Calorimetric studies and kinetic determination of fires and explosions of a chemical processing of dicumyl peroxide
作者: Feng-Jen Chu , Terng-Jou Wan , Chen-Rui Cao , Shang-Hao Liu
DOI: 10.1007/S10973-020-09310-W
关键词:
摘要: The polymerization industry has existed for many years. advancement of industrial technology is contributed to the related synthesis and application enduring polymer operation. Organic peroxide (OP) initiators have been used applied practical processes which may cause a runaway reaction due their self-reactive property. OPs long time studied in literature. However, there are still emerging that recently these processes, few studies. To ensure thermal safety process production, transportation, storage, common OP initiator such as dicumyl (DCPO) was selected be investigated. First, decomposition characteristics under non-isothermal adiabatic conditions DCPO were acquired by differential scanning calorimetry. Second, combined calorimetry with pseudo-adiabatic isothermal can determine hazards basic patterns. gleaned data input into mathematical model evaluate DCPO, respectively. In addition, based on simulated explosion models kinetic parameters, hazardous properties storage transport also acquired. results show prominent hazard explosive should pay much attention temperature during transportation.
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sci-hub.se 参考文章(53)
Alan K Burnham, Computational aspects of kinetic analysis. Thermochimica Acta. ,vol. 355, pp. 165- 170 ,(2000) , 10.1016/S0040-6031(00)00446-9
Arcady A. Kossoy, Vasily M. Belokhvostov, Elena Yu. Koludarova, Thermal decomposition of AIBN: Part D: Verification of simulation method for SADT determination based on AIBN benchmark Thermochimica Acta. ,vol. 621, pp. 36- 43 ,(2015) , 10.1016/J.TCA.2015.06.008
Olga J. Reyes Valdes, Valeria Casson Moreno, Simon P. Waldram, Luc N. Véchot, M. Sam Mannan, Experimental sensitivity analysis of the runaway severity of Dicumyl peroxide decomposition using adiabatic calorimetry Thermochimica Acta. ,vol. 617, pp. 28- 37 ,(2015) , 10.1016/J.TCA.2015.07.016
J. Opfermann, Kinetic Analysis Using Multivariate Non-linear Regression. I. Basic concepts Journal of Thermal Analysis and Calorimetry. ,vol. 60, pp. 641- 658 ,(2000) , 10.1023/A:1010167626551
Sheng-Hung Wu, Mei-Ling Shyu, Yet-Pole I, Jen-Hao Chi, Chi-Min Shu, Evaluation of runaway reaction for dicumyl peroxide in a batch reactor by DSC and VSP2 Journal of Loss Prevention in The Process Industries. ,vol. 22, pp. 721- 727 ,(2009) , 10.1016/J.JLP.2008.08.004
Аrcady A. Kossoy, Yury G. Akhmetshin, Simulation-based approach to design of inherently safer processes Process Safety and Environmental Protection. ,vol. 90, pp. 349- 356 ,(2012) , 10.1016/J.PSEP.2012.03.007
M. Malow, K.D. Wehrstedt, Prediction of the self-accelerating decomposition temperature (SADT) for liquid organic peroxides from differential scanning calorimetry (DSC) measurements Journal of Hazardous Materials. ,vol. 120, pp. 21- 24 ,(2005) , 10.1016/J.JHAZMAT.2004.12.040
A. Kossoy, Yu Akhmetshin, Identification of kinetic models for the assessment of reaction hazards Process Safety Progress. ,vol. 26, pp. 209- 220 ,(2007) , 10.1002/PRS.10189
F Zaman, A.E Beezer, J.C Mitchell, Q Clarkson, J Elliot, A.F Davis, R.J Willson, The stability of benzoyl peroxide by isothermal microcalorimetry. International Journal of Pharmaceutics. ,vol. 227, pp. 133- 137 ,(2001) , 10.1016/S0378-5173(01)00791-8
Shang-Hao Liu, Hung-Yi Hou, Chi-Min Shu, Thermal hazard evaluation of the autocatalytic reaction of benzoyl peroxide using DSC and TAM III Thermochimica Acta. ,vol. 605, pp. 68- 76 ,(2015) , 10.1016/J.TCA.2015.02.008