However, fossil fuels are still used worldwide as the main source for electricity generation. This work aims to contribute to the energy transition by exploring the best options for
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Power cycles are used in all thermal energy plants—including coal, natural gas, and nuclear energy plants—to convert heat into electricity. Concentrating solar-thermal power (CSP) plants are no
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Conventional and advanced thermodynamic cycles to produce electricity in solar thermal power plants.
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This study proposes and investigates a novel solar power tower-based tri-generation system producing electricity, hydrogen, and green ammonia through integrated thermodynamic cycles.
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In the present comparative study, the four configurations of the combined sCO 2 cycle and ORC were considered to utilize solar energy efficiently through the solar power tower system.
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Solar energy, the most available renewable energy source, has received more attention in recent years to fulfill the demand for electrical power. The use of solar energy not only reduces
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Solar energy can be converted to electrical energy using different technologies such as photovoltaic (PV) panels or thermal power plants. Solar thermal power plants are based on
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Next-generation CSP system designs use sCO 2 turbine power cycles to more efficiently convert solar thermal energy to electricity and reduce the cost of CSP technology.
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Integrated Solar Combined Cycle (ISCC) power generation represents a cutting‐edge hybrid configuration that integrates solar thermal technology with conventional combined cycle systems.
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Abstract This paper provides a review of high-efficiency thermodynamic cycles and their applicability to concentrating solar power systems, primarily focusing on high-efficiency single and
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