

Liu

et al. 2020

2020 3rd International Conference on Computing, Mathematics and Engineering Technologies (iCoMET)

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Investigation of solar cells lifetime in Iran

Cited by 3 publications

References 7 publications

Integração de sistemas fotovoltaicos e aquecedores de água solar em telhados residenciais

Integração de sistemas fotovoltaicos e aquecedores de água solar em telhados residenciais

Comprehensive equation-based design of photovoltaic module to investigate its physical parameters and operating conditions used for small application

An Electric Vehicle Using On-board Maximum Utilization of Renewable Energy For a Green and Clean Environment

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