Global energy demands and applications can be served using polygeneration systems and to operate such units, solar renewable energy might be employed as a primitive source in hybridization with other both renewable and non-renewable energies. Solar energy-powered devices are a rapidly growing area of concern due to their vast availability and relatively mature technologies. The purpose of the present study is to thoroughly review, classify, and discuss the many arrangements, advantages, possibilities, difficulties, possible research avenues, and commercial opportunities of polygenerational solar energy systems. The research additionally investigates the hybridization of systems for polygenerational applications employing renewable energy technologies. The literature review illustrates multiple approaches to constructing solar energy-driven polygeneration systems by integrating various processes and components. These systems have several advantages, including increased productivity, reduced investment and operational costs, and decreased emissions of carbon dioxide. Routine operation and dispatch ability authority can be achieved by the hybridization of solar energy with other energy resources. This review illustrates that many thermodynamic, economic, and environmental factors should be taken into account while selecting and developing configurations.

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Recent Developments in the Modelling and Optimization of Solar Hybrid Polygeneration Systems

  • Utpal Kumar Dutta,
  • Agnimitra Biswas,
  • Dipankar Bhanja

摘要

Global energy demands and applications can be served using polygeneration systems and to operate such units, solar renewable energy might be employed as a primitive source in hybridization with other both renewable and non-renewable energies. Solar energy-powered devices are a rapidly growing area of concern due to their vast availability and relatively mature technologies. The purpose of the present study is to thoroughly review, classify, and discuss the many arrangements, advantages, possibilities, difficulties, possible research avenues, and commercial opportunities of polygenerational solar energy systems. The research additionally investigates the hybridization of systems for polygenerational applications employing renewable energy technologies. The literature review illustrates multiple approaches to constructing solar energy-driven polygeneration systems by integrating various processes and components. These systems have several advantages, including increased productivity, reduced investment and operational costs, and decreased emissions of carbon dioxide. Routine operation and dispatch ability authority can be achieved by the hybridization of solar energy with other energy resources. This review illustrates that many thermodynamic, economic, and environmental factors should be taken into account while selecting and developing configurations.