Experimental measurements and numerical calculation of auto-ignition temperatures for binary miscible liquid mixtures

Jinxing Lan; Juncheng Jiang; Yong Pan; Zhan Dou; Qingsheng Wang

doi:10.1016/j.psep.2017.09.012

Experimental measurements and numerical calculation of auto-ignition temperatures for binary miscible liquid mixtures

Jinxing Lan, Juncheng Jiang, Yong Pan, Zhan Dou, Qingsheng Wang

College of Safety Science and Engineering

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Auto-ignition temperature (AIT) is one of the most important parameters to assess potential fire and explosion hazards for chemicals. In this work, the AITs of 132 groups of binary miscible liquid mixtures were measured. Experimental results show the AITs of binary miscible liquid mixtures vary with their volume ratios. Three types of trends representing the relationship between AITs and volume ratios were found. A computational model was established to calculate the AITs of methanol + toluene, ethyl alcohol + toluene, ethyl alcohol + methanol and n-heptane + ethyl alcohol in 6 volume ratios. The calculation results showed that the calculated deviations were within 8% of the experimental results. For higher hydrocarbons, the model suffers from a lack of accurate chemical kinetic data to properly predict the AITs of the mixtures.

Original language	English
Pages (from-to)	22-29
Number of pages	8
Journal	Process Safety and Environmental Protection
Volume	113
DOIs	https://doi.org/10.1016/j.psep.2017.09.012
State	Published - 2018

Keywords

Auto-ignition temperature
Binary miscible mixture
Experimental measurement
Liquid mixture
Numerical calculation

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10.1016/j.psep.2017.09.012

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title = "Experimental measurements and numerical calculation of auto-ignition temperatures for binary miscible liquid mixtures",

abstract = "Auto-ignition temperature (AIT) is one of the most important parameters to assess potential fire and explosion hazards for chemicals. In this work, the AITs of 132 groups of binary miscible liquid mixtures were measured. Experimental results show the AITs of binary miscible liquid mixtures vary with their volume ratios. Three types of trends representing the relationship between AITs and volume ratios were found. A computational model was established to calculate the AITs of methanol + toluene, ethyl alcohol + toluene, ethyl alcohol + methanol and n-heptane + ethyl alcohol in 6 volume ratios. The calculation results showed that the calculated deviations were within 8% of the experimental results. For higher hydrocarbons, the model suffers from a lack of accurate chemical kinetic data to properly predict the AITs of the mixtures.",

keywords = "Auto-ignition temperature, Binary miscible mixture, Experimental measurement, Liquid mixture, Numerical calculation",

author = "Jinxing Lan and Juncheng Jiang and Yong Pan and Zhan Dou and Qingsheng Wang",

note = "Publisher Copyright: {\textcopyright} 2017",

year = "2018",

doi = "10.1016/j.psep.2017.09.012",

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T1 - Experimental measurements and numerical calculation of auto-ignition temperatures for binary miscible liquid mixtures

AU - Lan, Jinxing

AU - Jiang, Juncheng

AU - Pan, Yong

AU - Dou, Zhan

AU - Wang, Qingsheng

PY - 2018

Y1 - 2018

N2 - Auto-ignition temperature (AIT) is one of the most important parameters to assess potential fire and explosion hazards for chemicals. In this work, the AITs of 132 groups of binary miscible liquid mixtures were measured. Experimental results show the AITs of binary miscible liquid mixtures vary with their volume ratios. Three types of trends representing the relationship between AITs and volume ratios were found. A computational model was established to calculate the AITs of methanol + toluene, ethyl alcohol + toluene, ethyl alcohol + methanol and n-heptane + ethyl alcohol in 6 volume ratios. The calculation results showed that the calculated deviations were within 8% of the experimental results. For higher hydrocarbons, the model suffers from a lack of accurate chemical kinetic data to properly predict the AITs of the mixtures.

AB - Auto-ignition temperature (AIT) is one of the most important parameters to assess potential fire and explosion hazards for chemicals. In this work, the AITs of 132 groups of binary miscible liquid mixtures were measured. Experimental results show the AITs of binary miscible liquid mixtures vary with their volume ratios. Three types of trends representing the relationship between AITs and volume ratios were found. A computational model was established to calculate the AITs of methanol + toluene, ethyl alcohol + toluene, ethyl alcohol + methanol and n-heptane + ethyl alcohol in 6 volume ratios. The calculation results showed that the calculated deviations were within 8% of the experimental results. For higher hydrocarbons, the model suffers from a lack of accurate chemical kinetic data to properly predict the AITs of the mixtures.

KW - Auto-ignition temperature

KW - Binary miscible mixture

KW - Experimental measurement

KW - Liquid mixture

KW - Numerical calculation

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U2 - 10.1016/j.psep.2017.09.012

DO - 10.1016/j.psep.2017.09.012

M3 - 文章

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SN - 0957-5820

VL - 113

SP - 22

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JO - Process Safety and Environmental Protection

JF - Process Safety and Environmental Protection

ER -

Experimental measurements and numerical calculation of auto-ignition temperatures for binary miscible liquid mixtures

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Keywords

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