A Review on Feasibility of Solar Based Renewable Energy: A Projection Up to 2050

Mia, Nasim; Das, Saikat; Hossain, Md. Sakhawat; Ahmed, Nadim

doi:10.1109/temsmet51618.2020.9557402

Cited by 3 publications

References 6 publications

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Improving quality of electricity generated by grid-tied inverters in solar power plants in low generated power mode using frequency adaptive PWM

Plakhtii,

Nerubatskyi,

Ivakhno

et al. 2024

At - Automatisierungstechnik

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The article presents the results of a study of the dependence of the quality indicators of electricity generated by solar power plants in three-phase electrical networks on the level of generated power. In the course of the study, it was established that when the generated power is reduced, the grid voltage inverters that are part of the solar power plants cause an increase in the share of higher harmonic currents to the electric grid. An analysis of international standards regarding the quality requirements of the generated current was performed, which showed that when the level of generated power decreases, the quality of electric energy decreases and may not meet the requirements of the standard. The algorithm of frequency-adaptive pulse-width modulation is proposed, which allows to improve the quality indicators of the electricity generated by the grid inverter of the voltage of the solar power plant to the electrical grid.

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Improving quality of electricity generated by grid-tied inverters in solar power plants in low generated power mode using frequency adaptive PWM

Plakhtii,

Nerubatskyi,

Ivakhno

et al. 2024

At - Automatisierungstechnik

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A Comprehensive Evaluation of Photovoltaic Simulation Softwares: A Decision-Making Approach Using Analytic Hierarchy Process and Performance Analysis

Islam,

Ali,

Benitez

et al. 2024

Preprint

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The Impact of Abrupt Sunlight Reduction Scenarios on Renewable Energy Production

Varne,

Blouin,

Williams

et al. 2024

Energies

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To combat global warming, energy systems are transitioning to generation from renewable sources, such as wind and solar, which are sensitive to climate conditions. While their output is expected to be little affected by global warming, wind, and solar electricity generation could be affected by more drastic climatic changes, such as abrupt sunlight reduction scenarios (ASRSs) caused by nuclear war (“nuclear winter”) or supervolcanic eruptions (“volcanic winter”). This paper assesses the impacts of an ASRS on global energy supply and security in a 100% renewable energy scenario. National generation mixes are determined according to roadmaps for a global transition to renewable energy, with wind and solar contributing a combined 94% of the global energy supply. Wind and solar generation are determined for a baseline climate and an ASRS following a large-scale nuclear exchange. While effects vary by country, overall wind and solar generation are expected to reduce by 59% in the first year following an ASRS, requiring over a decade for full recovery. Ensuring sufficient energy for everyone’s critical needs, including water, food, and building heating/cooling, would require international trade, resilient food production, and/or resilient energy sources, such as wood, geothermal, nuclear power, tidal power, and hydropower.

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A Review on Feasibility of Solar Based Renewable Energy: A Projection Up to 2050

Cited by 3 publications

References 6 publications

Improving quality of electricity generated by grid-tied inverters in solar power plants in low generated power mode using frequency adaptive PWM

Improving quality of electricity generated by grid-tied inverters in solar power plants in low generated power mode using frequency adaptive PWM

A Comprehensive Evaluation of Photovoltaic Simulation Softwares: A Decision-Making Approach Using Analytic Hierarchy Process and Performance Analysis

The Impact of Abrupt Sunlight Reduction Scenarios on Renewable Energy Production

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