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Comparative evaluation of nanoparticle-enriched Gossypium hirsutum methyl ester blends for enhanced energy, emission, and economic performance in diesel engines

Suresh Vellaiyan

2025Cleaner Engineering and Technology13 citationsDOIOpen Access PDF

Abstract

This study examines the comparative effectiveness of different nanoparticles, metal-based (CuO), carbon-based (CNTs), and their composites (CuO-CNTs), in enhancing the energy and environmental characteristics of a diesel engine propelled with Gossypium hirsutum methyl ester (GHME). A high GHME yield of 96% was achieved under optimized transesterification conditions, and its physicochemical properties were comprehensively characterized. A 30% volumetric blend of GHME with plain diesel fuel (PDF), denoted as PDF30GHME, was prepared and enriched with 100 ppm of CuO, CNTs, and CuO-CNT nanocomposites using ultrasonication. The energy, environmental, and economic characteristics of these test fuels was assessed using a standalone research diesel engine. Nanoparticle characterization revealed improved catalytic and thermal properties, enhancing the combustion process and thermal efficiency. The base fuel blend, PDF30GHME, exhibited a 3.9% upsurge in brake-specific fuel consumption and a 6.6% reduction in brake thermal efficiency related to plain diesel. Emission analyses showed reductions in hydrocarbon, carbon monoxide, and smoke opacity emissions by 4.6%, 7.8%, and 6.4%, respectively, although nitrogen oxides (NOx) emissions increased by 2.7%. Nanoparticle-enriched PDF30GHME significantly improved both performance and emission metrics. Carbon-based additives demonstrated superior enhancements in engine performance and emissions reduction, while metal-based additives were particularly effective in minimizing NOx emissions. Economic analysis revealed that CuO-enriched PDF30GHME achieved the highest cost reduction, lowering fuel costs by 5.42%. The CuO-CNT composite emerged as the most promising additive, offering a balanced improvement in performance, emissions, and cost-effectiveness, positioning it as a viable candidate for sustainable and cleaner diesel engine operations.

Topics & Concepts

Gossypium hirsutumDiesel fuelMaterials scienceDiesel engineNanoparticleComposite materialChemical engineeringChemistryBotanyAutomotive engineeringOrganic chemistryBiologyNanotechnologyEngineeringBiodiesel Production and ApplicationsFood Chemistry and Fat AnalysisGinkgo biloba and Cashew Applications
Comparative evaluation of nanoparticle-enriched Gossypium hirsutum methyl ester blends for enhanced energy, emission, and economic performance in diesel engines | Litcius