Advancements in Green Fuel Technologies: The Synergistic Effect of Jatropha Biodiesel and Carbon Nanotubes on Diesel Engine Performance and Emissions

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Publicat a:	Journal of Engineering vol. 2025, no. 1 (2025)
Autor principal:	Ali, Muhammad Sarfraz
Altres autors:	Noor, Shazia, Shah, Asad Naeem, Saleem, Sadia, Rafique, Nasir, Yasin, Muhammad Muzzammil, Nazar, Muhammad Faheem, Hakizimana, Eustache
Publicat:	John Wiley & Sons, Inc.
Matèries:	Energy conversion Biodiesel fuels Diesel fuels Diesel engines Emissions control Nanoparticles Methane Hydrogen Additives Metal oxides Engines Nitrogen oxides Fuel economy Fuel consumption Oils & fats Efficiency Nanotubes Multi wall carbon nanotubes Raw materials Viscosity Fossil fuels Carbon Temperature Seeds Synergistic effect Emissions Vegetable oils Ammonia Carbon monoxide Combustion efficiency
Accés en línia:	Citation/Abstract Full Text Full Text - PDF
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022			\|a 2314-4904
024	7		\|a 10.1155/je/2641545 \|2 doi
035			\|a 3283330272
045	2		\|b d20250101 \|b d20251231
084			\|a 259336 \|2 nlm
100	1		\|a Ali, Muhammad Sarfraz \|u Department of Transport Engineering, , Faculty of Mechanical Engineering and Design, , Kaunas University of Technology, , Kaunas, , Lithuania, <url href="http://ktu.lt">ktu.lt</url>
245	1		\|a Advancements in Green Fuel Technologies: The Synergistic Effect of Jatropha Biodiesel and Carbon Nanotubes on Diesel Engine Performance and Emissions
260			\|b John Wiley & Sons, Inc. \|c 2025
513			\|a Journal Article
520	3		\|a This experimental study investigates the impact of biodiesel derived from Jatropha oil and multiwalled carbon nanotubes (CNTs) on the performance and emissions of a diesel engine. The analysis involved five fuel conditions: pure diesel (D), diesel blended with 50% biodiesel (DB50), diesel blended with 80% biodiesel (DB80), diesel blended with 50% biodiesel and CNTs (DB50C), and diesel blended with 80% biodiesel and CNTs (DB80C). The results indicate that biodiesel blends, particularly those enhanced with CNTs, significantly improve fuel efficiency and engine performance. Blends with additives (DB50C and DB80C) exhibited higher brake power (BP) and lower brake‐specific fuel consumption (BSFC) across various engine speeds, indicating more effective energy conversion and better fuel economy. Moreover, emissions analysis revealed that biodiesel blends with CNTs significantly reduce harmful emissions. Emissions of carbon monoxide (CO), unburned hydrocarbons (UHCs), and nitrogen oxide (NOx) were consistently lower for DB50C and DB80C compared to D. The most notable reduction of 23.9% in NOx emissions occurred at an engine speed of 2200, while CO and UHC emissions were reduced by 17.8% and 15.4%, respectively, at engine speeds of 1600 rpm. These findings suggest that the use of biodiesel with CNT additives not only increases combustion efficiency but also contributes to cleaner engine operation. This study emphasizes the potential of biodiesel, especially when combined with advanced nanoparticles, as a practical and environmentally friendly alternative to conventional diesel fuel.
653			\|a Energy conversion
653			\|a Biodiesel fuels
653			\|a Diesel fuels
653			\|a Diesel engines
653			\|a Emissions control
653			\|a Nanoparticles
653			\|a Methane
653			\|a Hydrogen
653			\|a Additives
653			\|a Metal oxides
653			\|a Engines
653			\|a Nitrogen oxides
653			\|a Fuel economy
653			\|a Fuel consumption
653			\|a Oils & fats
653			\|a Efficiency
653			\|a Nanotubes
653			\|a Multi wall carbon nanotubes
653			\|a Raw materials
653			\|a Viscosity
653			\|a Fossil fuels
653			\|a Carbon
653			\|a Temperature
653			\|a Seeds
653			\|a Synergistic effect
653			\|a Emissions
653			\|a Vegetable oils
653			\|a Ammonia
653			\|a Carbon monoxide
653			\|a Combustion efficiency
700	1		\|a Noor, Shazia \|u Department of Mechanical Engineering, , Bahauddin Zakariya University, , Multan, , Pakistan, <url href="http://bzu.edu.pk">bzu.edu.pk</url>
700	1		\|a Shah, Asad Naeem \|u Department of Mechanical Engineering, , University of Engineering and Technology, , Lahore, , Pakistan, <url href="http://uet.edu.pk">uet.edu.pk</url>
700	1		\|a Saleem, Sadia \|u Institute of CS and IT, , The Women University, , Multan, , Pakistan, <url href="http://wum.edu.pk">wum.edu.pk</url>
700	1		\|a Rafique, Nasir \|u Department of Mechanical Engineering, , University of Engineering and Technology, , Lahore, , Pakistan, <url href="http://uet.edu.pk">uet.edu.pk</url>
700	1		\|a Yasin, Muhammad Muzzammil \|u Department of Mechanical Engineering, , University of Management and Technology, , Lahore, , Pakistan, <url href="http://umt.edu.pk">umt.edu.pk</url>
700	1		\|a Nazar, Muhammad Faheem \|u Department of Mechanical Engineering, , University of Engineering and Technology, , Lahore, , Pakistan, <url href="http://uet.edu.pk">uet.edu.pk</url>
700	1		\|a Hakizimana, Eustache \|u Department of Mechanical and Energy Engineering, , University of Rwanda, , Kigali, , Rwanda, <url href="http://ur.ac.rw">ur.ac.rw</url>
773	0		\|t Journal of Engineering \|g vol. 2025, no. 1 (2025)
786	0		\|d ProQuest \|t Engineering Database
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3283330272/abstract/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text \|u https://www.proquest.com/docview/3283330272/fulltext/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3283330272/fulltextPDF/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch