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An economic and technological analysis of hybrid photovoltaic/wind turbine/battery renewable energy system with the highest self-sustainability

Qusay Hassan, Marek Jaszczur, Imad Saeed Abdulrahman, Hayder Mahmood Salman

2022Energy Harvesting and Systems31 citationsDOI

Abstract

Abstract This research established the technoeconomic feasibility of an on-grid hybrid renewable energy system for delivering electricity to the deanery building of the Engineering College at the University of Diyala, Iraq. The most cost-effective system design was discovered by modeling and optimization, with an average daily load of 25.0 kWh and total cost and energy cost of $5142 and $0.05/kWh, respectively. In relation to the energy generated by conventional resources, the designed system is more cost-effective and has a lower carbon footprint of about 13,052 kg/year of CO 2 emissions avoided. According to the research, using a hybrid power system to electrify and decarbonize the electrical energy supply could be a reliable and economical way to do both at the same time. Innovation is in integrating the suggested hybrid system so that the use of electricity can effectively be decreased to meet the load. As a result, the system components are not oversized, which reduces system costs and reduces emissions.

Topics & Concepts

Renewable energyPhotovoltaic systemHybrid systemAutomotive engineeringCarbon footprintElectricityTurbineSustainabilityEnvironmental economicsCost of electricity by sourceWind powerStand-alone power systemEnvironmental scienceElectricity generationComputer scienceDistributed generationPower (physics)Electrical engineeringEngineeringGreenhouse gasMechanical engineeringEconomicsEcologyQuantum mechanicsMachine learningBiologyPhysicsHybrid Renewable Energy SystemsEnergy and Environment ImpactsIntegrated Energy Systems Optimization
An economic and technological analysis of hybrid photovoltaic/wind turbine/battery renewable energy system with the highest self-sustainability | Litcius