纤维素基吸油材料的研究进展
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摘要
随着油污染的日益严重,吸油材料越来越重要,寻找一种能降解再生的廉价吸油材料对环境保护有着重要作用.对吸油材料的种类、吸油机理及纤维素基吸油材料的改性方法包括酯化、醚化、接枝共聚、纤维素酶解和制备气凝胶等进行了综述,并对未来吸油材料的应用前景进行了展望.
The oil absorbing material was becoming more and more important as the situation of oil pollution was more serious. It is more important to Looking for a kind of oil absorbent material in environmental protection. The types of oil-absorbing material, the mechanism of oil absorption and the modification methods of cellulose-based oil-absorbing material which includes esterification, etherification, graft copolymerization, cellulose enzymatic hydrolysis, and preparation of aerogels were reviewed and the application of future oil-absorbing material was prospected.
The oil absorbing material was becoming more and more important as the situation of oil pollution was more serious. It is more important to Looking for a kind of oil absorbent material in environmental protection. The types of oil-absorbing material, the mechanism of oil absorption and the modification methods of cellulose-based oil-absorbing material which includes esterification, etherification, graft copolymerization, cellulose enzymatic hydrolysis, and preparation of aerogels were reviewed and the application of future oil-absorbing material was prospected.
引文
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[44]TELI M D,VALIA S P. Grafting of Butyl Acrylate on to Banana Fibers for Improved Oil Absorption[J]. Journal of Natural Fibers,2016,13(4): 470-476.
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[51]PENG D,LAN Z,GUO C,et al. Application of cellulase for the modification of corn stalk: Leading to oil sorption[J]. Bioresource Technology,2013,137(6): 414-418.
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[2]程壮,白翔,王晓东,等. 石油类污染水源水的应急处理[J]. 油气田地面工程,2014,33(7): 25-26.
[3]许国欣. 石油泄露污染水源水的快速应急处理方法研究[D]. 长春:吉林大学,2011.
[4]LIN Q,MENDELSSOHN I A,CARNEY K,et al. In-situ burning of oil in coastal marshes. 2. Oil spill cleanup efficiency as a function of oil type,marsh type,and water depth[J]. Environmental Science and Technology,2005,39(6): 1855-1860.
[5]濮文虹,周李鑫,杨帆,等. 海上溢油防治技术研究进展[J]. 海洋科学,2005,29(6): 73-76.
[6]SRINIVASAN A,VIRARAGHAVAN T. Oil removal from water by fungal biomass: a factorial design analysis[J]. Journal of Hazardous materials,2010,175(1-3): 695-702.
[7]杜卫宁,韩晓娜,李正军,等. 天然有机纤维吸油材料的结构特点及其功能化改性技术的研究进展[J]. 功能材料,2015,46(18): 18016-18022.
[8]WANG J,ZHENG Y,WANG A. Coated kapok fiber for removal of spilled oil[J]. Marine Pollutution Bulletin,2013,69(1-2): 91-96.
[9]AL-MAJED A A,ADEBAYO A R,HOSSAIN M E. A sustainable approach to controlling oil spills[J]. Journal of Environmental Management,2012,113(1): 213-227.
[10]WAHI R,CHUAH L A,CHOONG T S Y,et al. Oil removal from aqueous state by natural fibrous sorbent: An overview[J]. Separation and Purification Technology,2013,113(113): 51-63.
[11]LV E,XIA W,TANG M,et al. Preparation of an Efficient Oil-Spill Adsorbent Based on Wheat Straw[J]. BioResources,2016,12(1): 296-315.
[12]GUPTA S,TAI N H. Carbon materials as oil sorbents: a review on the synthesis and performance[J]. Journal of Materials Chemistry,2016,4(5): 1550-1565.
[13]DING X,WANG R,ZHANG X,et al. A new magnetic expanded graphite for removal of oil leakage[J]. Marine Pollutution Bulletin,2014,81(1): 185-190.
[14]MOURA F C C,LAGO R M. Catalytic growth of carbon nanotubes and nanofibers on vermiculite to produce floatable hydrophobic “nanosponges” for oil spill remediation[J]. Applied Catalysis B: Environmental,2009,90(3-4): 436-440.
[15]PATOWARY M,ANANTHAKRISHNAN R,PATHAK K. Chemical modification of hygroscopic magnesium carbonate into superhydrophobic and oleophilic sorbent suitable for removal of oil spill in water[J]. Applied Surface Science,2014,320:294-300.
[16]徐乃库,肖长发,封严,等. 聚甲基丙烯酸酯系有机液体吸附功能纤维制备工艺及其性能研究进展[J]. 功能材料,2012,43(20): 2735-2741.
[17]蔡杰. 纤维素科学与材料[M]. 北京:化学工业出版社,2015.
[18]李丹. 以玉米秸秆为原料的天然吸油材料的制备及性能分析[D].天津: 天津大学,2013.
[19]叶代勇,黄洪,傅和青,等. 纤维素化学研究进展[J]. 化工学报,2006,57(8): 1782-1791.
[20]YUAN X,CHUNG T C M. Novel Solution to Oil Spill Recovery: Using Thermodegradable Polyolefin Oil Superabsorbent Polymer (Oil-SAP)[J]. Energy and Fuels,2012,26(8): 4896-4902.
[21]WAN C,LI Y. Microbial delignification of corn stover by Ceriporiopsis subvermispora for improving cellulose digestibility[J]. Enzyme and Microbial Technology,2010,47(1-2): 31-36.
[22]张孟贺,常福祥,钟小仙,等. 杂交狼尾草中纳米纤维素的提取和表征[J]. 材料开发与应用,2017,31(1): 94-98.
[23]韩浩然,常娟,尹清强,等. 蒸汽爆破和化学处理对玉米秸秆化学成分的影响[J]. 江苏农业科学,2017,45(8): 166-168.
[24]刘钊,文明,刘洋,等. 热解柚子皮吸油材料的制备及性能[J]. 环境工程学报,2016,10(4): 1818-1822.
[25]陈莉,邹龙,孙卫国. 废弃亚麻热解处理吸油材料的制备及其吸附性能[J]. 纺织学报,2017,38(6): 17-22.
[26]HUSSEIN M,AMER A A,SAWSAN I I. Oil spill sorption using carbonized pith bagasse: trial for practical application[J]. International Journal of Environmental Science and Technology,2008,5(2): 233-242.
[27]李丹. 以玉米秸秆为原料的天然吸油材料的制备及性能分析[D].天津: 天津大学,2013.
[28]王海娇. 基于玉米秸秆吸油材料的制备及性能研究[D]. 哈尔滨:哈尔滨工业大学,2015.
[29]WANG J,WANG A. Acetylated modification of kapok fiber and application for oil absorption[J]. Fibers and Polymers,2013,14(11): 1834-1840.
[30]WAHI R,ABDULLAH L C,MOBAREKEH M N,et al. Utilization of esterified sago bark fibre waste for removal of oil from palm oil mill effluent[J]. Journal of Environmental Chemical Engineering,2017,5(1): 170-177.
[31]ASADPOUR R,SAPARI N B,ISA M H,et al. Acetylation of oil palm empty fruit bunch fiber as an adsorbent for removal of crude oil[J]. Environmental Science and Pollution Research,2016,23(12): 11740-11750.
[32]ABDELWAHAB N A,SHUKRY N,ELKALYOUBI S F. Preparation and characterization of polymer coated partially esterified sugarcane bagasse for separation of oil from seawater[J]. Environmental Technology,2016,38(15): 1-31.
[33]SHANG W,SHENG Z,SHEN Y,et al. Study on oil absorbency of succinic anhydride modified banana cellulose in ionic liquid[J]. Carbohydrate Polymers,2016,141: 135-142.
[34]CHEU S C,KONG H,SONG S T,et al. High removal performance of dissolved oil from aqueous solution by sorption using fatty acid esterified pineapple leaves as novel sorbents[J]. Rsc Advances,2016,6(17): 13710-13722.
[35]严瑞瑄. 水溶性高分子[M]. 北京:化学工业出版社,2010.
[36]万晓巧. 木材的醚化改性及分散染料对其染色的影响[D].长沙: 中南林业科技大学,2014.
[37]曲保雪. 木质纤维氰乙基化、苄基化及其应用研究[D]. 长沙:中国林业科学研究院,2010.
[38]邵自强. 纤维素醚[M]. 北京:化学工业出版社,2007.
[39]ZHOU J,LI Q,SONG Y,et al. A facile method for the homogeneous synthesis of cyanoethyl cellulose in NaOH/urea aqueous solutions[J]. Polymer Chemistry,2010,1(10): 1662-1668.
[40]HASSAN M L,EL‐WAKIL N A,SEFAIN M Z. Thermoplasticization of bagasse by cyanoethylation[J]. Journal of Applied Polymer Science,2015,79(11): 1965-1978.
[41]LI M F,SUN S N,XU F,et al. Cold NaOH/urea aqueous dissolved cellulose for benzylation: Synthesis and characterization[J]. European Polymer Journal,2011,47(9): 1817-1826.
[42]XU Y,YANG H,ZANG D,et al. Preparation of a new superhydrophobic/superoleophilic corn straw fiber used as an oil absorbent for selective absorption of oil from water[J]. Bioresources and Bioprocessing,2018,5(1): 8.
[43]张留成. 高分子材料进展[M]. 北京:化学工业出版社,2014.
[44]TELI M D,VALIA S P. Grafting of Butyl Acrylate on to Banana Fibers for Improved Oil Absorption[J]. Journal of Natural Fibers,2016,13(4): 470-476.
[45]CHEN S,ZHANG X,ZHU H,et al. Optimization Synthesis Conditions and Characterization of Oil Biosorbent: Sugarcane Bagasse Cellulose-Graft-Polystearylmethacrylate Copolymer[J]. Bioresources,2015,10(1): 1357-1365.
[46]汪子孺,杨莉,张友婷,等. 乙基纤维素基聚MMA-BA复合高吸油树脂的制备及性能[J]. 化工新型材料,2016,44(7): 67-69.
[47]赵东,封严,甄亚洲. 甲基丙烯酸丁酯接枝改性落棉纤维吸附行为研究[J]. 化工新型材料,2017,45(1): 130-133.
[48]鲁杰,石淑兰,邢效功,等. NaOH预处理对植物纤维素酶解特性的影响[J]. 纤维素科学与技术,2004,12(1): 1-6.
[49]柴文波. 纤维基复合吸油材料的制备及其吸油机理研究[D]. 上海:上海大学,2016.
[50]蓝舟琳,彭丹,郭楚玲,等. 绿色木霉改性玉米秸秆溢油吸附剂的制备及其性能研究[J]. 环境科学,2013,34(4): 1605-1610.
[51]PENG D,LAN Z,GUO C,et al. Application of cellulase for the modification of corn stalk: Leading to oil sorption[J]. Bioresource Technology,2013,137(6): 414-418.
[52]彭丹,党志,郑刘春. 生物改性玉米秸秆处理溢油污染水体的研究[J]. 农业环境科学学报,2018,37(2): 309-315.
[53]景旭东,林海琳,阎杰. 秸秆纤维素吸油材料的研究进展[J]. 材料导报,2015,29(19): 50-54.
[54]高鹤,梁大鑫,李坚. 纤维素气凝胶材料研究进展[J]. 科技导报,2016,34(19): 138-142.
[55]KORHONEN J T,KETTUNEN M,RAS R H,et al. Hydrophobic nanocellulose aerogels as floating,sustainable,reusable,and recyclable oil absorbents[J]. Acs Applied Materials & Interfaces,2011,3(6): 1813-1816.
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