Minimum temperatures for sustainable ignition of coal water slurry containing petrochemicals

•Ignition of droplet of CWS containing petrochemicals was studied experimentally.•Typical stages of low-temperature ignition and combustion were outlined.•Minimum temperature 620–870 K of heated air is enough for sustainable ignition.•Its value depends on droplet size and properties of slurry compon...

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Published in:Applied thermal engineering 2016-03, Vol.96, p.534-546
Main Authors: Glushkov, Dmitrii O., Strizhak, Pavel A., Vershinina, Ksenia Yu
Format: Article
Language:English
Subjects:
Air flow
Coal
Coal water slurry containing petrochemicals
Combustion
Droplet
Droplets
Heated air flow
Ignition
Minimum ignition conditions
Slurries
Sustainability
Thermal engineering
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container_title Applied thermal engineering
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creator Glushkov, Dmitrii O.
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description •Ignition of droplet of CWS containing petrochemicals was studied experimentally.•Typical stages of low-temperature ignition and combustion were outlined.•Minimum temperature 620–870 K of heated air is enough for sustainable ignition.•Its value depends on droplet size and properties of slurry components. This paper presents the conditions and characteristics of the sustainable ignition of coal water slurry (CWS) containing petrochemicals in the air flow. This study may be useful to expand the raw material base for the power industry and the effective recycling of low-grade wastes from coal and oil processing. We use an experimental setup to investigate the ignition of slurry droplets with the radius from 0.5 mm to 1.5 mm when heating in the air flow with the temperature of 500–900 K and rate of 0.5–5 m/s. The present paper also studies necessary and sufficient conditions for the ignition of the different slurry compositions. We reveal the minimum ignition temperatures of slurry droplets in air flow. In addition, we show that these temperatures can be significantly less than the temperatures in combustion chambers of power plants (as a rule, higher than 900 K). Furthermore, we determine the times of ignition delay and complete combustion for slurry droplets, as well as the influence of the air flow temperature and rate, droplet sizes, and slurry composition on these times. Research results show that combustion initiation conditions and characteristics of fuel compositions can vary within wide ranges. This effect contributes to using CWS containing petrochemicals in power engineering, chemical, petrochemical, and transportation industries.
doi_str_mv 10.1016/j.applthermaleng.2015.11.125
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This paper presents the conditions and characteristics of the sustainable ignition of coal water slurry (CWS) containing petrochemicals in the air flow. This study may be useful to expand the raw material base for the power industry and the effective recycling of low-grade wastes from coal and oil processing. We use an experimental setup to investigate the ignition of slurry droplets with the radius from 0.5 mm to 1.5 mm when heating in the air flow with the temperature of 500–900 K and rate of 0.5–5 m/s. The present paper also studies necessary and sufficient conditions for the ignition of the different slurry compositions. We reveal the minimum ignition temperatures of slurry droplets in air flow. In addition, we show that these temperatures can be significantly less than the temperatures in combustion chambers of power plants (as a rule, higher than 900 K). Furthermore, we determine the times of ignition delay and complete combustion for slurry droplets, as well as the influence of the air flow temperature and rate, droplet sizes, and slurry composition on these times. Research results show that combustion initiation conditions and characteristics of fuel compositions can vary within wide ranges. 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source ScienceDirect Journals
subjects Air flow
Coal
Coal water slurry containing petrochemicals
Combustion
Droplet
Droplets
Heated air flow
Ignition
Minimum ignition conditions
Slurries
Sustainability
Thermal engineering
title Minimum temperatures for sustainable ignition of coal water slurry containing petrochemicals
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