Experimental Study on the Thermal Runaway of Hydrogen Peroxide with In-/Organic Impurities by a Batch Reactor
Hydrogen peroxide,as a very versatile reagent for many industrial processes,has caused many accidents in recent years.Thcrefore,understanding the thermal hazards of hydrogen peroxide with or without impurities is essential for the prevention of fire and explosion accidents.In this work,batch reactor tests were conducted to study the thermal runaway behavior of hydrogen peroxide under the contaminations of Fe3+ ion,formic/acetic acid and ethanol/acetone.Experimental results revealed that the thermal runaway risk of H2O2 increased significantly with increasing initial temperature and Fe3+ ion concentration.Comparatively,the potential risk of organic impurities on the thermal stability of hydrogen peroxide was found to be much larger,because several violent explosions were measured resulting from a series of rapid and complicated decomposition reactions.The explosion severity of H2O2 with organic matters followed acetone > ethanol > formic acid > acetic acid.In addition,a modified runaway scenario characterized as adiabatic temperature increase and time to maximum rate was briefly described to theoretically evaluate the thermal risk of H2O2 decomposition.This scenario was found to be valid to estimate thermal runaway hazards.These results improve our understanding of thermal runaway behavior and explosion risk of H2O2 with incompatible impurities.
hydrogen peroxide runaway impurity explosion batch reactor
WU De-jian QIAN Xin-ming
Department of Chemical Engineering, Sichuan Univerisity, Chengdu 610065, China State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 1
国内会议
第29届全国高校安全科学与工程学术年会暨第11届全国安全工程领域专业学位研究生教育研讨会
武汉
英文
463-475
2017-10-20(万方平台首次上网日期,不代表论文的发表时间)