Journal ArticleDOI
Increased Hot-Plate Ignition Probability for Nanoparticle-Laden Diesel Fuel
Himanshu Tyagi,Patrick E. Phelan,Ravi Prasher,R.E. Peck,Tae-Woo Lee,J. R. Pacheco,Paul Arentzen +6 more
TLDR
The present study attempts to improve the ignition properties of diesel fuel by investigating the influence of adding aluminum and aluminum oxide nanoparticles to diesel by carrying out droplet ignition experiments atop a heated hot plate.Abstract:
The present study attempts to improve the ignition properties of diesel fuel by investigating the influence of adding aluminum and aluminum oxide nanoparticles to diesel. As part of this study, droplet ignition experiments were carried out atop a heated hot plate. Different types of fuel mixtures were used; both particle size (15 and 50 nm) as well as the volume fraction (0%, 0.1%, and 0.5%) of nanoparticles added to diesel were varied. For each type of fuel mixture, several droplets were dropped on the hot plate from a fixed height and under identical conditions, and the probability of ignition of that fuel was recorded based on the number of droplets that ignited. These experiments were repeated at several temperatures over the range of 688-768 degrees C. It was observed that the ignition probability for the fuel mixtures that contained nanoparticles was significantly higher than that of pure diesel.read more
Citations
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Journal ArticleDOI
Small particles, big impacts: A review of the diverse applications of nanofluids
Robert A. Taylor,Sylvain Coulombe,Todd Otanicar,Patrick E. Phelan,Andrey Gunawan,Wei Lv,Gary Rosengarten,Ravi Prasher,Himanshu Tyagi +8 more
TL;DR: Nanofluids have seen enormous growth in popularity since they were proposed by Choi in 1995 as mentioned in this paper, and there were nearly 700 research articles where the term nanofluid was used in the title, showing rapid growth from 2006 (175) and 2001 (10).
Journal ArticleDOI
Combustion characteristics of fuel droplets with addition of nano and micron-sized aluminum particles
Yanan Gan,Li Qiao +1 more
TL;DR: In this article, burning characteristics of fuel droplets containing nano and micron-sized aluminum particles were investigated, and five distinctive stages (preheating and ignition, classical combustion, microexplosion, surfactant flame, and aluminum droplet flame) were identified.
Journal ArticleDOI
The effect of nano-additives in diesel-biodiesel fuel blends: A comprehensive review on stability, engine performance and emission characteristics
Manzoore Elahi M. Soudagar,N. Nik-Ghazali,Md. Abul Kalam,Irfan Anjum Badruddin,Nagaraj R. Banapurmath,Naveed Akram +5 more
TL;DR: In this paper, the authors summarized the literature from most recent articles on nanoparticles as a liquid fuel additive and discussed the effect of dispersion of several nanoparticles on the enhancement in the performance characteristics and reduction in emission of a CI engine fuelled with diesel-biodiesel blends.
Journal ArticleDOI
Combined effect of influence of nano additives, combustion chamber geometry and injection timing in a DI diesel engine fuelled with ternary (diesel-biodiesel-ethanol) blends
TL;DR: In this paper, the combined effect of nano additives, combustion chamber geometry and injection timing in a single cylinder diesel engine fuelled with ternary fuel (diesel-biodiesel-ethanol) blends is investigated.
Journal ArticleDOI
Performance, emission and combustion characteristics of a diesel engine using Carbon Nanotubes blended Jatropha Methyl Ester Emulsions
J. Sadhik Basha,R.B. Anand +1 more
TL;DR: In this article, an experimental investigation was conducted in a single cylinder constant speed diesel engine to establish the effects of Carbon Nanotubes (CNT) with the Jatropha Methyl Esters (JME) emulsion fuel.
References
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TL;DR: Through an order-of-magnitude analysis of various possible mechanisms, convection caused by the Brownian movement of these nanoparticles is primarily responsible for the enhancement in k of these colloidal nanofluids.
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Combustion characteristics of fuel droplets with addition of nano and micron-sized aluminum particles
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