Results 261 to 270 of about 57,882 (282)
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Renewable and Sustainable Energy Reviews, 2019
Abstract Mismatch losses ignore the performance of individual photovoltaic (PV) modules and cut back most of the power from the PV array. These losses mainly due to partial shading condition (PSC), are caused by the reduction of spacing between PV modules, passing clouds, and near buildings, etc.
G. Sai Krishna, Tukaram Moger
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Abstract Mismatch losses ignore the performance of individual photovoltaic (PV) modules and cut back most of the power from the PV array. These losses mainly due to partial shading condition (PSC), are caused by the reduction of spacing between PV modules, passing clouds, and near buildings, etc.
G. Sai Krishna, Tukaram Moger
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IEEE Transactions on Energy Conversion, 2019
Partial shading condition drastically reduces the maximum power output of photovoltaic array. Partial shading occurs due to several factors, such as flying birds, trees, and passing clouds. Many ways can be mitigated partial shading problems in photovoltaic (PV) array.
Sai G. Krishna, Tukaram Moger
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Partial shading condition drastically reduces the maximum power output of photovoltaic array. Partial shading occurs due to several factors, such as flying birds, trees, and passing clouds. Many ways can be mitigated partial shading problems in photovoltaic (PV) array.
Sai G. Krishna, Tukaram Moger
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IEEE Systems Journal, 2020
The building integrated photovoltaic (PV) central inverter architecture comprises various PV module configurations. The PV module configurations are vulnerable to shading effects and cause mismatching power losses. To reduce the detrimental impact of shading and mismatching on energy production, the PV distributed-maximum power point tracking (D-MPPT ...
Suneel Raju Pendem +2 more
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The building integrated photovoltaic (PV) central inverter architecture comprises various PV module configurations. The PV module configurations are vulnerable to shading effects and cause mismatching power losses. To reduce the detrimental impact of shading and mismatching on energy production, the PV distributed-maximum power point tracking (D-MPPT ...
Suneel Raju Pendem +2 more
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2018 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES), 2018
The Photovoltaic (PV) central inverter architecture comprises of various PV module configurations. The PV module configurations are vulnerable to shading effects and cause mismatching power losses. To reduce the detrimental effect of shading and mismatching on energy production, Distributed-Maximum Power Point Tracking (D-MPPT) architecture has been ...
Suneel Raju Pendem +2 more
openaire +2 more sources
The Photovoltaic (PV) central inverter architecture comprises of various PV module configurations. The PV module configurations are vulnerable to shading effects and cause mismatching power losses. To reduce the detrimental effect of shading and mismatching on energy production, Distributed-Maximum Power Point Tracking (D-MPPT) architecture has been ...
Suneel Raju Pendem +2 more
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Solar Energy, 2016
Abstract The goal of this paper is to investigate total-cross-tied (TCT) configuration under partial shading condition. A full investigation requires mathematical analysis and simulation. An accurate mathematical analysis gives us a better understanding of how partial shading affects the output curves of the solar cell, so we first mathematically ...
Shahram Mohammadnejad +2 more
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Abstract The goal of this paper is to investigate total-cross-tied (TCT) configuration under partial shading condition. A full investigation requires mathematical analysis and simulation. An accurate mathematical analysis gives us a better understanding of how partial shading affects the output curves of the solar cell, so we first mathematically ...
Shahram Mohammadnejad +2 more
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Solar Energy, 2020
Abstract Partial shading of photovoltaic (PV) arrays results in hot spot creation and multiple peaks in the power-voltage (P-V) characteristics which ultimately leads to mismatch power loss in the PV system. This loss is a function of the shading pattern and configuration of the PV array.
Gautam Sagar +3 more
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Abstract Partial shading of photovoltaic (PV) arrays results in hot spot creation and multiple peaks in the power-voltage (P-V) characteristics which ultimately leads to mismatch power loss in the PV system. This loss is a function of the shading pattern and configuration of the PV array.
Gautam Sagar +3 more
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2019
Partial shading restrains the output of photovoltaic (PV) system, as mismatch losses are prominent when shade dispersion is uneven in an array. Partial shading (PS) is unavoidable in residential installations and it is therefore essential to improve the output under such conditions.
S. Malathy, R. Ramaprabha
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Partial shading restrains the output of photovoltaic (PV) system, as mismatch losses are prominent when shade dispersion is uneven in an array. Partial shading (PS) is unavoidable in residential installations and it is therefore essential to improve the output under such conditions.
S. Malathy, R. Ramaprabha
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Productivity Enhancement of Total-Cross-Tied PV Array Under Static Shade Conditions
IEEE Transactions on Power Electronics, 2023Nikita Ramachandra, Rajasekar Natarajan
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Total Cross Tied-Inverted Triangle View Configuration for PV System Power Enhancement
Intelligent Automation & Soft Computing, 2022P. Rajesh, K. S. Saji
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Triple X Sudoku reconfiguration for alleviating shading effect on total-cross-tied PV array
Renewable Energy, 2023Ahmed Fathy +3 more
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