Miglani, Ankur and Basu, Saptarshi (2015) Coupled Mechanisms of Precipitation and Atomization in Burning Nanofluid Fuel Droplets. In: SCIENTIFIC REPORTS, 5 .
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Abstract
Understanding the combustion characteristics of fuel droplets laden with energetic nanoparticles (NP) is pivotal for lowering ignition delay, reducing pollutant emissions and increasing the combustion efficiency in next generation combustors. In this study, first we elucidate the feedback coupling between two key interacting mechanisms, namely, secondary atomization and particle agglomeration; that govern the effective mass fraction of NPs within the droplet. Second, we show how the initial NP concentration modulates their relative dominance leading to a masterslave configuration. Secondary atomization of novel nanofuels is a crucial process since it enables an effective transport of dispersed NPs to the flame (a pre-requisite condition for NPs to burn). Contrarily, NP agglomeration at the droplet surface leads to shell formation thereby retaining NPs inside the droplet. In particular, we show that at dense concentrations shell formation (master process) dominates over secondary atomization (slave) while at dilute particle loading it is the high frequency bubble ejections (master) that disrupt shell formation (slave) through its rupture and continuous outflux of NPs. This results in distinct combustion residues at dilute and dense concentrations, thereby providing a method of manufacturing flame synthesized microstructures with distinct morphologies.
Item Type: | Journal Article |
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Publication: | SCIENTIFIC REPORTS |
Publisher: | NATURE PUBLISHING GROUP |
Additional Information: | Copy right for this article belongs to the NATURE PUBLISHING GROUP, MACMILLAN BUILDING, 4 CRINAN ST, LONDON N1 9XW, ENGLAND |
Department/Centre: | Division of Mechanical Sciences > Mechanical Engineering |
Date Deposited: | 30 Oct 2015 06:58 |
Last Modified: | 30 Oct 2015 06:58 |
URI: | http://eprints.iisc.ac.in/id/eprint/52633 |
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