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AKTS模拟分析硝酸铵的热稳定性()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 46
期数:: 2017年04

页码:: 7-12

栏目:: 基础理论

出版日期:: 2017-06-14

文章信息/Info

Title:: Simulation Analysis of Thermal Stability of Ammonium Nitrate Based on AKTS

文章编号:: 5158

作者:: 张巍青^①; 徐二永^①; 李翠清^①; 李建刚^①; 陈思凝^②; 王如君^②; ①北京石油化工学院化学工程学院（北京，102617）
②中国安全生产科学研究院（北京，100012）

Author(s):: ZHANG Weiqing^①; XU Eryong^①; LI Cuiqing^①; LI Jiangang^①; CHEN Sining^②; WANG Rujun^②; ①School of Chemical Engineering, Beijing Institute of Petrochemical Technology (Beijing, 102617)
②China Academy of Safety Science and Technology (Beijing, 100012)

关键词:: 硝酸铵（AN）; 热分解; 活化能; 危险性评估

Keywords:: ammonium nitrate (AN); thermal decomposition; activation energy; risk assessment

分类号:: TQ560.72

DOI:: 10.3969/j.issn.1001-8352.2017.04.002

文献标志码:: A

摘要:: 为了研究了硝酸铵（AN）的热危险性，采用差示扫描量热仪（DSC）对AN进行扫描测试，获得了AN在不同升温速率下的热分解规律。运用热动力学分析软件AKTS计算得到AN的热力学和动力学参数，采用风险矩阵法评估了AN热分解的危险性。结果表明：AN起始分解温度为228~250 ℃，放热量为2 340~2 650 J/g，分解反应活化能为100~175 kJ/mol，模拟并计算了AN在绝热条件下反应体系达到最大反应速率所需要的时间为24 h的温度T_D24=137.2 ℃。利用风险矩阵法评估了AN的危险等级为Ⅱ级。针对此危险等级，提出了降低AN储存风险的措施。

Abstract:: In order to study the thermal stability of Ammonium Nitrate (AN), thermal decomposition characteristics of AN at different heating rates were studied by differential scanning calorimetry (DSC). Thermodynamic and kinetic parameters were calculated using thermal analysis software AKTS. Risk of thermal decomposition of AN was also evaluated by risk matrix method. Results show that the initial exothermic temperature of AN increases from 228 ℃ to 250 ℃ with the increase of heating rate, and the heat release is reduced from 2 340 J/g to 2 650 J/g. Activation energy of AN is calculated to be 100~175 kJ/mol. T_D24, temperature with the time of 24 h to reach maximum action rate of AN under adiabatic conditions, is 137.2 ℃. Risk matrix method was used to evaluate the classification risk of AN, and the results show that the risk is Grade Two. For this risk level, measures were put forward to reduce the risk.

参考文献/References:

［1］OXLEY J C,SMITH J L,ROGERS E, et al. Ammonium nitrate: thermal stability and explosivity modifiers［J］. Thermochemica Acta,2002,384(1/2):23-45.
［2］朱兆华,郭振龙.关于硝酸铵爆炸事前评价的探讨［J］.中国安全科学学报，2000,10(2):70-74.
ZHU Z H, GUO Z L. Discussion on the prior evaluation of the explosion of ammonium nitrate［J］. China Safety Science Journal, 2000, 10(2):70-74.
［3］贾凯，刘祖亮.粒状硝酸铵改性及其性能测试［J］. 爆破器材，2014,43(1):24-28.
JIA K, LIU Z L. Modification of granular ammonium nitrate and its performance test［J］.Explosive Materials，2014,43(1):24-28.
［4］王小红,郭子如.硝酸铵的热分解和热稳定性研究现状［J］.煤矿爆破,2004(1):27-30.
WANG X H,GUO Z R.Researching cases of the thermal decomposition and thermal stabilization of AN［J］. Coal Mine Blasting,2004(1):27-30.
［5］周方越,马云.天津爆炸事故的分析、处理及启示［J］. 经贸实践,2016(1):329.
［6］杨丽,袁治雷,吕智星,等.硝酸铵的热稳定性研究［J］.山西化工,2011，31(2):59-61.
YANG L,YUAN Z L,Lǔ Z X,et al. Study on thermal stability of ammonium nitrate［J］.Shanxi Chemical Industry, 2011,31(2):59-61.
［7］王光龙,许秀成.硝酸铵热稳定性的研究［J］.郑州大学学报(工学版),2003,24(1):47-50.
WANG G L,XU X C. Study on thermal stability of ammonium nitrate［J］. Journal of Zhengzhou University (Engineering Science),2003,24(1):47-50.
［8］陈网桦,陈利平,吴燕,等.硝酸及氯离子对高温硝酸铵水溶液热危险性的影响研究［J］.中国安全科学学报,2007,17(5):101-105.
CHEN W H,CHEN L P,WU Y, et al. Influence of nitrate acid and chlorine ion on the decomposition of ammonium nitrate in aqueous solution with high temperature［J］.China Safety Science Journal,2007,17(5):101-105.
［9］魏亚杰,陈利平,姚淼,等.MgH₂和Mg(BH₄)₂对硝酸铵热分解过程的影响［J］.火炸药学报,2015,38(1):59-63.
WEI Y J,CHEN L P,YAO M, et al.Effect of MgH₂ and Mg(BH₄)₂ on thermal decomposition process of ammonium nitrate［J］.Chinese Journal of Explosives ＆ Propellants, 2015,38(1):59-63.
［10］陆明,刘惠英.膨化硝酸铵的热分解动力学研究［J］.火炸药学报,2000(1):62-64.
LU M,LIU H Y. Study on the thermal decomposition kinetics of expanded ammonium nitrate［J］. Chinese Journal of Explosives ＆Propellants, 2000(1):62-64.
［11］沈立晋,汪旭光.采用加速量热法评价防爆硝酸铵的热稳定性［J］.火炸药学报,2004,27(2):73-76.
SHEN L J,WANG X G. The thermal stability evaluation of anti-explosive ammonium nitrate by accelerating rate calorimeter［J］. Chinese Journal of Explosives ＆ Propellants,2004,27(2):73-76.
［12］STOESSEL F. Thermal safety of chemical processes:risk assessment and process design［M］. Wiley,2008.
［13］罗云，樊运晓，马晓春.风险分析与安全评价［M］.北京：化学工业出版社，2004.
［14］Guidelines for chemical reactivity evaluation and application to process design［M］. New York:American Institute of Chemical Engineers, 1995.
［15］王犇，马翔，张淑娟，等.过氯化氢危险性分析［J］.无机盐工业，2013，45（3）：15-18.
WANG B, MA X, ZHANG S J, et al. Analysis on thermal risk of hydrogen peroxide［J］.Inorganic Chemicals Industry，2013，45（3）：15-18.
［16］“Zurich” hazard analysis, a brief introduction to the “zurich” method of hazard analysis［M］. Zurich Insu rance,1987.

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备注/Memo

备注/Memo:: 收稿日期：2017-03-15
基金项目：国家重点研发计划课题（多灾种耦合下化工园区危险化学品仓储及运输网络安全保障技术研究2016YFC0801502）
作者简介：张巍青(1991－)，男，硕士研究生，主要研究方向为化工安全。E-mail:zhangweiqinghngy@126.com
通信作者：李翠清（1964－），女，博士，教授，主要研究方向为油品清洁利用与工业尾气减排。E-mail:licuiqing@bipt.edu.cn

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