A novel exergy optimization of Bushehr nuclear power plant by gravitational search algorithm (GSA)

In recent years metaheuristic optimization algorithms have been widely developed. These algorithms are inspired from nature for solving complicated engineering problems. In this work, gravitational search algorithm (GSA) based on Newton’s law of gravity is introduced for exergy optimization of the B...

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Bibliographic Details
Published in:Energy (Oxford) 2018-04, Vol.148, p.373-385
Main Authors: Naserbegi, A., Aghaie, M., Minuchehr, A., Alahyarizadeh, Gh
Format: Article
Language:English
Subjects:
Algorithms
BNPP
Boilers
Destruction
Energy
Energy consumption
Exergy
Fitness
Genetic algorithms
Genetic analysis
Gravitation
GSA
Heuristic methods
Nuclear energy
Nuclear power plants
Nuclear reactor components
Optimization
Pressure vessels
Reproductive fitness
Robustness (mathematics)
Search algorithms
Steam
Thermodynamics
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Summary:In recent years metaheuristic optimization algorithms have been widely developed. These algorithms are inspired from nature for solving complicated engineering problems. In this work, gravitational search algorithm (GSA) based on Newton’s law of gravity is introduced for exergy optimization of the Bushehr nuclear power plant (BNPP). The main objective in this work is to minimize exergy destruction in the BNPP. In this analysis, beside the GSA, Genetic Algorithm (GA) is applied and the performances of these algorithms in two different cases are compared. In first case, the sphere function as a challenging optimization problem is investigated and it is demonstrated that the GSA has reliable fitness values (3.7602e-17). In the next case, the exergy destruction of the BNPP is studied and the exergy efficiencies of all components in the BNPP are evaluated. The reactor core (pressure vessel) and steam generator with 1511.35 MWth and 146.65 MWth of exergy destructions and irreversibility ratios of 50.34% and 4.88%, are introduced as the main irreversible components, respectively. The exergy destruction in the BNPP with the application of the GSA and GA is minimized and the optimum operating parameters in desired streams are reported. The exergy destruction of the BNPP (1968.95 MWth) is minimized to 1965.9 MWth. The results indicate the effectiveness of the GSA and it is shown that the method has robust high-quality solution for exergy destruction optimization. [Display omitted] •The energy and exergy analysis of the BNPP is carried out.•The Gravitational Search Algorithm (GSA) is introduced for exergetic optimization of the BNPP.•The irreversibility and exergy destructions in components of the BNPP are studied.•The pressure vessel and steam generator are introduced as main sources of irreversibility.•The GSA results are compared with the GA and capability of the method is demonstrated.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2018.01.119