“…As biomass is an abundant energy resource found in different forms all over the world, it is an interesting option for energy generation and mitigating the problem of waste accumulation and viable fuel production [6]. Tehrani et al [7] proposed a cost-effective and sustainable HRES to harness the biomass potential, coupled with wind and solar energy. This study mainly focused on rural power supply for residential areas and freshwater demand in the southern and northern regions of Iran.…”
Clean and sustainable energy holds preeminent importance from a socio-environmental standpoint and can be achieved through the implementation of a Hybrid Renewable Energy System (HRES). As well as ensuring the stable and reliable operation of power systems amidst the increasing integration of renewable energy sources, precise source forecasting becomes indispensable. Thus, this paper presents a pioneering HRES design incorporating Photovoltaic (PV), Wind Turbine (WT), and Biogas Generator (Bio) technologies, wherein animal manure is utilized as biomass for the sustainable valorization of animal waste. The preliminary objective of this study is to address the prevailing gaps to attain sustainable energy production that is both cost-optimal and technically efficient. Consequently, this paper investigates source forecasting through time series modeling, and assesses the techno-environmental and economic viability of HRES (both off-grid and on-grid) within the northeastern state of India, specifically focusing on the case study of the Cachar district in Assam state. Moreover, real data analysis is conducted to model and optimize the hybrid system. The findings reveal promising outcomes in terms of cost, emissions, and electrical energy potential, which are presented and comprehensively discussed. Furthermore, a sensitivity analysis is performed to assess the system's robustness. The analyzed results are compared and validated with existing literature including different energy economics with optimum configurations. Finally, this study endeavors to project a future power system for one of the prominent regions in Assam, an Indian state.
“…As biomass is an abundant energy resource found in different forms all over the world, it is an interesting option for energy generation and mitigating the problem of waste accumulation and viable fuel production [6]. Tehrani et al [7] proposed a cost-effective and sustainable HRES to harness the biomass potential, coupled with wind and solar energy. This study mainly focused on rural power supply for residential areas and freshwater demand in the southern and northern regions of Iran.…”
Clean and sustainable energy holds preeminent importance from a socio-environmental standpoint and can be achieved through the implementation of a Hybrid Renewable Energy System (HRES). As well as ensuring the stable and reliable operation of power systems amidst the increasing integration of renewable energy sources, precise source forecasting becomes indispensable. Thus, this paper presents a pioneering HRES design incorporating Photovoltaic (PV), Wind Turbine (WT), and Biogas Generator (Bio) technologies, wherein animal manure is utilized as biomass for the sustainable valorization of animal waste. The preliminary objective of this study is to address the prevailing gaps to attain sustainable energy production that is both cost-optimal and technically efficient. Consequently, this paper investigates source forecasting through time series modeling, and assesses the techno-environmental and economic viability of HRES (both off-grid and on-grid) within the northeastern state of India, specifically focusing on the case study of the Cachar district in Assam state. Moreover, real data analysis is conducted to model and optimize the hybrid system. The findings reveal promising outcomes in terms of cost, emissions, and electrical energy potential, which are presented and comprehensively discussed. Furthermore, a sensitivity analysis is performed to assess the system's robustness. The analyzed results are compared and validated with existing literature including different energy economics with optimum configurations. Finally, this study endeavors to project a future power system for one of the prominent regions in Assam, an Indian state.
Despite the increasing global need for sustainable energy, biomass gasification is becoming a highly promising method for transforming raw biomass into usable energy. The present review article analyzes the essential aspects of biomass‐based energy production, starting with an assessment of existing energy needs and the crucial contribution that biomass can make in fulfilling these demands. The research investigates recent advancements in several biomass gasification methods, explaining their mechanics and discussing the related difficulties. The research conducts a thorough evaluation of the efficiency, yield, and environmental consequences of biomass gasification, aiming to determine the feasibility of the technique. In addition, the study rigorously assesses the techno‐economic factors of energy generation from biomass, providing valuable information on the economic viability and scalability of various biomass gasification techniques. The present study is focused on providing a comprehensive understanding of biomass gasification by analyzing current improvements and conducting a techno‐economic comparison to make well‐informed decisions for a sustainable energy future.
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