新一代环保型增塑剂柠檬酸三丁酯绿色合成进展

详细信息    查看全文 | 推荐本文 |

英文篇名：Research progress of the synthesis of green plasticizer tributyl citrate catalyzed by solid acid 作者：徐永强 ; 高强 ; 王海燕 ; 商红岩 ; 刘晨光 英文作者：XU Yongqiang;GAO Qiang;WANG Haiyan;SHANG Hongyan;LIU Chenguang;State Key Laboratory of Heavy Oil Processing, CNPC Key Laboratory of Catalysis, China University of Petroleum (East China);School of Chemical Engineering, Qinghai Normal University;College of Computer & Communication Engineering, China University of Petroleum(East China); 关键词：柠檬酸三丁酯 ; 增塑剂 ; 催化剂 英文关键词：tributyl citrate;;plasticizer;;catalyst 中文刊名：KJDB 英文刊名：Science & Technology Review 机构：中国石油大学(华东)重质油国家重点实验室CNPC催化重点实验室;青海师范大学化学化工学院;中国石油大学(华东)计算机与通信学院; 出版日期：2019-06-28 出版单位：科技导报 年：2019 期：v.37;No.570 基金：国家自然科学基金面上项目(21376267) 语种：中文; 页：KJDB201912016 页数：7 CN：12 ISSN：11-1421/N 分类号：81-87

摘要

柠檬酸三丁酯是一种无毒、绿色环保型的增塑剂,是替代目前广泛使用的有毒增塑剂的新一代环保型增塑剂之一。概述了柠檬酸三丁酯的主要性质及主要合成方法,对可用于制备柠檬酸三丁酯的固体酸催化剂进行了分类,总结了其在酯化反应中的应用。分析认为,有机固体酸催化剂是制备柠檬酸三丁酯的合适催化剂。
        The tributyl citrate is a non-toxic, green and environmentally friendly plasticizer, one of the new generation plasticizers to replace the widely used toxic plasticizers, and has become a research hotspot. The main properties of the tributyl citrate are listed in detail,and the main synthesis methods of the tributyl citrate are reviewed. The solid acid catalysts for the synthesis of the tributyl citrate are classified and their applications in the esterification are summarized. It is concluded that the organic solid acid catalyst is a suitable catalyst for the preparation of the tributyl citrate.

引文

[1]张颖,陈浩乾.增塑剂的研究与发展[J].广州化工,2009,37(4):49-51.
    [2]Marcilla A,García S,García-Quesada J C.Study of the migration of PVC plasticizers[J].Journal of Analytical&Applied Pyrolysis,2004,71(2):457-463.
    [3]陶刚,梁诚.国内外增塑剂市场分析与发展趋势[J].塑料科技,2008(6):78-81.
    [4]Rahman M,Brazel C S.Ionic liquids:New generation stable plasticizers for poly(vinyl chloride)[J].Polymer Degradation&Stability,2006,91(12):3371-3382.
    [5]石万聪.增塑剂的毒性及相关限制法规[J].塑料助剂,2010(3):43-47.
    [6]隆金桥,陈华妮,黎远成,等.绿色增塑剂柠檬酸三丁酯的催化合成[J].科技通报,2012(11):126-129.
    [7]李耀仓,马红霞,邓飞雄.环保增塑剂柠檬酸三丁酯的合成及应用[J].塑料工业,2012(10):24-27.
    [8]谢春和.柠檬酸三丁酯、乙酰柠檬酸三丁酯的催化合成研究[D].杭州:浙江大学,2006.
    [9]郭康斌.柠檬酸三丁酯、乙酰柠檬酸三丁酯的合成工艺研究[D].杭州:浙江大学,2012.
    [10]杜晓晗.柠檬酸三丁酯和乙酰柠檬酸三丁酯的合成与应用[D].无锡:江南大学,2007.
    [11]de Oliveira A H,Costa L R D S,de Oliveira P L H,et al.Microwave-assisted preparation of a new esterification catalyst from wasted flint kaolin[J].Fuel,2013,103:626-631.
    [12]do Nascimento L A S,Angélica R S,da Costa C E F,et al.Comparative study between catalysts for esterification prepared from kaolins[J].Applied Clay Science,2010,51(3):267-273.
    [13]Gupta P,Paul S.Solid acids:Green alternatives for acid catalysis[J].Catalysis Today,2014(236):153-170.
    [14]周海峰.固体酸催化酯化反应的研究进展[J].精细与专用化学品,2004,12(23):1-6
    [15]孙富安,郭一,何明阳,等.聚环卤代苯乙烯-二乙烯苯强酸性阳离子交换树脂的热稳定性[J].离子交换与吸附,2008(3):267-274.
    [16]周丽娜.固体酸在一些液相催化反应中的应用研究[D].上海:复旦大学,2008.
    [17]SvitokováM,Daucík P,Balog K.Sedimentation of ion exchange resin particles in bitumen matrices[J].Petroleum and Coal,2010,52(2):99-106.
    [18]侯信,黄文强,何炳林.强酸性阳离子交换树脂的热稳定性[J].离子交换与吸附,1995,11(5):465-472
    [19]聂颖,燕丰.我国柠檬酸三丁酯合成催化剂的研究开发进展[J].精细化工原料及中间体,2010(9):20-22,27.
    [20]崔小明.绿色增塑剂柠檬酸三丁酯的生产技术进展[J].化工文摘,2009(1):19-21.
    [21]游沛清,文瑞明,俞善信.固体酸催化合成柠檬酸三丁酯的研究进展[J].精细石油化工进展,2009(1):35-40.
    [22]李丹娜,张慧俐,张普玉.合成柠檬酸三丁酯的催化体系的研究进展[J].中州大学学报,2005(2):119-122.
    [23]Li Y,Hu S L,Cheng J H,et al.Acidic ionic liquid-catalyzed esterification of oleic acid for biodiesel synthesis[J].Chinese Journal of Catalysis,2014,35(3):396-406.
    [24]魏亚魁,韩相恩,魏贤勇,等.新型环保型增塑剂柠檬酸三丁酯合成的研究进展[J].化工新型材料,2011(2):23-25.
    [25]吴英华.硫酸氢钠催化合成柠檬酸三丁酯[J].山西化工,2007(3):10-12.
    [26]Xu J M,Jiang J C,Zuo Z Y,et al.Synthesis of tributyl citrate using acid ionic liquid as catalyst[J].Process Safety and Environmental Protection,2010,88(1):28-30.
    [27]雍靓,解从霞,杨凯,等.酸功能化离子液体催化合成柠檬酸三丁酯[J].分子催化,2008(2):105-110.
    [28]周华锋,李文泽,张丽清.多孔二氧化硅负载硅钨酸催化合成柠檬酸三丁酯[J].化学研究与应用,2014(1):125-129.
    [29]张圆圆,刘哲林,吴克,等.Keggin型杂多酸Hn XW12O40(X=P5+,Si4+,B3+;n=3,4,5)催化合成柠檬酸三丁酯[J].分子科学学报,2019,35(2):115-120.
    [30]周喜,李泽贤,张超.磷钨酸铵铝复合盐催化合成柠檬酸三丁酯[J].精细化工,2019,36(5):919-922.
    [31]王少鹏.分子筛SBA-15负载杂多酸催化剂的制备及其催化合成柠檬酸三丁酯的研究[D].太原:太原理工大学,2007.
    [32]Zheng Z F,Xu J M,Jiang J C,et al.Synthesis of tributyl citrate using SO2-4/Zr-MCM-41 as catalyst[J].Bulletin of the Chemical Society of Ethiopia,2011,25:147-150.^
    [33]程骞,党亚固,董文文,等.柠檬酸三丁酯的合成研究[J].云南化工,2012(6):13-17.
    [34]Liao Y,Peng M,Tong P J,et al.Synthesis of tributyl citrate using a novel solid acid catalyst prepared by the biomass waste[R].Chengdu:China Academic Journal Electronic Publishing House,2011:924-927
    [35]陈平,邓威,张晓丽.耐温强酸性阳离子交换树脂合成柠檬酸三丁酯[J].抚顺石油学院学报,2003(4):24-26,37.
    [36]刘庆辉,詹宏昌,汤敏擘.固体酸催化剂的分类以及研究近况[J].广州化工,2008(2):14-17.
    [37]Jiang T S,Zhao Q,Li M,et al,Preparation of mesoporous titania solid superacid and its catalytic property[J].Journal of Hazardous Materials,2008,159(2):204-209.
    [38]张昭,沈俊,张明俊,等.介孔二氧化钛及其SO42-/TiO2固体超强酸制备方法:CN1807259[P].2006-07-26.
    [39]刘桂荣,王洪章.固体超强酸催化剂的研究进展[J].江西化工,2005(3):23-27,60.
    [40]Yu F W,Ji D X,Nie Y,et al.Study on the pyrolysis of cellulose for bio-oil with mesoporous molecular sieve catalysts[J].Applied Biochemistry and Biotechnology,2012,168(1):174-182.
    [41]Fan Y,Shi G,Liu H Y,et al.Morphology tuning of supported MoS2slabs for selectivity enhancement of fluid catalytic cracking gasoline hydrodesulfurization catalysts[J].Applied Catalysis B,Environmental,2009,91(1):73-82.
    [42]张世方.催化重整工艺技术发展[J].中外能源,2012(6):60-65.
    [43]赵云,刘春燕,贺宁,等.组合纳米ZSM-5沸石上全馏分FCC汽油的选择性裂解[C]//第十七届全国分子筛学术大会会议论文集.北京:中国化学会分子筛专业委员会,2013:2.
    [44]李凯.ZSM-5催化剂成型技术及其甲苯歧化性能[D].南京:南京工业大学,2006.
    [45]庞小文,孟凡会,卢建军,等.甲醇制汽油工艺及催化剂制备的研究进展[J].化工进展,2013(5):1014-1019.
    [46]章月,蒋平平,董玉明,等.新型纳米SO2-4/TiO2催化剂制备及催化合成醋酸丁酯[J].工业催化,2012(12):63-66.
    [47]Parangi T F,Patel R M,Chudasama U V.Synthesis and characterization of mesoporous Si-MCM-41 materials and their application as solid acid catalysts in some esterification reactions[J].Bulletin of Materials Science,2014,37(3):609-615.
    [48]Molchanov V V,Maksimov G M,Maksimovskaya R I,et al.Synthesis of heteropoly acids and their salts using mechanochemical activation[J].Inorganic Materials,2003,39(7):687-693.
    [49]赵忠奎,李宗石,王桂茹,等.杂多酸催化剂及其在精细化学品合成中的应用[J].化学进展,2004(4):620-630.
    [50]严义芳,曹为民,陈福北.强酸性阳离子交换树脂在模拟含镍废水处理中的应用研究[J].化工技术与开发,2011(4):47-50.
    [51]Jiang Y W,Lu J,Sun K A,et al.Esterification of oleic acid with ethanol catalyzed by sulfonated cation exchange resin:Experimental and kinetic studies[J].Energy Conversion and Management,2013,76:980-985.
    [52]周晏旻,陈真,勾明雷,等.交换树脂催化剂在精细化工合成中的应用[C]//第一届全国精细化工催化会议论文集.北京:中国化学会,2009:3.
    [53]廖安平,蓝丽红,蓝平,等.强酸性阳离子交换树脂负载金属离子改性催化合成乙酸丁酯[J].离子交换与吸附,2008(4):368-373.
    [54]Zhang J Q,Shi M H,Fang D Y,et al.Reaction kinetics of the production of polyoxymethylene dimethyl ethers from methanol and formaldehyde with acid cation exchange resin catalyst[J].Reaction Kinetics,Mechanisms and Catalysis,2014,113(2):459-470
    [55]张雷,唐大新,唐桂芳,等.强酸性阳离子树脂催化合成乙酸乙酯研究[J].广西民族大学学报(自然科学版),2008(1):67-69,74.
    [56]姚能平,梅德华,陈建国,等.高交换量强酸苯乙烯系阳离子交换树脂的生产方法:CN103012687A[P].2013-04-03.
    [57]孙胜男.多酸基固体酸材料催化FCC汽油加氢改质研究[D].大连:辽宁师范大学,2013.
    [58]张宏.磺化硅胶催化合成环己酮1,2-丙二醇缩酮[J].宁夏工程技术,2009,8(4):363-365
    [59]李冰,马峰,李立强,等.磺化硅胶催化合成2-叔丁基对甲基苯酚[J].精细石油化工,2008,25(6):15-17
    [60]于领风.活性炭固载磷酸催化合成乙酸乙酯[D].大连:大连理工大学,2013.
    [61]张晓莉.有机复合固体磺酸的制备及应用[D].青岛:中国石油大学(华东),2013.
    [62]Mbaraka I K,Radu D R,Lin V C,et al.Organosulfonic acidfunctionalized mesoporous silica for the esterification of fatty acid[J].Journal of Catalysis,2003,219(2):329-336.
    [63]盖帅,徐永强,刘晨光.硅胶键合有机磺酸催化剂的制备与表征[J].石油学报,2010(增刊1):131-135.
    [64]高强,徐永强,商红岩,等.原位聚合法制备负载型聚苯乙烯磺酸催化剂[J].石油化工,2018,47(8):802-812.
    [65]屈文,苏继新,潘齐,等.磺酸基键合硅胶的制备及其酸催化性能研究[J].山东大学学报(理学版),2007,42(11):11-14.