Abstract
This study proposed an optimal hybrid renewable energy system (HRES) to sustainably meet the dynamic electricity demand of a membrane bioreactor. The model-based HRES consists of solar photovoltaic panels, wind turbines, and battery banks with grid connectivity. Three scenarios, 101 sub-scenarios, and three management cases were defined to optimally design the system using a novel dual-scale optimization approach. At the system scale, the power-pinch analysis was applied to minimize both the size of components and the outsourced needed electricity (NE) from Vietnam’s electrical grid. At a local-scale, economic and environmental models were integrated, and the system was graphically optimized using a novel objective function, combined enviro-economic costs (CEECs). The results showed that the optimal CEECs were $850,710/year, $1,030,628/year, and $1,693,476/year for the management cases under good, moderate, and unhealthy air qualities, respectively. The smallest CEEC was obtained when 47% of the demand load of the membrane bioreactor was met using the HRES and the rest was supplied by the grid, resulting in 6,800,769 kg/year of CO2 emissions.
Highlights
Much research has been devoted to tackling contemporary problems including global warming, climate change, environmental pollution, and sustainable development
CoTnhceludsyionnams ic demand load of a Membrane bioreactor (MBR) was met by a model-based hybrid renewable energy system (HRES) comprising solar PVs, wind turbines (WTs), and BTBhse
Probable design configurations were assigned to three scenarios, 101 sub-scenarios, and three management cases
Summary
Much research has been devoted to tackling contemporary problems including global warming, climate change, environmental pollution, and sustainable development. Sustainable development establishes a basis on which the future world can be built. Many countries, including developing nations such as Vietnam, should set sustainable development strategies such as an optimal energy management to mitigate climate change impacts, and minimize environmental pollution by application of green energy sources [2,3]. Vietnam enjoys a variety of renewable energy sources such as hydro, solar, wind, biomass, geothermal, and wave energies, along with other Southeast Asian countries. Due to rapid economic development, urbanization, industrialization, and population growth, Vietnam’s energy demand is anticipated to increase by 11–16% in the near future. Sustainable energy production is unlikely without the efficient use of renewable energies [7]
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