Comparative studies on the combustion characteristics of electrolytes and carbonate mixed solvents with flame retardant additives under low pressures

Qiurui Huang; Jingwen Weng; Dongxu Ouyang; Mingyi Chen; Xuehui Wang; Jian Wang

doi:10.1016/j.csite.2023.102810

Comparative studies on the combustion characteristics of electrolytes and carbonate mixed solvents with flame retardant additives under low pressures

Qiurui Huang, Jingwen Weng, Dongxu Ouyang, Mingyi Chen, Xuehui Wang^*, Jian Wang^*

^*Corresponding author for this work

Department of Architecture and Civil Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

18 Citations (Scopus)

58 Downloads (CityUHK Scholars)

Abstract

Adding flame retardant additives is an effective approach to improve the safety of lithium-ion battery electrolytes. This study discusses the inhibiting effects of three flame retardant additives on the combustion characteristics of electrolyte and carbonate mixed solvent under low pressure. The experimental results show that the inhibition of flame retardant additives mainly occurs in the low-boiling carbonate control stage. In contrast, the combustion of the high-boiling carbonate control stage is promoted, and the promotion effect is more significant under low pressure. When the pressure is 40 kPa, it is difficult to maintain the combustion of the highboiling point carbonate control stage of carbonate mixed solvent, but the carbonate mixed solvent containing phenoxycyclophosphazene. Phenoxycyclophosphazene has a better flame retardant effect on the mass loss rate and combustion time of carbonate mixed solvent compared with other additives. Due to the flame retardant effect of lithium salt, the electrolyte can only complete the combustion of the low-boiling point carbonate control stage, and the flame retardant effects of the flame retardant additives in the electrolyte on the combustion mass, mass loss rate, and combustion time are weakened as the pressure decreases. Tris (2-chloropropyl)phosphate assists in reducing the temperature of the electrolyte and carbonate mixed solution.

Original language	English
Article number	102810
Journal	Case Studies in Thermal Engineering
Volume	43
Online published	11 Feb 2023
DOIs	https://doi.org/10.1016/j.csite.2023.102810
Publication status	Published - Mar 2023

Research Keywords

Lithium-ion battery
Electrolyte
Flame retardant additive
Low pressure
Fire hazards
LITHIUM-ION BATTERIES
THERMAL-STABILITY
ELECTROCHEMICAL PERFORMANCE
SAFETY
LIPF6
PHOSPHATE
FOCUS
SALT
CELL

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Comparative studies on the combustion characteristics of electrolytes and carbonate mixed solvents with flame retardant additives under low pressures",

abstract = "Adding flame retardant additives is an effective approach to improve the safety of lithium-ion battery electrolytes. This study discusses the inhibiting effects of three flame retardant additives on the combustion characteristics of electrolyte and carbonate mixed solvent under low pressure. The experimental results show that the inhibition of flame retardant additives mainly occurs in the low-boiling carbonate control stage. In contrast, the combustion of the high-boiling carbonate control stage is promoted, and the promotion effect is more significant under low pressure. When the pressure is 40 kPa, it is difficult to maintain the combustion of the highboiling point carbonate control stage of carbonate mixed solvent, but the carbonate mixed solvent containing phenoxycyclophosphazene. Phenoxycyclophosphazene has a better flame retardant effect on the mass loss rate and combustion time of carbonate mixed solvent compared with other additives. Due to the flame retardant effect of lithium salt, the electrolyte can only complete the combustion of the low-boiling point carbonate control stage, and the flame retardant effects of the flame retardant additives in the electrolyte on the combustion mass, mass loss rate, and combustion time are weakened as the pressure decreases. Tris (2-chloropropyl)phosphate assists in reducing the temperature of the electrolyte and carbonate mixed solution.",

keywords = "Lithium-ion battery, Electrolyte, Flame retardant additive, Low pressure, Fire hazards, LITHIUM-ION BATTERIES, THERMAL-STABILITY, ELECTROCHEMICAL PERFORMANCE, SAFETY, LIPF6, PHOSPHATE, FOCUS, SALT, CELL",

author = "Qiurui Huang and Jingwen Weng and Dongxu Ouyang and Mingyi Chen and Xuehui Wang and Jian Wang",

year = "2023",

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doi = "10.1016/j.csite.2023.102810",

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journal = "Case Studies in Thermal Engineering",

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Comparative studies on the combustion characteristics of electrolytes and carbonate mixed solvents with flame retardant additives under low pressures. / Huang, Qiurui; Weng, Jingwen; Ouyang, Dongxu et al.
In: Case Studies in Thermal Engineering, Vol. 43, 102810, 03.2023.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - Comparative studies on the combustion characteristics of electrolytes and carbonate mixed solvents with flame retardant additives under low pressures

AU - Huang, Qiurui

AU - Weng, Jingwen

AU - Ouyang, Dongxu

AU - Chen, Mingyi

AU - Wang, Xuehui

AU - Wang, Jian

PY - 2023/3

Y1 - 2023/3

N2 - Adding flame retardant additives is an effective approach to improve the safety of lithium-ion battery electrolytes. This study discusses the inhibiting effects of three flame retardant additives on the combustion characteristics of electrolyte and carbonate mixed solvent under low pressure. The experimental results show that the inhibition of flame retardant additives mainly occurs in the low-boiling carbonate control stage. In contrast, the combustion of the high-boiling carbonate control stage is promoted, and the promotion effect is more significant under low pressure. When the pressure is 40 kPa, it is difficult to maintain the combustion of the highboiling point carbonate control stage of carbonate mixed solvent, but the carbonate mixed solvent containing phenoxycyclophosphazene. Phenoxycyclophosphazene has a better flame retardant effect on the mass loss rate and combustion time of carbonate mixed solvent compared with other additives. Due to the flame retardant effect of lithium salt, the electrolyte can only complete the combustion of the low-boiling point carbonate control stage, and the flame retardant effects of the flame retardant additives in the electrolyte on the combustion mass, mass loss rate, and combustion time are weakened as the pressure decreases. Tris (2-chloropropyl)phosphate assists in reducing the temperature of the electrolyte and carbonate mixed solution.

AB - Adding flame retardant additives is an effective approach to improve the safety of lithium-ion battery electrolytes. This study discusses the inhibiting effects of three flame retardant additives on the combustion characteristics of electrolyte and carbonate mixed solvent under low pressure. The experimental results show that the inhibition of flame retardant additives mainly occurs in the low-boiling carbonate control stage. In contrast, the combustion of the high-boiling carbonate control stage is promoted, and the promotion effect is more significant under low pressure. When the pressure is 40 kPa, it is difficult to maintain the combustion of the highboiling point carbonate control stage of carbonate mixed solvent, but the carbonate mixed solvent containing phenoxycyclophosphazene. Phenoxycyclophosphazene has a better flame retardant effect on the mass loss rate and combustion time of carbonate mixed solvent compared with other additives. Due to the flame retardant effect of lithium salt, the electrolyte can only complete the combustion of the low-boiling point carbonate control stage, and the flame retardant effects of the flame retardant additives in the electrolyte on the combustion mass, mass loss rate, and combustion time are weakened as the pressure decreases. Tris (2-chloropropyl)phosphate assists in reducing the temperature of the electrolyte and carbonate mixed solution.

KW - Lithium-ion battery

KW - Electrolyte

KW - Flame retardant additive

KW - Low pressure

KW - Fire hazards

KW - LITHIUM-ION BATTERIES

KW - THERMAL-STABILITY

KW - ELECTROCHEMICAL PERFORMANCE

KW - SAFETY

KW - LIPF6

KW - PHOSPHATE

KW - FOCUS

KW - SALT

KW - CELL

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DO - 10.1016/j.csite.2023.102810

M3 - RGC 21 - Publication in refereed journal

SN - 2214-157X

VL - 43

JO - Case Studies in Thermal Engineering

JF - Case Studies in Thermal Engineering

M1 - 102810

ER -

Comparative studies on the combustion characteristics of electrolytes and carbonate mixed solvents with flame retardant additives under low pressures

Abstract

Research Keywords

Publisher's Copyright Statement

UN SDGs

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