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Full Description
The text provides a holistic view to reduce the use of fossil fuels and move towards sustainable future transportation fuels like biodiesel, ethanol, and hydrogen fuels. It explores the compatibility of biodiesel with vehicles and its utilization across various transport modes. The text further analyses the performance metrics, efficiency, and environmental impact compared to conventional diesel.
This book:
Provides an overview of alternative fuel sources, and offers a comprehensive analysis of biodiesel, ethanol, and hydrogen fuel.
Investigates practical applications via extensive case studies, which provide insights into how alternate fuels are being used in transportation.
Examines global policies, political efforts, and economic frameworks to provide readers with a comprehensive understanding of the regulatory framework.
Covers proton exchange membrane fuel cell, escalating methanisation in conventional biogas units, diesel engine performance enhancement through nano-additives, circular economy, and E-waste management.
Presents an in-depth analysis of the energy output of ethanol and its impact on vehicle performance metrics, and emissions reduction.
It is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of mechanical engineering, energy engineering, environmental engineering, manufacturing engineering, industrial and production engineering, and automotive engineering.
Contents
1. Navigating the Sustainable Fuel Revolution: A Crossroads of Legacy, Innovation, and the Green Imperative. 2. Performance and Emission Characteristics Analysis of a Light-Duty Diesel Engine Operating on Waste Plastic Oil Blended with Nanoparticles and Diesel Fuel. 3. Coco-Mixed Biodiesel as a novel Knock Mitigation for CI Engines: A Comprehensive Performance and Emission analysis. 4. Parametric Optimization of Biodiesel Production from Waste Cooking Oil Using the Taguchi Method. 5. Investigating the Interaction of Compression Ratio and Nanoparticle-Doped Waste Plastic Oil-Diesel Blends in a Light-Duty Engine. 6. A comprehensive analysis of biodiesel synthesis utilizing biomass derived from aquatic vegetation, along with an evaluation of its impact on engine performance and exhaust emissions. 7. Performance Assessment of Biogas Fuel and Effect of EGR in spark Ignited Engine. 8. Analysis of gasifier-IC engine performance characteristics using babul wood feedstock. 9. Cold flow properties: Applying Investigative study and evaluating prognostic procedures for biodiesel. 10. Experimental Investigations on the performance and emission characteristics of SI engine fueled with blends of ethanol and graphene oxide nanoparticles. 11. Effects waste cooking oil biodiesel with Al2O3 nanoparticles-diesel fuel blends on a light duty diesel engine emission. 12. Fault diagnosis of Proton Exchange Membrane Fuel Cell Power Systems for Maritime Applications. 13. Escalating methanisation in old conventional biogas units and developing the supply chain of Kamdhenu Natural Gas. 14. Enhancing Emission and Performance of a Diesel Engine through Nano-additives: A Review. 15. Circular Economy Models for Sustainable E-Waste Management & Need of Science Communication. 16. E-Waste Awareness, Disposal Behaviors and the Path toward Sustainable Management - A Study among Undergraduate Students at University of Colombo SriLanka. 17. Second Generation Biodiesel Feedstocks. 18. Application of Ethanol and Biodiesel in Diesel Engine: A Review.
