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A liquid-pool simulation of droplet combustion in a swirl flow

Journal Article · · Journal of Energy Resources Technology; (United States)
DOI:https://doi.org/10.1115/1.2905990· OSTI ID:5524938
;  [1]
  1. National Cheng Kung Univ., Tainan (Taiwan, Province of China)
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The influence of flow rotation on droplet combustion and evaporation are experimentally studied by using a burning liquid-pool system, and numerically investigated by considering a nonreactive, rotating, stagnation-point flow, respectively. The experiment involves measurements of flame temperature, flame position and evaporation rate of the liquid pool, observations of the recirculation zone and the soot layer, and identification of flame extinction. A finite-volume method is employed to numerically solve the corresponding transport equations. Calculated results show that in the vicinity of the liquid surface, both convection and diffusion transports are weakened by the flow rotation, resulting in the suppression of the evaporation strength of liquid; the recirculation zone can be identified and compared with experimental observation. For the steady burning of an ethanol pool in a swirling air jet, it is found that as the angular velocity increases, the diffusion flame shifts closer to the upper burner, has a larger flame thickness, experiences a smaller flame stretch, but suffers from the reduction of mass diffusion of ethanol vapor to the flame. However, the evaporation rate of ethanol is usually decreased with increasing angular velocity. In the flame extinction experiment, the critical volumetric oxygen concentration at extinction first decreases to a minimum value and then increases with angular velocity. It is generally concluded that flow rotation reduces the rates of both droplet combustion and evaporation.

OSTI ID:
5524938
Journal Information:
Journal of Energy Resources Technology; (United States), Journal Name: Journal of Energy Resources Technology; (United States) Vol. 115:3; ISSN 0195-0738; ISSN JERTD2
Country of Publication:
United States
Language:
English

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Related Subjects

10 SYNTHETIC FUELS
100400 -- Synthetic Fuels-- Combustion-- (1990-)
37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
400800* -- Combustion
Pyrolysis
& High-Temperature Chemistry
ALCOHOLS
ATOMIZATION
CHEMICAL REACTION KINETICS
COMBUSTION KINETICS
DROPLETS
ETHANOL
EVAPORATION
FLAMES
FLUID FLOW
FUELS
HYDROXY COMPOUNDS
INHIBITION
KINETICS
LIQUID FUELS
MASS TRANSFER
MATHEMATICAL MODELS
MORPHOLOGY
ORGANIC COMPOUNDS
PARTICLES
PHASE TRANSFORMATIONS
REACTION KINETICS
VORTEX FLOW