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Nowadays, the evolution of solar energy use has turned into a profound issue because of the implications of many points of view, such as technical, social, economic and environmental that impose major constraints for policy-makers in optimizing solar energy alternatives. The topographical constraints regarding the availability of inexhaustible solar energy is driving field development and highlights the need for increasingly more complex solar power systems. The solar energy is an inexhaustible source of CO2 emission-free energy at a global level. Solar thermal technologies may produce electric power when they are associated with thermal energy storage, and this may be used as a disposable source of limitless energy. Furthermore, it can also be used in industrial processes. Using these high-tech systems in a large area of practice emboldens progress at the performance level. This work compiles the latest literature in order to provide a timely review of the evolution and worldwide implementation of Concentrated Solar Power—CSP—mechanization. The objective of this analysis is to provide thematic documentation as a basis for approaching the concept of a polygeneration solar system and the implementation possibilities. It also aims to highlight the role of the CSP in the current and future world energy system.
Maria Simona Răboacă; Gheorghe Badea; Adrian Enache; Constantin Filote; Gabriel Răsoi; Mihai Rata; Alexandru Lavric; Raluca-Andreea Felseghi. Concentrating Solar Power Technologies. Energies 2019, 12, 1048 .
AMA StyleMaria Simona Răboacă, Gheorghe Badea, Adrian Enache, Constantin Filote, Gabriel Răsoi, Mihai Rata, Alexandru Lavric, Raluca-Andreea Felseghi. Concentrating Solar Power Technologies. Energies. 2019; 12 (6):1048.
Chicago/Turabian StyleMaria Simona Răboacă; Gheorghe Badea; Adrian Enache; Constantin Filote; Gabriel Răsoi; Mihai Rata; Alexandru Lavric; Raluca-Andreea Felseghi. 2019. "Concentrating Solar Power Technologies." Energies 12, no. 6: 1048.
Since mid 2010, petrol consumption in the transport sector has increased at a higher rate than in other sectors. The transport sector generates 35% of the total CO2 emissions. In this context, strategies have been adopted to use clean energy, with electromobility being the main directive. This paper examines the possibility of charging electric vehicle batteries with clean energy using solar autochthonous renewable resources. An isolated system was designed, dimensioned, and simulated in operation for a charging station for electric vehicles with photovoltaic panels and batteries as their main components. The optimal configuration of the photovoltaic system was complete with improved Hybrid Optimization by Genetic Algorithms (iHOGA) software version 2.4 and we simulated its operation. The solar energy system has to be designed to ensure that the charging station always has enough electricity to supply several electric vehicles throughout all 24 h of the day. The main results were related to the energy, environmental, and economic performance achieved by the system during one year of operation.
Gheorghe Badea; Raluca-Andreea Felseghi; Mihai Varlam; Constantin Filote; Mihai Culcer; Mariana Iliescu; Maria Simona Răboacă. Design and Simulation of Romanian Solar Energy Charging Station for Electric Vehicles. Energies 2018, 12, 74 .
AMA StyleGheorghe Badea, Raluca-Andreea Felseghi, Mihai Varlam, Constantin Filote, Mihai Culcer, Mariana Iliescu, Maria Simona Răboacă. Design and Simulation of Romanian Solar Energy Charging Station for Electric Vehicles. Energies. 2018; 12 (1):74.
Chicago/Turabian StyleGheorghe Badea; Raluca-Andreea Felseghi; Mihai Varlam; Constantin Filote; Mihai Culcer; Mariana Iliescu; Maria Simona Răboacă. 2018. "Design and Simulation of Romanian Solar Energy Charging Station for Electric Vehicles." Energies 12, no. 1: 74.
Gheorghe Badea; Teodora M. Şoimoşan; Ioan Giurca; Ioan Aşchilean. Aspects regarding using solar energy in heating systems and sanitary hot water. 2021, 1 .
AMA StyleGheorghe Badea, Teodora M. Şoimoşan, Ioan Giurca, Ioan Aşchilean. Aspects regarding using solar energy in heating systems and sanitary hot water. . 2021; ():1.
Chicago/Turabian StyleGheorghe Badea; Teodora M. Şoimoşan; Ioan Giurca; Ioan Aşchilean. 2021. "Aspects regarding using solar energy in heating systems and sanitary hot water." , no. : 1.
Gheorghe Badea; Ioan Giurca; Ioan Aşchilean; Teodora M. Şoimoşan. Choosing the optimal fuel cell technology for application in the field of passive houses. 2021, 1 .
AMA StyleGheorghe Badea, Ioan Giurca, Ioan Aşchilean, Teodora M. Şoimoşan. Choosing the optimal fuel cell technology for application in the field of passive houses. . 2021; ():1.
Chicago/Turabian StyleGheorghe Badea; Ioan Giurca; Ioan Aşchilean; Teodora M. Şoimoşan. 2021. "Choosing the optimal fuel cell technology for application in the field of passive houses." , no. : 1.