Exergetic design and analysis of a nuclear SMR reactor tetrageneration (combined water, heat, power, and chemicals) with designed PCM energy storage and a CO 2 gas turbine inner cycle

Exergetic design and analysis of a nuclear SMR reactor tetrageneration (combined water, heat, power, and chemicals) with designed PCM energy storage and a CO 2 gas turbine inner cycle

The tendency to renewables is one of the consequences of changing attitudes towards energy issues. As a result, solar energy, which is the leader among renewable energies based on availability and potential, plays a crucial role in full filing global needs. Significant problems with the solar therma...

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Bibliographic Details
Published in:Nuclear engineering and technology Vol. 53; no. 2; pp. 677 - 687
Main Authors: Norouzi, Nima, Fani, Maryam, Talebi, Saeed
Format: Journal Article
Language:Korean
Published: 2021
Subjects:
Tetrageneration
Cogeneration
Hybrid nuclear system
Solar thermal power plant
Exergy
Nuclear energy storage
Nuclear tetrageneration
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Summary:The tendency to renewables is one of the consequences of changing attitudes towards energy issues. As a result, solar energy, which is the leader among renewable energies based on availability and potential, plays a crucial role in full filing global needs. Significant problems with the solar thermal power plants (STPP) are the operation time, which is limited by daylight and is approximately half of the power plants with fossil fuels, and the capital cost. Exergy analysis survey of STPP hybrid with PCM storage carried out using Engineering Equation Solver (EES) program with genetic algorithm (GA) for three different scenarios, based on eight decision variables, which led us to decrease final product cost (electricity) in optimized scenario up to 30% compare to base case scenario from 28.99 $/kWh to 20.27 $/kWh for the case study. Also, in the optimal third scenario of this plant, the inner carbon dioxide gas cycle produces 1200 kW power with a thermal efficiency of 59% and also 1000 m3/h water with an exergy efficiency of 23.4% and 79.70 kg/h with an overall exergy efficiency of 34% is produced in the tetrageneration plant.
Bibliography:KISTI1.1003/JNL.JAKO202124452788542
ISSN:1738-5733
2234-358X