Energy and exergy analysis of solar photovoltaic thermal system: experimental and numerical verification

Gül, Metin; Akyüz, Ersin

doi:10.1504/ijex.2021.10034153

Cited by 2 publications

(1 citation statement)

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“…The photovoltaic/thermal (PVT) is a hybrid system that combines solar thermal and electrical power simultaneously (Gül & Akyüz, 2021). The performance of PV systems is influenced significantly by various weather conditions, such as (Solar Irradiance (SR), Temperature (TM), Relative Humidity (RH), Wind Speed (WS), Wind Direction (WD), Sunshine Hours (SH), Evaporation (EVA), Pressure (PRE), Cloud (CL), Cell Temperature (TC), Fluid Temperature (FT), etc.…”

Section: Big Data Techniques For Renewable Energymentioning

confidence: 99%

Implementation of Big Data Analytics for Simulating, Predicting & Optimizing the Solar Energy Production

Yousif

2021

ACJ

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The notable developments in renewable energy facilities and resources help reduce the cost of production and increase production capacity. Therefore, developers in renewable energy evaluate the overall performance of the various equipment, methods, and structure and then determine the optimal variables for the design of energy production systems. Variables include equipment characteristics and quality, geographical location, and climatic variables such as solar irradiance, temperature, humidity, dust, etc. This paper investigated and reviewed the current big data methods and tools in solar energy production. It discusses the comprehensive two-stage design and evaluation for examining the optimal structure for renewable energy systems. In the design stage, technical and economic aspects are discussed based on a robust analysis of all input/output variables for determining the highest performance. Next, assess and evaluate the effectiveness of each method under different circumstances conditions. Then convert each qualitative indicator into a quantitative measure using extensive data analysis methods to determine the overall performance of the various qualitative variables. The paper also provides an in-depth analysis of the mathematical techniques used in measuring the efficiency of the renewable energy production system and discussing future axes of work in the field of specific energy.

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Section: Big Data Techniques For Renewable Energymentioning

confidence: 99%

Implementation of Big Data Analytics for Simulating, Predicting & Optimizing the Solar Energy Production

Yousif

2021

ACJ

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Implementation of Big Data Analytics for Simulating, Predicting & Optimizing the Solar Energy Production

Yousif¹

2021

Preprint

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<p>This paper investigated and reviewed the current big data methods and tools in solar energy production. It discusses the comprehensive two-stage design and evaluation for examining the optimal structure for renewable energy systems. In the design stage, technical and economic aspects are discussed based on a robust analysis of all input/output variables for determining the highest performance. Next, assess and evaluate the effectiveness of each method under different circumstances conditions. Then convert each qualitative indicator into a quantitative measure using extensive data analysis methods to determine the overall performance of the various qualitative variables. The paper also provides an in-depth analysis of the mathematical techniques used in measuring the efficiency of the renewable energy production system and discussing future axes of work in the field of specific energy.</p>

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Energy and exergy analysis of solar photovoltaic thermal system: experimental and numerical verification

Cited by 2 publications

References 0 publications

Implementation of Big Data Analytics for Simulating, Predicting & Optimizing the Solar Energy Production

Implementation of Big Data Analytics for Simulating, Predicting & Optimizing the Solar Energy Production

Implementation of Big Data Analytics for Simulating, Predicting & Optimizing the Solar Energy Production

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