Comparative study of alternative fuels for sustainable IC engine operation
Department of AutomobileEngineering, Karnataka (Govt.) Polytechnic, Mangalore, Karnataka, India.
Review Article
World Journal of Advanced Research and Reviews, 2021, 12(01), 512–520
Publication history:
Received on 01 August 2021; revised on 16 October 2021; accepted on 29 October 2021
Abstract:
The increasing environmental concerns, coupled with the rapid depletion of conventional fossil fuels, have prompted the automotive industry to explore alternative energy sources that can support the continued operation of internal combustion (IC) engines in a more sustainable manner. The need to mitigate greenhouse gas emissions, reduce dependence on finite fossil resources, and meet stringent environmental regulations has led to extensive research and development efforts in identifying viable alternative fuels. These fuels must not only align with the performance requirements of modern IC engines but also minimize their environmental footprint.This paper presents a comprehensive comparative analysis of various alternative fuels, including biodiesel, ethanol, hydrogen, natural gas, and synthetic fuels, each of which offers unique advantages and challenges. The study evaluates these fuels across key parameters, such as fuel availability, energy content, emissions profile, required engine modifications, and overall sustainability. The analysis takes into consideration the economic feasibility and infrastructure requirements for large-scale adoption of each fuel.Furthermore, the paper highlights the technological advancements and modifications necessary to optimize IC engines for these alternative fuels. This includes the impact of alternative fuels on engine efficiency, power output, fuel economy, and maintenance requirements. Special attention is given to emissions reduction strategies, with a focus on how each fuel contributes to lowering carbon dioxide (CO₂), nitrogen oxides (NOₓ), and particulate matter (PM) emissions.In addition to evaluating the current state of alternative fuels, the paper addresses the challenges associated with their adoption, including production scalability, distribution infrastructure, and compatibility with existing vehicle technologies. Finally, the future prospects of integrating these fuels into automotive applications are explored, considering the rapid rise of electric vehicles and other emerging technologies that may further influence the role of IC engines in the transition to sustainable transportation.The findings of this study suggest that while no single alternative fuel is likely to fully replace conventional gasoline and diesel in the near future, a combination of fuels, along with continued innovation in fuel production, engine technology, and policy support, will be necessary to achieve sustainable IC engine operation. The paper concludes by outlining the critical research areas and policy initiatives needed to promote the wider adoption of alternative fuels in the automotive sector.
Keywords:
Alternative Fuels; Internal Combustion Engines; Biodiesel; Ethanol; Hydrogen; Natural Gas; Synthetic Fuels; Sustainability; Emissions Reduction; Fuel Efficiency; Engine Modifications; Renewable Energy; Transportation; Fuel Availability; Environmental Impact; Automotive Technology.
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