Ignition of micron amorphous boron particles in CO2 with shock tube

Shengyu Pang; Kai Pang; Long Miao; Yugan Liao; Xiao Hou; Baolu Shi

doi:10.1016/j.combustflame.2025.114311

Ignition of micron amorphous boron particles in CO₂ with shock tube

Shengyu Pang, Kai Pang, Long Miao, Yugan Liao^*, Xiao Hou, Baolu Shi

^*Corresponding author for this work

School of Aerospace Engineering

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

Abstract

This study successfully ignited 11 μm amorphous boron (B) powder in a pure carbon dioxide (CO₂) atmosphere using a shock tube ignition platform, providing important insights for CO₂-B reaction which was generally neglected in propulsion system. The experiments were conducted at temperatures ranging from 2100 to 2900 K and 3.5 atm, focusing on the effects of temperature and CO₂ concentration on the ignition characteristics. The results show that the ignition delay time decreases with increasing temperature. And the critical ignition temperature of boron was found to beyond 2100 K. The effects of CO₂ concentration on the ignition delay time and critical ignition temperature were much complex. These findings provide new data on boron ignition characteristics in CO₂ environments, offering valuable reference information for CO₂ propulsion technologies in space exploration.

Original language	English
Article number	114311
Journal	Combustion and Flame
Volume	279
DOIs	https://doi.org/10.1016/j.combustflame.2025.114311
Publication status	Published - Sept 2025

Keywords

Boron
Carbon dioxide
Ignition delay time
Shock tube

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10.1016/j.combustflame.2025.114311

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title = "Ignition of micron amorphous boron particles in CO2 with shock tube",

abstract = "This study successfully ignited 11 μm amorphous boron (B) powder in a pure carbon dioxide (CO2) atmosphere using a shock tube ignition platform, providing important insights for CO2-B reaction which was generally neglected in propulsion system. The experiments were conducted at temperatures ranging from 2100 to 2900 K and 3.5 atm, focusing on the effects of temperature and CO2 concentration on the ignition characteristics. The results show that the ignition delay time decreases with increasing temperature. And the critical ignition temperature of boron was found to beyond 2100 K. The effects of CO2 concentration on the ignition delay time and critical ignition temperature were much complex. These findings provide new data on boron ignition characteristics in CO2 environments, offering valuable reference information for CO2 propulsion technologies in space exploration.",

keywords = "Boron, Carbon dioxide, Ignition delay time, Shock tube",

author = "Shengyu Pang and Kai Pang and Long Miao and Yugan Liao and Xiao Hou and Baolu Shi",

note = "Publisher Copyright: {\textcopyright} 2025 The Combustion Institute",

year = "2025",

month = sep,

doi = "10.1016/j.combustflame.2025.114311",

language = "English",

volume = "279",

journal = "Combustion and Flame",

issn = "0010-2180",

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TY - JOUR

T1 - Ignition of micron amorphous boron particles in CO2 with shock tube

AU - Pang, Shengyu

AU - Pang, Kai

AU - Miao, Long

AU - Liao, Yugan

AU - Hou, Xiao

AU - Shi, Baolu

PY - 2025/9

Y1 - 2025/9

N2 - This study successfully ignited 11 μm amorphous boron (B) powder in a pure carbon dioxide (CO2) atmosphere using a shock tube ignition platform, providing important insights for CO2-B reaction which was generally neglected in propulsion system. The experiments were conducted at temperatures ranging from 2100 to 2900 K and 3.5 atm, focusing on the effects of temperature and CO2 concentration on the ignition characteristics. The results show that the ignition delay time decreases with increasing temperature. And the critical ignition temperature of boron was found to beyond 2100 K. The effects of CO2 concentration on the ignition delay time and critical ignition temperature were much complex. These findings provide new data on boron ignition characteristics in CO2 environments, offering valuable reference information for CO2 propulsion technologies in space exploration.

AB - This study successfully ignited 11 μm amorphous boron (B) powder in a pure carbon dioxide (CO2) atmosphere using a shock tube ignition platform, providing important insights for CO2-B reaction which was generally neglected in propulsion system. The experiments were conducted at temperatures ranging from 2100 to 2900 K and 3.5 atm, focusing on the effects of temperature and CO2 concentration on the ignition characteristics. The results show that the ignition delay time decreases with increasing temperature. And the critical ignition temperature of boron was found to beyond 2100 K. The effects of CO2 concentration on the ignition delay time and critical ignition temperature were much complex. These findings provide new data on boron ignition characteristics in CO2 environments, offering valuable reference information for CO2 propulsion technologies in space exploration.

KW - Boron

KW - Carbon dioxide

KW - Ignition delay time

KW - Shock tube

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U2 - 10.1016/j.combustflame.2025.114311

DO - 10.1016/j.combustflame.2025.114311

M3 - Article

AN - SCOPUS:105008515413

SN - 0010-2180

VL - 279

JO - Combustion and Flame

JF - Combustion and Flame

M1 - 114311

ER -

Ignition of micron amorphous boron particles in CO₂ with shock tube

Abstract

Keywords

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