Resumen:
Energy transition requires scaling up the supply of low emissions electricity from renewable energy sources (RESs) and acceleration of deployment of dispatchable sources of low emissions electricity such as hydro and nuclear. Power output from RESs, particularly photovoltaic (PV) generation, can vary periodically and irregularly, depending on weather conditions. At high PV penetration levels, this peculiarity of the technology can not only cause voltage and power flow fluctuations in the local distribution grids, but also violate the demand-supply balance of a whole energy system, resulting in issues with frequency control and difficulty of demand supply management. This study is primarily focused on demand and supply balancing of an energy system with high PV penetration levels, assuming a significant share of nuclear power plants (NPPs), as well as thermal power plants (TPPs) and a strong transmission system. The potential benefits of flexible nuclear operations in an energy system are analyzed. It is demonstrated that nuclear power plants’ flexibility can reduce the share of environmentally unfriendly thermal power units and substantially reduce the restrictions for renewable energy. The IEEE 9-bus test system is used for the case study.
Resumen divulgativo:
Esta investigación examina cómo la flexibilidad de la energía nuclear puede ayudar a manejar niveles altos de energía solar, estabilizando la red y minimizando la dependencia de fuentes contaminantes para un futuro energético sostenible.
Palabras Clave: nuclear energy; flexible operation; renewable energy integration; demand-supply balancing; transmission power system; nuclear terrorism
Índice de impacto JCR y cuartil WoS: 1,400 - Q2 (2023)
Referencia DOI: https://doi.org/10.12700/APH.20.11.2023.11.8
Publicado en papel: 2023.
Cita:
I. Diahovchenko, I. Yevtushenko, M. Kolcun, Z. Čonka, T. Zahorodnia, P. Vasyleha, Demand-supply balancing in energy systems with high photovoltaic penetration, using flexibility of nuclear power plants. Acta Polytechnica Hungarica. Vol. 20, nº. 11, pp. 115 - 135, 2023.