Please use this identifier to cite or link to this item: http://dspace.iitrpr.ac.in:8080/xmlui/handle/123456789/3418
Title: Postponement of dynamic Leidenfrost phenomenon during droplet impact of surfactant solutions
Authors: Prasad, G.V.V
Dhar, P.
Samanta, D.
Keywords: Boiling
Droplet
Heat transfer
Leidenfrost effect
Phase change
Surfactants
Issue Date: 28-May-2022
Abstract: In this article, a novel method of increasing the dynamic Leidenfrost temperature TDL is proposed by adding both anionic (SDS) and cationic (CTAB) surfactants to water droplets. We focus on understanding the hydrodynamics and thermal aspects of droplet impact Leidenfrost behavior of surfactant solutions and aim to delay the onset of the Leidenfrost regime. The effects of Weber number (We), Ohnesorge number (Oh), and surfactant concentration on dynamic Leidenfrost temperature (TDL) were experimentally studied in detail, covering a wide gamut of governing parameters. At a fixed impact velocity, TDL was increased with increase of surfactant concentration. TDL decreased with the increase of impact velocity for all solutions of surfactant droplets at a fixed surfactant concentration. We proposed a scaling relationship for TDL in terms of We and Oh. At temperatures (∼ 400 °C) considerably higher than TDL, droplets exhibit trampoline-like dynamics or central jet formation, associated with fragmentation, depending upon the impact velocity. Finally, a regime map of the different boiling regimes such as transition boiling, Leidenfrost effect, trampolining, and explosive behavior was presented as a function of impact We and substrate temperature (TS). The findings may hold substantial implications in thermal management systems operating at high temperatures.
URI: http://localhost:8080/xmlui/handle/123456789/3418
Appears in Collections:Year-2022

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