基于热分析的亚油酸甲酯热解动力学研究

Studies of Methyl Linoleate Thermo-Decomposition Kinetics by Thermal Analysis

下载PDF

导出

摘要采用热重分析方法研究了亚油酸甲酯在氮气和氧气气氛中的热分解特性,并采用Coats-Redfern积分法对亚油酸甲酯的热解过程进行动力学分析,建立了热分解动力学模型,计算了相应的动力学参数。结果表明,亚油酸甲酯在两种气氛中的热分解均为两步分解过程,且在氧气气氛中的热安定性较差。随着升温速率提高,热解区间向高温区移动,热解活化能和指前因子呈较好的动力学补偿效应,且在不同升温速率下具有不同的热解反应机理函数。热分解率计算值与实测值的误差统计分析结果表明,数值模拟计算值与实测值的误差在10%左右,动力学模型可有效预测亚油酸甲酯的热分解过程。 Thermo-decomposition characteristics of methyl linoleate were investigated using a thermo-gravimetric analyzer under nitrogen and oxygen atmospheres, respectively. The decomposition kinetics of methyl linoleate was analyzed by Coats-Redfern integral method. The kinetic models and parameters for thermo-decomposition of methyl linoleate were built and calculated. The results indicate that thermo-decomposition of methyl linoleate under nitrogen or oxygen atmosphere is a two-step process, and methyl linoleate exhibits relatively worse thermo-stability under oxygen atmosphere. Moreover, the decomposition temperature of methyl linoleate increases with the increase of heating rates. The decomposition activation energy and the pre-exponential factor present good kinetic compensation effects, and the kinetic mechanism functions are different under different heating rates. Furthermore, statistical analysis also show that the relative error of the decomposition rate between calculated and experimental values is about 10%, which demonstrates that the kinetic models are reliable and effective in predicting thermo-decomposition processes of methyl linoleate.

作者王学春方建华陈波水陈尔余贾贤补

机构地区武警杭州士官学校车辆维修系后勤工程学院军事油料应用与管理工程系

出处《高校化学工程学报》 EI CAS CSCD 北大核心 2016年第2期404-409,共6页 Journal of Chemical Engineering of Chinese Universities

基金国家自然科学基金(51375491) 重庆市自然科学基金(CSTC 2014JCYJAA50021) 后勤工程学院创新基金(YZ13-43703)

关键词亚油酸甲酯热重分析热解特性动力学 methyl linoleate thermo-gravimetric analysis thermo-decomposition characteristics kinetics

分类号 TQ050.46 [化学工程]

引文网络
相关文献

参考文献10

1Lin L,Cunshan Z,Vittayapadung S,et al.Opportunities and challenges for biodiesel fuel[J].Applied Energy,2011,88(4):1020-1031.
2Demirbas A.Progress and recent trends in biodiesel fuels[J].Energy Conversion and Management,2009,50(1):14-34.
3Nigam P S,Singh A.Production of liquid biofuels from renewable resources[J].Progress in Energy and Combustion Science,2011,37(1):52-68.
4Wu Jiang,Chen Boshui,Fang Jianhua,Wang Jiu (Department of Petrochemistry, Logistical Engineering University, Chongqing 401311).Effect of Biodiesel on Oxidation Stability, Detergency and Antiwear Ability of Diesel Oil[J].China Petroleum Processing & Petrochemical Technology,2011,13(4):58-63. 被引量：9
5Gili F,Igartua A,Luther R,et al.The impact of biofuels on engine oil performance[J].Lubrication Science,2011,23(7):313–330.
6Wongsiriamnuay T,Tippayawong N.Thermogravimetric analysis of giant sensitive plants under air atmosphere[J].Bioresource Technology,2010,101(23):9314-9320.
7Park Y H,Kim J,Kim S S,et al.Pyrolysis characteristics and kinetics of oak trees using thermogravimetric analyzer and micro-tubing reactor[J].Bioresource Technology,2009,100(1):400-405.
8黄云龙,郭庆杰,田红景,侯良玉.餐厨垃圾热解实验研究[J].高校化学工程学报,2012,26(4):721-728. 被引量：14
9Guo X,Wang S,Guo Z,et al.Pyrolysis characteristics of bio-oil fractions separated by molecular distillation[J].Applied Energy,2010,87(9):2892-2898.
10Zou S P,Wu Y L,Yang M D,et al.Pyrolysis characteristics and kinetics of the marine microalgae Dunaliella tertiolecta using thermogravimetric analyzer[J].Bioresource Technology,2010,101(1):359-365.

二级参考文献34

1闵恩泽.以植物油为原料发展我国生物柴油炼油厂的探讨[J].石油学报（石油加工）,2005,21(3):25-28. 被引量：43
2Miao Xiaoling, Wu Qingyu. Biodiesel production from het- erotrophic microalgal oil[J]. Bioresource Technology, 2006, 97(6): 841-846.
3Demirbas A. Progress and recent trends in biofuels[J]. Prog- ress in Energy and Combustion Science, 2007, 33(1): 1-18.
4Stephany R. Biodiesel-a fungible and ecofriendly fuel[J]. Hydrocarbon Processing, 2003(8): 15-16.
5Fang Fang, Yu Ji. Study and application ofbiodiesel[J]. Envi- ronmental Protection in Transportation. 2004, 25(5): 45-46.
6Agarwal K, Das M. Biodiesel development and character- ization for use as a fuel in compression ignition engines[J]. Journal of Engineering for Gas Turbines and Power, 2001, 123(2): 440-447.
7Hardy J. A Greener future with biodiesel[J]. Green Chemistry, 2001(8): 56-59.
8Knothe G. Dependence of biodiesel fuel properties on the structure of fatty acid alkyl esters[J]. Fuel Processing Tech- nology, 2005, 86(10): 1059-1070.
9Rushang M, Michael J. Flow properties of biodiesel fuel blends at low temperatures[J]. Fuel, 2007, 86(1-2): 143-151.
10Bunn R O. Effect of antioxidants on the oxidative stability of methyl soyate (biodiesel) [J]. Fuel Processing Technol- ogy, 2005, 86(10): 1071-1085.

共引文献21

1李旭宁.餐厨垃圾处理技术的现状及发展趋势[J].中国科技纵横,2018,0(22):14-15. 被引量：2
2刘亮,李红明,陈明辉,邬海明,欧凤林.不同氧浓度下脱脂餐厨垃圾燃烧特性及动力学研究[J].环境工程学报,2015,9(2):929-933. 被引量：1
3闫忠意,陈波水,方建华,王学春.生物柴油诱导发动机油性能衰变的研究现状[J].石油商技,2014,32(5):24-27.
4王学春,方建华,闫忠意,夏迪.生物柴油氧化降解与动力学分析的研究进展及展望[J].节能技术,2015,33(1):38-42. 被引量：5
5王学春,方建华,陈波水,吴江,李亮.亚油酸甲酯氧化衰变特性及氧化反应表观活化能[J].石油化工高等学校学报,2015,28(3):17-21.
6王学春,方建华,陈波水,陈尔余,陈力,王晶.不饱和脂肪酸甲酯对柴油机油氧化和润滑性能的影响[J].中国油脂,2015,40(11):59-63.
7闫忠意,陈波水,方建华,王学春,吴江.油酸甲酯与清净剂交互作用对柴油机油氧化安定性的影响[J].化工新型材料,2015,43(11):204-206.
8马雪亮,王九,陈波水,王祥洲.油酸甲酯对正十六烷清净性的影响[J].重庆理工大学学报（自然科学）,2016,30(3):64-68.
9王学春,陈尔余,方建华.基于计算化学和波谱分析的不饱和脂肪酸甲酯氧化衰变特性研究[J].石油炼制与化工,2016,47(12):59-63.
10付成果,梁明超,冯宜鹏,马孝琴,侯书林.农村生活垃圾处理现状及就近碳化处理问题分析[J].中国农机化学报,2017,38(12):74-78. 被引量：5

1丁学谊,朱立群.化学镀镍-磷合金层对航空煤油热安定性影响的研究[J].电镀与涂饰,1997,16(4):15-16. 被引量：3
2王学春,方建华,陈波水,王九,吴江.基于热重分析法的油酸甲酯热解特性及动力学[J].石油学报（石油加工）,2015,31(5):1179-1186. 被引量：3
3王学春,方建华,李亮,王九,吴江.油酸甲酯和硬脂酸甲酯热解特性及动力学研究[J].当代化工,2015,44(1):4-8. 被引量：4
4王婷婷,崔子祥,郝燕芝,薛永强.纳米粒子的热分解动力学模型[J].辽宁化工,2012,41(3):308-309. 被引量：1
5薛明俊,孙承绪.添加剂对钛酸铝低膨胀陶瓷热稳定性影响[J].华东理工大学学报（自然科学版）,2001,27(1):76-79. 被引量：11
6樊瑞君,王煊军,刘代志.含能材料热安定性及热安全性评价方法研究进展[J].化学推进剂与高分子材料,2004,2(2):22-24. 被引量：14
7詹洋.影响电镀锌电流的因素[J].金属制品,2005,31(2):41-42.
8王睿,杨晓静,林昭华,沈自求.循环水系统CaCO_3结垢速率的理论预测[J].石油学报（石油加工）,2002,18(1):72-77. 被引量：7
9尹利,郭子如,王小红.木粉与硝酸铵混合物热分解动力学分析[J].矿业科学技术,2005,33(3):3-6.
10常温法过碳酸钠工艺通过鉴定[J].中外医疗,1999,22(1):37-37.

高校化学工程学报

2016年第2期

浏览历史

内容加载中请稍等...

基于热分析的亚油酸甲酯热解动力学研究

参考文献10

二级参考文献34

共引文献21

相关作者

相关机构

相关主题

浏览历史