废油脂的综合利用
摘要
废油脂是家庭及餐饮业烹炸食物后的废弃物,作为环境污染的来源之一,越来越引起各国的关注。本论文主要探讨通过脱色或甲酯化工艺,改变废油脂的某些物理化学性状,从而使之能够再利用。
脱色工艺采用活性白土做吸附剂,利用它对色素等的强吸附性能达到脱色目的。本部分主要考察了在常压及真空状态下不同条件对脱色效果的影响,找到了最佳工艺条件,得到脱色率较高的产品。脱色后的废油脂可以与燃油混合用于燃烧。
废油脂与甲醇通过酯交换反应生产脂肪酸甲酯是论文的重点。脂肪酸甲酯不仅是一种用途广泛的有机化工中间体,而且还可以用作传统柴油的代用品——生物柴油。本部分探索了预处理、甲酯化的工艺条件,得到生产脂肪酸甲酯的最佳工艺参数,并对产品脂肪酸甲酯作为燃料使用时的众多特性进行了测试,从而使生物柴油的发动性能、环境友好性等优点得以证实。除此以外,还采用气相色谱、气相色谱—质谱联用方法对产品进行定量、定性分析,在衡量产率、比较实验条件优劣的同时,对产品也给出了准确的组成、结构信息。在此基础上,我们还探索了高真空精馏分离混合脂肪酸甲酯的工艺条件,得到各种脂肪酸甲酯纯组分,用于制备各种高纯度的化工、食品、医药等产品,具有更高的应用价值。这些分析分离技术目前在国内还未见报道。
通过以上工作,为废油脂的再利用开辟了更广泛的领域。这一方法不仅有利于解决环境问题,而且降低了生物柴油、脂肪酸甲酯的生成成本,有极大的应用潜力。
Waste oil and fat, which comes from families and cookeries, is one of the resources of environment pollution. This paper focuses on using decoloration and methyl-esterification technology to change some of its qualities and making it renewable.
Activated bleaching-earth was used as an adsorbent in decoloration process. By studying the results of different factors, we found the best technology condition. The discolored waste oil and fat can be mixed with fuel directly to be ignited.
The paper emphasizes on the preparation of fatty acid methyl-ester (FAME) by waste oil and fat and methanol. FAME is not only a widely used organic intermediate,but also used as biodiesel. In this part, we analyzed the condition of pre-esterification and esterification, and found out the best method. Besides that, we examined the characteristics of FAME as a fuel to confirm its advantages, such as starting under low temperature and environmental. At the same time, GC and GC-MS were used to give information about its quantity and quality. Based on this, we explored to separate the mixture to single component by distill under high vacuum condition. The single FAME will be more useful and economic. Related studies have not been reported.
The usages of waste oil and fat were widened by above method. It will not only help to solute the pollution problems, but also low the cost of biodiesel and FAME. We believe it has more potential.
脱色工艺采用活性白土做吸附剂,利用它对色素等的强吸附性能达到脱色目的。本部分主要考察了在常压及真空状态下不同条件对脱色效果的影响,找到了最佳工艺条件,得到脱色率较高的产品。脱色后的废油脂可以与燃油混合用于燃烧。
废油脂与甲醇通过酯交换反应生产脂肪酸甲酯是论文的重点。脂肪酸甲酯不仅是一种用途广泛的有机化工中间体,而且还可以用作传统柴油的代用品——生物柴油。本部分探索了预处理、甲酯化的工艺条件,得到生产脂肪酸甲酯的最佳工艺参数,并对产品脂肪酸甲酯作为燃料使用时的众多特性进行了测试,从而使生物柴油的发动性能、环境友好性等优点得以证实。除此以外,还采用气相色谱、气相色谱—质谱联用方法对产品进行定量、定性分析,在衡量产率、比较实验条件优劣的同时,对产品也给出了准确的组成、结构信息。在此基础上,我们还探索了高真空精馏分离混合脂肪酸甲酯的工艺条件,得到各种脂肪酸甲酯纯组分,用于制备各种高纯度的化工、食品、医药等产品,具有更高的应用价值。这些分析分离技术目前在国内还未见报道。
通过以上工作,为废油脂的再利用开辟了更广泛的领域。这一方法不仅有利于解决环境问题,而且降低了生物柴油、脂肪酸甲酯的生成成本,有极大的应用潜力。
Waste oil and fat, which comes from families and cookeries, is one of the resources of environment pollution. This paper focuses on using decoloration and methyl-esterification technology to change some of its qualities and making it renewable.
Activated bleaching-earth was used as an adsorbent in decoloration process. By studying the results of different factors, we found the best technology condition. The discolored waste oil and fat can be mixed with fuel directly to be ignited.
The paper emphasizes on the preparation of fatty acid methyl-ester (FAME) by waste oil and fat and methanol. FAME is not only a widely used organic intermediate,but also used as biodiesel. In this part, we analyzed the condition of pre-esterification and esterification, and found out the best method. Besides that, we examined the characteristics of FAME as a fuel to confirm its advantages, such as starting under low temperature and environmental. At the same time, GC and GC-MS were used to give information about its quantity and quality. Based on this, we explored to separate the mixture to single component by distill under high vacuum condition. The single FAME will be more useful and economic. Related studies have not been reported.
The usages of waste oil and fat were widened by above method. It will not only help to solute the pollution problems, but also low the cost of biodiesel and FAME. We believe it has more potential.
引文
[1] 魏文德.有机化工原料大全(第三版)[M].北京:化学工业出版社,1999:120.
[2] 夏延斌.食品化学[M].北京:中国轻工业出版社,2001.
[3] 王红梅.营养与食品卫生学[M].上海:上海交通大学出版社,2000,167~168.
[4] 刘大川,苏望懿.食用植物油与植物蛋白[M].北京:化学工业出版社,2001.
[5] 褚绪轩.国外油料作物和食用油产销现状及发展趋势[J].中国油脂,2002,27(1):85~90.
[6] 田煜.近年我国油脂供需概况及WTO短期影响(J).粮食与油脂,2002,(1):16~18.
[7] 钟立人.食品科学与工艺原理[M].北京:中国轻工业出版社,1999:124~126.
[8] 王璋,许时婴,汤坚.食品化学[M].北京:中国轻工业出版社,2001,105~111.
[9] 王福海,陈溥,潘雄祥等.硬脂酸及脂肪酸衍生物生产工艺[M].北京:中国轻工业出版社,1991:54.
[10] 马遇涵.科技为先法制为道,化害为利变废为宝——对废弃油脂的思考[J].再生资源研究,2001,(2):8~15.
[11] 彭荫来,杨帆.利用餐饮业废油脂制造生物柴油[J].城市环境与城市生态,2001,14(4):54~56.
[12] 戴钧樑.废润滑油再生(第三版)[M].北京:中国石化出版社,2000:385~391.
[13] 李铁坚.饲料中添加油脂的应用效果[J].饲料广角,2003,(3):23~27.
[14] 魏树龙,周淑芹,孙文志.油脂在家禽饲粮中的应用研究[J].上海畜牧兽医通讯,2003,(2):2~3.
[15] 谭天伟,王芳,邓立等.生物柴油的生产和应用[J].现代化工,2002,22(2):4~6.
[16] 方云,夏咏梅,蒋文贤.脂肪酸甲酯在表面活性剂和洗涤剂工业中的应用[J].日用化学工业,1991,(5):21~26.
[17] 常致成.脂肪酸酯的发展动向.全国第九次工业表面活性剂技术经济与应用开发会议论文集,2000:73~76.
[18] 王川岚.脂肪酸甲酯的合成和应用[J].四川化工,1998,(4):49~52.
[19] 常致成.脂肪酸甲酯制备表面活性剂的最新进展[J].化工科技,2000,8(1):60~64.
[20] 朱曾惠.重新活跃起来的生物柴油[J].化工新型材料,2002,30(8):35~36.
[21] 邓泽英.美国替代燃料汽车的基本现状[J].汽车与配件,1999,(51):16~19.
[22] 王伟.美国汽车代用燃料发展现状[J].世界石油工业,2000,7(7):50~52.
[23] Nicolas B.C.Ahouissoussi, Michael E.Wetzstein. A Comparative cost analysis of biodiesel, compressed natural gas, methanol, and diesel for transit bus systems [J]. Resource and Energy Economics, 1997, 20, 1~15.
[24] Schwab AW, Dykstra G J, Selke E, et al. Diesel fuel from thermal decomposition of
soybean oil [J]. J Am Oil Chem Soc, 1998, 65(11): 1781-1785.
[25] Bagby MO. Vegetable oils for diesel fuel: opportunities for development. International Winter Meeting of the ASAE, Hyatt Regency Chicago, 15~18 December 1987..
[26] Sonntag, N.O.V. Reactions of fats and fatty acids. Bailey's industrial oil and fat products, vol 1[M]. Swern, D., John Wiley, Sons, 1979, New York, 343.
[27] Weisz, P.B., Hag, W.O., Rodeweld, P.G. Catalytic production of high-grade fuel (gasoline) from biomass compounds by shape detective catalysis [J]. Science, 1979,206,57~58.
[28] Schwab AW, Bagby MO, Freedman B. Preparation and properties of diesel fuels from vegetable oils [J]. Fuel, 1987,66:1372~1378.
[29] Goering, C.E., Camppion, R.N., Schwab, A.W., et al. In vegetable oil fuels, proceedings of the international conference on plant and vegetable oils as fuels, Fargo, North Dakota.1982, 279~286.
[30] Pryde, E.H., Vegetable oils as fuel alternatives-symposium overview. JAOCS, 1984, 61,1609~1610.
[31] Ziejewski Ag, Kaufman KR, Pratt GL. Vegetable oil as diesel fuel. Seminar Ⅱ, Northern Regional Research Center, Peoria, Illinois,19~20 October,1983.
[32] Mohamad I. Al-Widyan, Ghassan Tashtoush, Moh'd Abu-Oudais. Utilization of ethyl ester of waste vegetable oils as fuel in diesel engines [J]. Fuel Processing Technology, 2002,76: 91~103.
[33] Kevin J Harrington. Chemical and Physical Properties of Vegetable Oil Esters and their Effect on Diesel Fuel Performance [J]. Biomass, 1996,9:1.
[34] 忻耀年,B Sondermann,B Emersleben. 生物柴油的生产和应用[J].中国油脂,2001,26(5):72~77.
[35] 韩德奇,徐国英,徐会林,等.生物柴油的现状与发展前景[J].国际石油经济,2002,10(5):20~23.
[36] 黄庆德,黄凤洪,郭萍梅.生物柴油生产技术及其开发意义[J].粮食与油脂,2002,(9):8~10.
[37] 常致成.油基表面活性剂[M].北京:中国轻工业出版社,1998:248.
[38] 郭志璜.生物柴油——绿色环保汽车燃料[J].精细石油化工进展,2002,3(11):13~20.
[39] 冀星,郗小林.我国生物柴油产业发展展望[J].中国能源,2002,(5):16~18
[40] 沈英甲.中国能源如何面临挑战——访国务院发展研究中心产业经济部副部长冯飞研究员.科技日报,2003,12.2.
[41] W. KRBITZ. Biodiesel Production in Europe and North America, an Encouraging Prospect [J]. Renewable Energy, 1999, 16: 1078~1083.
[42] 朱行.植物油制成生物柴油[J].粮食与油脂,2001,(5):50.
[43] 章希.生物柴油的应用前景[J].城市公用事业,2000,14(3):7~9.
[44] 徐宝财,郑福平.日用化学品与原材料分析手册[M].北京:化学工业出版社,2002.
[45] 黄伟坤.食品检验与分析[M].北京:中国轻工业出版社,1997:740~749.
[46] 赵军.脱胶效果对油脂精炼影响[J].粮食与油脂,2002,(6):40~42.
[47] 杨桂法、王玉枝、杨霞.有机化学分析[M].湖南:湖南大学出版社:63
[48] 董建林,魏冰高酸值油脂助脱色与酯化脱酸工艺的研究[J].中国油脂,2000,25(6):82~85.
[49] 赵军.影响油脂脱色效果的因素[J].中国油脂,2003,28(2):20~22.
[50] V.Jordan, B.Gutsche. Development of an environmentally begin process for the production of fatty acid methyl esters[J]. Chemosphere, 2001, 43:99~105.
[51] Y. Zhang, M.A. Dube, D.D.Mclean, etal. Biodiesel production from waste oil: 1 Process design and technological assessment [J]. Bioresource Technology, 2003, 89:1~16.
[52] 朱明华.仪器分析[M].北京:高等教育出版社,1993.
[53] 张德义.提高炼油企业硫回收率 降低石油产品的硫含量.炼油,2000,5(1):35~36.
[54] 董仲.柴油的十六烷值[J].汽车运输节能技术.1994(1):31~34.
[55] 黄庆山.低十六烷值燃油对机车柴油机的危害及原因分析[J].内燃机车,1990,(9):37~40.
[56] 陈波水,严正泽.柴油十六烷值的挑战与对策[J].石油化工技术经济.1989,5(4):23~26.
[57] 刘乃鸿,工业塔新型规整填料应用手册[M].天津大学出版社,1993.
[58] 陈大昌,刘乃鸿.现代塔器技术[M].烃加工出版社,1990.
[59] 田禾.精细化学品发展趋势及市场研讨[J].化学世界,1998,39(增刊):52.
[60] 长滨帮雄,[J].1996,(1):7.
[61] 陈大昌,刘乃鸿,现代填料塔分离技术与应用.填料塔产品及技术手册[M].化学工业出版社,1995.
[62] 贾春兰,胡志红.从废弃物中回收硝基氯苯[J].上海化工,1999,(6):20.
[63] J.L.Bravo Chem. Eng.Progress[J]. 1997, (7):36.
[64] 沈丹平.植物油料化学及油脂化学[M].北京:中国商业出版社,1995.
[65] 张虹,高霞.高温加热对植物油脂品质的影响[J].食品科技,1998,(6):8~12.
[66] 陶顺兴.高温烹炸对食用油脂肪酸组成的影响[J].营养学报,1996,18(2):241~242.
[67] 刘真友.油脂碱炼的相转移反应机理[J].中国油脂,1994,19(1):31~32.
[68] 陶瑜.油脂碱炼基本原理及用碱量计算[J].粮食与油脂,1996(4):49~54.
[69] 胡铭.油脂碱炼脱酸工艺的新理论[J].中国油脂,1993,(1):13~18.
[70] 路世荣.植物油脂碱炼机理及其影响因素[J].新疆粮油科技,1992(1):6~7,12.
[71] Freedman, B., Butterfield, R.O., Pryde, E.H. Transesterification kinetics of soybean oil. Jaocs,1986, 63, 1375~1380.
[72] Freedman, B., Pryde, E.H., Mounts, T.L. Variables affecting the yields of fatty esters from
transesterified vegetable oil. Jaocs, 1984, 6:1638,1643.
[73] Tanaka, Y., Okabe, A., Ando, S. Method for the preparation of a lower alkyl ester of fatty acids[J]. US Patten, 1981, 4:303~590.
[74] Formo M.W. Ester reactions of fatty materials[J]. J Am Oil Chem Soc, 1954, 31(11):548~559.
[75] Anjana Srivastava, Ram Prasad. Triglycerides-based diesel fuels[J]. Renewable and Sustainable Energy Reviews, 2000, 4:111~133.
[76] Praveen R, Muniyappa, Scott C,et al. Improved conversion of plant oils and animal fats into biodiesel and co-product[J]. Bioresource Technology, 1996, 56:19~24.
[2] 夏延斌.食品化学[M].北京:中国轻工业出版社,2001.
[3] 王红梅.营养与食品卫生学[M].上海:上海交通大学出版社,2000,167~168.
[4] 刘大川,苏望懿.食用植物油与植物蛋白[M].北京:化学工业出版社,2001.
[5] 褚绪轩.国外油料作物和食用油产销现状及发展趋势[J].中国油脂,2002,27(1):85~90.
[6] 田煜.近年我国油脂供需概况及WTO短期影响(J).粮食与油脂,2002,(1):16~18.
[7] 钟立人.食品科学与工艺原理[M].北京:中国轻工业出版社,1999:124~126.
[8] 王璋,许时婴,汤坚.食品化学[M].北京:中国轻工业出版社,2001,105~111.
[9] 王福海,陈溥,潘雄祥等.硬脂酸及脂肪酸衍生物生产工艺[M].北京:中国轻工业出版社,1991:54.
[10] 马遇涵.科技为先法制为道,化害为利变废为宝——对废弃油脂的思考[J].再生资源研究,2001,(2):8~15.
[11] 彭荫来,杨帆.利用餐饮业废油脂制造生物柴油[J].城市环境与城市生态,2001,14(4):54~56.
[12] 戴钧樑.废润滑油再生(第三版)[M].北京:中国石化出版社,2000:385~391.
[13] 李铁坚.饲料中添加油脂的应用效果[J].饲料广角,2003,(3):23~27.
[14] 魏树龙,周淑芹,孙文志.油脂在家禽饲粮中的应用研究[J].上海畜牧兽医通讯,2003,(2):2~3.
[15] 谭天伟,王芳,邓立等.生物柴油的生产和应用[J].现代化工,2002,22(2):4~6.
[16] 方云,夏咏梅,蒋文贤.脂肪酸甲酯在表面活性剂和洗涤剂工业中的应用[J].日用化学工业,1991,(5):21~26.
[17] 常致成.脂肪酸酯的发展动向.全国第九次工业表面活性剂技术经济与应用开发会议论文集,2000:73~76.
[18] 王川岚.脂肪酸甲酯的合成和应用[J].四川化工,1998,(4):49~52.
[19] 常致成.脂肪酸甲酯制备表面活性剂的最新进展[J].化工科技,2000,8(1):60~64.
[20] 朱曾惠.重新活跃起来的生物柴油[J].化工新型材料,2002,30(8):35~36.
[21] 邓泽英.美国替代燃料汽车的基本现状[J].汽车与配件,1999,(51):16~19.
[22] 王伟.美国汽车代用燃料发展现状[J].世界石油工业,2000,7(7):50~52.
[23] Nicolas B.C.Ahouissoussi, Michael E.Wetzstein. A Comparative cost analysis of biodiesel, compressed natural gas, methanol, and diesel for transit bus systems [J]. Resource and Energy Economics, 1997, 20, 1~15.
[24] Schwab AW, Dykstra G J, Selke E, et al. Diesel fuel from thermal decomposition of
soybean oil [J]. J Am Oil Chem Soc, 1998, 65(11): 1781-1785.
[25] Bagby MO. Vegetable oils for diesel fuel: opportunities for development. International Winter Meeting of the ASAE, Hyatt Regency Chicago, 15~18 December 1987..
[26] Sonntag, N.O.V. Reactions of fats and fatty acids. Bailey's industrial oil and fat products, vol 1[M]. Swern, D., John Wiley, Sons, 1979, New York, 343.
[27] Weisz, P.B., Hag, W.O., Rodeweld, P.G. Catalytic production of high-grade fuel (gasoline) from biomass compounds by shape detective catalysis [J]. Science, 1979,206,57~58.
[28] Schwab AW, Bagby MO, Freedman B. Preparation and properties of diesel fuels from vegetable oils [J]. Fuel, 1987,66:1372~1378.
[29] Goering, C.E., Camppion, R.N., Schwab, A.W., et al. In vegetable oil fuels, proceedings of the international conference on plant and vegetable oils as fuels, Fargo, North Dakota.1982, 279~286.
[30] Pryde, E.H., Vegetable oils as fuel alternatives-symposium overview. JAOCS, 1984, 61,1609~1610.
[31] Ziejewski Ag, Kaufman KR, Pratt GL. Vegetable oil as diesel fuel. Seminar Ⅱ, Northern Regional Research Center, Peoria, Illinois,19~20 October,1983.
[32] Mohamad I. Al-Widyan, Ghassan Tashtoush, Moh'd Abu-Oudais. Utilization of ethyl ester of waste vegetable oils as fuel in diesel engines [J]. Fuel Processing Technology, 2002,76: 91~103.
[33] Kevin J Harrington. Chemical and Physical Properties of Vegetable Oil Esters and their Effect on Diesel Fuel Performance [J]. Biomass, 1996,9:1.
[34] 忻耀年,B Sondermann,B Emersleben. 生物柴油的生产和应用[J].中国油脂,2001,26(5):72~77.
[35] 韩德奇,徐国英,徐会林,等.生物柴油的现状与发展前景[J].国际石油经济,2002,10(5):20~23.
[36] 黄庆德,黄凤洪,郭萍梅.生物柴油生产技术及其开发意义[J].粮食与油脂,2002,(9):8~10.
[37] 常致成.油基表面活性剂[M].北京:中国轻工业出版社,1998:248.
[38] 郭志璜.生物柴油——绿色环保汽车燃料[J].精细石油化工进展,2002,3(11):13~20.
[39] 冀星,郗小林.我国生物柴油产业发展展望[J].中国能源,2002,(5):16~18
[40] 沈英甲.中国能源如何面临挑战——访国务院发展研究中心产业经济部副部长冯飞研究员.科技日报,2003,12.2.
[41] W. KRBITZ. Biodiesel Production in Europe and North America, an Encouraging Prospect [J]. Renewable Energy, 1999, 16: 1078~1083.
[42] 朱行.植物油制成生物柴油[J].粮食与油脂,2001,(5):50.
[43] 章希.生物柴油的应用前景[J].城市公用事业,2000,14(3):7~9.
[44] 徐宝财,郑福平.日用化学品与原材料分析手册[M].北京:化学工业出版社,2002.
[45] 黄伟坤.食品检验与分析[M].北京:中国轻工业出版社,1997:740~749.
[46] 赵军.脱胶效果对油脂精炼影响[J].粮食与油脂,2002,(6):40~42.
[47] 杨桂法、王玉枝、杨霞.有机化学分析[M].湖南:湖南大学出版社:63
[48] 董建林,魏冰高酸值油脂助脱色与酯化脱酸工艺的研究[J].中国油脂,2000,25(6):82~85.
[49] 赵军.影响油脂脱色效果的因素[J].中国油脂,2003,28(2):20~22.
[50] V.Jordan, B.Gutsche. Development of an environmentally begin process for the production of fatty acid methyl esters[J]. Chemosphere, 2001, 43:99~105.
[51] Y. Zhang, M.A. Dube, D.D.Mclean, etal. Biodiesel production from waste oil: 1 Process design and technological assessment [J]. Bioresource Technology, 2003, 89:1~16.
[52] 朱明华.仪器分析[M].北京:高等教育出版社,1993.
[53] 张德义.提高炼油企业硫回收率 降低石油产品的硫含量.炼油,2000,5(1):35~36.
[54] 董仲.柴油的十六烷值[J].汽车运输节能技术.1994(1):31~34.
[55] 黄庆山.低十六烷值燃油对机车柴油机的危害及原因分析[J].内燃机车,1990,(9):37~40.
[56] 陈波水,严正泽.柴油十六烷值的挑战与对策[J].石油化工技术经济.1989,5(4):23~26.
[57] 刘乃鸿,工业塔新型规整填料应用手册[M].天津大学出版社,1993.
[58] 陈大昌,刘乃鸿.现代塔器技术[M].烃加工出版社,1990.
[59] 田禾.精细化学品发展趋势及市场研讨[J].化学世界,1998,39(增刊):52.
[60] 长滨帮雄,[J].1996,(1):7.
[61] 陈大昌,刘乃鸿,现代填料塔分离技术与应用.填料塔产品及技术手册[M].化学工业出版社,1995.
[62] 贾春兰,胡志红.从废弃物中回收硝基氯苯[J].上海化工,1999,(6):20.
[63] J.L.Bravo Chem. Eng.Progress[J]. 1997, (7):36.
[64] 沈丹平.植物油料化学及油脂化学[M].北京:中国商业出版社,1995.
[65] 张虹,高霞.高温加热对植物油脂品质的影响[J].食品科技,1998,(6):8~12.
[66] 陶顺兴.高温烹炸对食用油脂肪酸组成的影响[J].营养学报,1996,18(2):241~242.
[67] 刘真友.油脂碱炼的相转移反应机理[J].中国油脂,1994,19(1):31~32.
[68] 陶瑜.油脂碱炼基本原理及用碱量计算[J].粮食与油脂,1996(4):49~54.
[69] 胡铭.油脂碱炼脱酸工艺的新理论[J].中国油脂,1993,(1):13~18.
[70] 路世荣.植物油脂碱炼机理及其影响因素[J].新疆粮油科技,1992(1):6~7,12.
[71] Freedman, B., Butterfield, R.O., Pryde, E.H. Transesterification kinetics of soybean oil. Jaocs,1986, 63, 1375~1380.
[72] Freedman, B., Pryde, E.H., Mounts, T.L. Variables affecting the yields of fatty esters from
transesterified vegetable oil. Jaocs, 1984, 6:1638,1643.
[73] Tanaka, Y., Okabe, A., Ando, S. Method for the preparation of a lower alkyl ester of fatty acids[J]. US Patten, 1981, 4:303~590.
[74] Formo M.W. Ester reactions of fatty materials[J]. J Am Oil Chem Soc, 1954, 31(11):548~559.
[75] Anjana Srivastava, Ram Prasad. Triglycerides-based diesel fuels[J]. Renewable and Sustainable Energy Reviews, 2000, 4:111~133.
[76] Praveen R, Muniyappa, Scott C,et al. Improved conversion of plant oils and animal fats into biodiesel and co-product[J]. Bioresource Technology, 1996, 56:19~24.