Module layout optimization using a genetic algorithm in light water modular nuclear reactor power plants.
Journal article
Wrigley, P., Wood, Paul, Stewart, Paul, Hall, Richard and Robertson, D. 2018. Module layout optimization using a genetic algorithm in light water modular nuclear reactor power plants. Nuclear Engineering and Design. https://doi.org/10.1016/j.nucengdes.2018.10.023
| Authors | Wrigley, P., Wood, Paul, Stewart, Paul, Hall, Richard and Robertson, D. |
|---|---|
| Abstract | The Small Modular Reactor (SMR) concept is designed such that it will solve some of the construction problems of large reactors. SMRs are designed to be “shop fabricated and then transported as modules to the sites for installation” (IAEA, 2018). As a consequence they theoretically have shorter build schedules and require less capital investment (Locatelli et al., 2014). Factory built modules can also increase safety and productivity, due to higher quality tools and inspection available. A literature review has highlighted substantial work has been undertaken in the research, development and construction of different types of reactors and reactor modules but the design of balance of plant modules has not been extensively researched (Wrigley et al., 2018). The focus of this paper is a case study for balance of plant modules in a light water reactor which also could have applications to other reactor types. Modules that are designed for factory build and transport may be built in a standardized module approach. By maximizing module size for transport, this maximizes work offsite, to achieve the cost and schedule savings associated. A design method needs to be developed to help support this approach. To enable this, a three step method is proposed: group components into modules, layout the modules and arrange components inside the modules. The Shearon Harris nuclear power plant was chosen for its publically available data. A previous study on this plant used matrix reordering techniques to group components and heuristically assign them to large modules, built for construction in an assembly area on site, highlighting a potential capital cost savings of 15%. This paper utilizes the same allocation of components to modules as the previous study but aims to undertake the challenge of how balance of plant modules should be arranged. The literature review highlighted that although the facility and plant layout problem has been extensively researched, mathematical layout optimization has not been applied to nuclear power plants. Many techniques for layout optimization have been developed for facilities and process plants however. The work in this paper develops an optimization model using a genetic algorithm for module layout and allocation within a nuclear power plant. This paper analysed two configurations of modules, where balance of plant modules are located on either one or two sides of the nuclear island. The objective function was to minimise pipe length. In the original research, where the plant was configured for assembly on site, the balance of plant modules are located around three sides of the nuclear island. The objective function was calculated at 14,914. As the distances are calculated rectilinearly, this number would be higher in reality as pipework has to be routed around containment. The optimization reduced the objective function by 33.9% and 37.8% for the three and four floor layouts respectively when balance of plant modules are located on two sides of the nuclear island. Furthermore, when modules are located on one side of the nuclear island, the objective function was reduced by 45.4% and 46.1% for three and four floor layouts respectively. This will reduce materials used, reduce build time and hence reduce the cost of a nuclear power plant. This method will also save design time when developing the layout of modules around the plant. |
The Small Modular Reactor (SMR) concept is designed such that it will solve some of the construction problems of large reactors. SMRs are designed to be “shop fabricated and then transported as modules to the sites for installation” (IAEA, 2018). As a consequence they theoretically have shorter build schedules and require less capital investment (Locatelli et al., 2014). Factory built modules can also increase safety and productivity, due to higher quality tools and inspection available. A literature review has highlighted substantial work has been undertaken in the research, development and construction of different types of reactors and reactor modules but the design of balance of plant modules has not been extensively researched (Wrigley et al., 2018). The focus of this paper is a case study for balance of plant modules in a light water reactor which also could have applications to other reactor types. Modules that are designed for factory build and transport may be built in a standardized module approach. By maximizing module size for transport, this maximizes work offsite, to achieve the cost and schedule savings associated. A design method needs to be developed to help support this approach. To enable this, a three step method is proposed: group components into modules, layout the modules and arrange components inside the modules. The Shearon Harris nuclear power plant was chosen for its publically available data. A previous study on this plant used matrix reordering techniques to group components and heuristically assign them to large modules, built for construction in an assembly area on site, highlighting a potential capital cost savings of 15%. This paper utilizes the same allocation of components to modules as the previous study but aims to undertake the challenge of how balance of plant modules should be arranged. The literature review highlighted that although the facility and plant layout problem has been extensively researched, mathematical layout optimization has not been applied to nuclear power plants. Many techniques for layout optimization have been developed for facilities and process plants however. The work in this paper develops an optimization model using a genetic algorithm for module layout and allocation within a nuclear power plant. This paper analysed two configurations of modules, where balance of plant modules are located on either one or two sides of the nuclear island. The objective function was to minimise pipe length. In the original research, where the plant was configured for assembly on site, the balance of plant modules are located around three sides of the nuclear island. The objective function was calculated at 14,914. As the distances are calculated rectilinearly, this number would be higher in reality as pipework has to be routed around containment. The optimization reduced the objective function by 33.9% and 37.8% for the three and four floor layouts respectively when balance of plant modules are located on two sides of the nuclear island. Furthermore, when modules are located on one side of the nuclear island, the objective function was reduced by 45.4% and 46.1% for three and four floor layouts respectively. This will reduce materials used, reduce build time and hence reduce the cost of a nuclear power plant. This method will also save design time when developing the layout of modules around the plant. | |
| Keywords | Layout optimization; Small modular nuclear reactor; Genetic algorithm; Balance of plant |
| Year | 2018 |
| Journal | Nuclear Engineering and Design |
| Publisher | Elsevier |
| ISSN | 0029-5493 |
| Digital Object Identifier (DOI) | https://doi.org/10.1016/j.nucengdes.2018.10.023 |
| Web address (URL) | http://hdl.handle.net/10545/623165 |
| http://creativecommons.org/licenses/by-nc-nd/4.0/ | |
| hdl:10545/623165 | |
| Publication dates | 03 Nov 2018 |
| Publication process dates | |
| Deposited | 29 Nov 2018, 14:55 |
| Accepted | 26 Oct 2018 |
| Contributors | University of Derby, University of Sheffield and Rolls-Royce Plc |
| File | File Access Level Open |
| File | File Access Level Open |
| File | File Access Level Controlled |
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Stewart, Paul 2015. Advances in control engineering. Machines — Open Access Engineering Journal.Electrical power and energy systems for transportation applications
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Gladwin, Daniel, Stewart, Paul and Stewart, Jill 2011. A controlled migration genetic algorithm operator for hardware-in-the-loop experimentation. Engineering Applications of Artificial Intelligence. https://doi.org/10.1016/j.engappai.2011.01.006Special Issue "Electrical Power and Energy Systems"
Stewart, Paul and Bingham, Chris 2013. Special Issue "Electrical Power and Energy Systems". Energies.Real-time thermal management of permanent magnet synchronous motors by resistance estimation
Wilson, S. D., Stewart, Paul and Stewart, Jill 2012. Real-time thermal management of permanent magnet synchronous motors by resistance estimation. IET Electric Power Applications. https://doi.org/10.1049/iet-epa.2010.0232Energy harvesting and power network architectures for the multibody advanced airship for transport high altitude cruiser-feeder airship concept
Smith, Tim, Bingham, Chris, Stewart, Paul, Allarton, R. and Stewart, Jill 2013. Energy harvesting and power network architectures for the multibody advanced airship for transport high altitude cruiser-feeder airship concept. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering. https://doi.org/10.1177/0954410012469319Aircraft taxi time prediction: Comparisons and insights
Ravizza, Stefan, Chen, Jun, Atkin, Jason A. D., Stewart, Paul and Burke, Edmund K. 2014. Aircraft taxi time prediction: Comparisons and insights. Applied Soft Computing. https://doi.org/10.1016/j.asoc.2013.10.004The trade-off between taxi time and fuel consumption in airport ground movement
Ravizza, Stefan, Chen, Jun, Atkin, Jason A. D., Burke, Edmund K. and Stewart, Paul 2013. The trade-off between taxi time and fuel consumption in airport ground movement. Public Transport. https://doi.org/10.1007/s12469-013-0060-1A review of thrust-vectoring in support of a V/STOL non-moving mechanical propulsion system
Páscoa, José, Dumas, Antonio, Trancossi, Michele, Stewart, Paul and Vucinic, Dean 2013. A review of thrust-vectoring in support of a V/STOL non-moving mechanical propulsion system. Central European Journal of Physics. https://doi.org/10.2478/s13531-013-0114-9Increasing aeronautic electric propulsion performances by cogeneration and heat recovery
Trancossi, Michele, Dumas, Antonio, Stewart, Paul and Vucinic, Dean 2014. Increasing aeronautic electric propulsion performances by cogeneration and heat recovery. SAE Transactions. https://doi.org/10.4271/2014-01-2106.Toward a More Realistic, Cost-Effective, and Greener Ground Movement Through Active Routing—Part I: Optimal Speed Profile Generation
Chen, Jun, Weiszer, Michal, Stewart, Paul and Shabani, Masihalah 2015. Toward a More Realistic, Cost-Effective, and Greener Ground Movement Through Active Routing—Part I: Optimal Speed Profile Generation. IEEE Transactions on Intelligent Transportation Systems. https://doi.org/10.1109/TITS.2015.2477350Integrated flight/thrust vectoring control for jet-powered unmanned aerial vehicles with ACHEON propulsion
Cen, Zhaohui, Smith, Tim, Stewart, Paul and Stewart, Jill 2014. Integrated flight/thrust vectoring control for jet-powered unmanned aerial vehicles with ACHEON propulsion. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering. https://doi.org/10.1177/0954410014544179A real-time Active Routing approach via a database for airport surface movement
Weiszer, Michal, Chen, Jun and Stewart, Paul 2015. A real-time Active Routing approach via a database for airport surface movement. Transportation Research Part C: Emerging Technologies. https://doi.org/10.1016/j.trc.2015.07.011A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation
Marques, Jose Pascoa, Porreca, Eliana, Smith, Tim, Stewart, Paul, Subhash, Maharshi, Sunol, Anna, Vucinic, Dean, Trancossi, Michele, Madonia, Mauro, Dumas, Antonio, Angeli, Diego, Bingham, Chris, das, shyam sumanta and Grimaccia, Francesco 2016. A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation. European Transport Research Review. https://doi.org/10.1007/s12544-016-0198-4Modelling hot (metal) sheet forming with cold tooling
Mis, Michal, Hall, Richard, Spence, Julian, Emekwuru, Nwabueze and Kibble, Kevin 2012. Modelling hot (metal) sheet forming with cold tooling. MSC Software.