[1] 司展, 蒋剑春, 王奎. 用于制备生物柴油的固体催化剂研究进展[J]. 生物质化学工程, 2013, 47(5): 51-56. SI Z, JIANG J C, WANG K.Research progress of solid catalysts for biodiesel production[J]. Biomass chemical engineering, 2013, 47(5): 51-56. [2] 姜克隽. 碳中和下先进技术研发至关重要[N]. 中国科学报, 2021-01-06. JIANG K J. Advanced technology research and development is crucial in a carbon-neutral environment[N]. China science daily, 2021-01-06. [3] 柴麒敏. 加快科技创新,推动我国碳中和国家建设[N]. 科技日报, 2020-10-26. CHAI L M. Accelerate scientific and technological innovation and promote the construction of China's carbon neutral country[N]. Science and technology daily, 2020-10-26. [4] 孟令虎, 苏海燕, 斯庆苏都, 等. 浅谈我国现有生物柴油生产工艺及发展趋势[J]. 化学工程与装备, 2019, 7: 274-276. MENG L H, SU H Y, SI Q S D, et al. Production process and development trend of biodiesel in China[J]. Chemical engineering & equipment, 2019, 7: 274-276. [5] 王轶辰. 生物柴油不应墙内开花墙外香[N]. 经济日报, 2021. WANG Y C.Biodiesel should not blossom on the wall and smell on the outside[N]. Economic daily, 2021. [6] ISSARIYAKUL T, DALAI A K.Biodiesel from vegetable oils[J]. Renewable and sustainable energy reviews, 2014, 31: 446-471. [7] 刘天一. 浅析生物质柴油的应用[J]. 广东蚕业, 2018, 52(3): 21-22. LIU T Y.Analysis of the application of biomass diesel oil[J]. Guangdong canye, 2018, 52(3): 21-22. [8] FUKUDA H, KONDO A, NODA H.Biodiesel fuel production by transesterification of oils[J]. Journal of bioscience and bioengineering, 2001, 92(5): 405-416. [9] 梁静娟, 庞宗文, 张琳, 等. 海洋假交替单胞菌抗真菌活性物质的纯化和鉴定[J]. 广东农业科学, 2014, 41(11): 114-117. LIANG J J, PANG Z W, ZHANG L, et al.Purification and identification of antifungal compounds from marine Pseudoalteromonas ruthenica[J]. Guangdong agricultural science, 2014, 41(11): 114-117. [10] ABDULLA R, RAVINDRA P.Immobilized Burkholderia cepacia lipase for biodiesel production from crude Jatropha curcas L oil[J]. Biomass and bioenergy, 2013, 56: 8-13. [11] DANIELA G L, VALERIO C D S, ERIC B R, et al. Diesel-like fuel obtained by pyrolysis of vegetable oils[J]. Journal of analytical and applied pyrolysis, 2004, 71(2): 987-796. [12] SAKA S, KUSDIANA D, MINAMI E.Non-catalytic biodiesel fuel production with supercritical methanol technologies[J]. Journal of scientific & industrial research, 2006, 65(5): 420-425. [13] 许家胜, 阴翔宇, 张杰, 等. 生物柴油制备新工艺的研究进展[J]. 可再生能源, 2010, 28(3): 107-116. XU J S, YIN X Y, ZHANG J, et al.Research progress of new technology for biodiesel production[J]. Renewable energy resources, 2010, 28(3): 107-116. [14] 李飞云, 熊开峰, 王哲, 等. 固体酸催化剂在生物柴油制备中的应用研究进展[J]. 齐鲁工业大学学报, 2017, 31(1): 38-43. LI F Y, XIONG K F, WANG Z, et al.Research progress in the application of solid acid catalysts in the preparation of biodiesel[J]. Journal of Qilu University of Technology, 2017, 31(1): 38-43. [15] 张雅琪. 固体酸在生物柴油制备中的应用[J]. 安徽化工, 2018, 44(6): 6-10. ZHANG Y Q.Application of solid acid in the preparation of biodiesel[J]. Anhui chemical industry, 2018, 44(6): 6-10. [16] OLIVEIRA C F, DEZANETI L M, GARCIA F A C, et al. Esterification of oleic acid with ethanol by 12-tungstophosphoric acid supported on zirconia[J]. Applied catalysis A: general, 2010, 372(2): 153-161. [17] BRAHMKHATRI V, PATEL A.Esterification of lauric acid with butanol-1 over H3PW12O40 supported on MCM-41[J]. Fuel, 2012, 102: 72-77. [18] LI T F, WANG X Q, JIAO J, et al.Catalytic transesterification of Pistacia chinensis seed oil using HPW immobilized on magnetic composite graphene oxide/cellulose microspheres[J]. Renewable energy, 2018, 127: 1017-1025. [19] XIE W L, WANG T.Biodiesel production from soybean oil transesterification using tin oxide-supported WO3 catalysts[J]. Fuel processing technology, 2013, 109: 150-155. [20] GAO Y H. Synthesize biodiesel through SO2-4/ZrO2for use as solid super acid catalyst in biodiesel production[J]. Advanced materials research, 2014, 919-921: 2105-2108. [21] 兰战伟, 耿欢欢, 王姗姗, 等. 改性4A分子筛催化高酸值油脂制备生物柴油[J]. 化工技术与开发, 2014, 43(11): 1-7. LAN Z W, GENG H H, WANG S S, et al.Preparation of biodiesel from oils with high acid value by modified 4A zeolite[J]. Technology & development of chemical industry, 2014, 43(11): 1-7. [22] BORGES L D, MOURA N N, COSTA A A, et al.Investigation of biodiesel production by HUSY and Ce/HUSY zeolites: influence of structural and acidity parameters[J]. Applied catalysis A: general, 2013, 450: 114-119. [23] 吴志鹏, 周玉杰, 张建安, 等. 固体酸催化剂制备生物柴油研究进展[J]. 现代化工, 2008(S2): 126-129. WU Z P, ZHOU Y J, ZHANG J A, et al.Research progress of solid acid catalyst for biodiesel production[J]. Modern chemical industry, 2008(S2): 126-129. [24] ILGEN O.Investigation of reaction parameters, kinetics and mechanism of oleic acid esterification with methanol by using Amberlyst 46 as a catalyst[J]. Fuel processing technology, 2014, 124: 134-139. [25] HU X L, WEI T Y, LIAO A P, et al.Use of acid cation-exchange resin for catalytic conversion of soybean acid oil to biodiesel[J]. Journal of material cycles and waste management, 2014, 18(1): 123-131. [26] MARWAHA A, DHIR A, MAHLA S K, et al.An overview of solid base heterogeneous catalysts for biodiesel production[J]. Catalysis reviews, 2018, 60(4): 594-628. [27] ZHANG P B, HAN Q J, FAN M M, et al.Magnetic solid base catalyst CaO/CoFe2O4 for biodiesel production: influence of basicity and wettability of the catalyst in catalytic performance[J]. Applied surface science, 2014, 317: 1125-1130. [28] WEN L B, WANG Y, LU D L, et al.Preparation of KF/CaO nanocatalyst and its application in biodiesel production from Chinese tallow seed oil[J]. Fuel, 2010, 89(9): 2267-2271. [29] WEI Z K, XU C L, LI B X.Application of waste eggshell as low-cost solid catalyst for biodiesel production[J]. Bioresource technology, 2009, 100(11): 2883-2285. [30] VIRIYA-EMPIKUL N, KRASAE P, PUTTASAWAT B, et al.Waste shells of mollusk and egg as biodiesel production catalysts[J]. Bioresource technology, 2010, 101(10): 3765-3767. [31] ROSCHAT W, SIRITANON T, KAEWPUANG T, et al.Economical and green biodiesel production process using river snail shells-derived heterogeneous catalyst and co-solvent method[J]. Bioresource technology, 2016, 209: 343-350. [32] BANKOVIC-ILIC I B, MILADINOVIC M R, STAMENKOVIC O S, et al. Application of nano CaO-based catalysts in biodiesel synthesis[J]. Renewable and sustainable energy reviews, 2017, 72: 746-760. [33] BORAH M J, DAS A, DAS V, et al.Transesterification of waste cooking oil for biodiesel production catalyzed by Zn substituted waste egg shell derived CaO nanocatalyst[J]. Fuel, 2019, 242: 345-354. [34] LIU C, LYU P M, YUAN Z H, et al.The nanometer magnetic solid base catalyst for production of biodiesel[J]. Renewable energy, 2010, 35(7): 1531-1536. [35] LIU Y L, ZHANG P B, FAN M M, et al.Biodiesel production from soybean oil catalyzed by magnetic nanoparticle MgFe2O4@CaO[J]. Fuel, 2016, 164: 314-321. [36] HU S Y, GUAN Y P, WANG Y, et al.Nano-magnetic catalyst KF/CaO-Fe3O4 for biodiesel production[J]. Applied energy, 2011, 88(8): 2685-2690. [37] HELWANI Z, RAMLI M, SAPUTRA E, et al.Impregnation of CaO from eggshell waste with magnetite as a solid catalyst (Fe3O4/CaO) for transesterification of palm oil off-grade[J]. Catalysts, 2020, 10(2): 164-176. [38] LIU M Q, HUANG Y, LIU Q, et al.Ferric oxide as a support of carbide slag for effective transesterification of triglycerides in soybean oil[J]. Energy conversion and management, 2019, 198: 111785. [39] LIU X J, HE H Y, WANG Y J, et al.Transesterification of soybean oil to biodiesel using CaO as a solid base catalyst[J]. Fuel, 2008, 87(2): 216-221. [40] FEYZI M, NOROUZI L.Preparation and kinetic study of magnetic Ca/Fe3O4@SiO2 nanocatalysts for biodiesel production[J]. Renewable energy, 2016, 94: 579-586. [41] EZZAH M S, LOKMAN I M, SAIMAN M I, et al.Synthesis and characterization of Fe2O3/CaO derived from Anadara Granosa for methyl ester production[J]. Energy conversion and management, 2016, 126: 124-131. [42] AKKARAWATKHOOSITH N, KAEWCHADA A, NGAMCHARUSSRIVICHAI C, et al.Biodiesel production via interesterification of palm oil and ethyl acetate using ion-exchange resin in a packed-bed reactor[J]. Bioenergy research, 2019, 13(2): 542-551. [43] BUASRI A, LORYUENYONG V.Continuous production of biodiesel from rubber seed oil using a packed bed reactor with BaCl2 impregnated CaO as catalyst[J]. Bulletin of chemical reaction engineering & catalysis, 2018, 13(2): 320-330. [44] WANG X, LIU X Y, ZHAO C M, et al.Biodiesel production in packed-bed reactors using lipase-nanoparticle biocomposite[J]. Bioresource technology, 2011, 102(10): 6352-6355. [45] GUMUS R H W I, OSARO H. Simulation model for biodiesel production using plug flow reactor: non isothermal operation[J]. International journal of engineering research and development, 2013, 6(9): 59-66. [46] SAWANGKEAW R, BUNYAKIAT K, NGAMPRASERTSITH S.Continuous production of biodiesel with supercritical methanol: optimization of a scale-up plug flow reactor by response surface methodology[J]. Fuel processing technology, 2011, 92(12): 2285-2292. [47] GONZALEZ J P C, GUTIERREZ P E A, MEDINA M A, et al. Effects on biodiesel production caused by feed oil changes in a continuous stirred-tank reactor[J]. Applied sciences, 2020, 10(3): 992-1015. [48] KOUZU M, FUJIMORI A, FUKAKUSA R T, et al.Continuous production of biodiesel by the CaO-catalyzed transesterification operated with continuously stirred tank reactor[J]. Fuel processing technology, 2018, 181: 311-317. [49] ATADASHI I M, AROUA M K, ABDUL AZIZ A R, et al. High quality biodiesel obtained through membrane technology[J]. Journal of membrane science, 2012, 421-422: 154-164. [50] HAPOŃSKA M, NURRA C, ABELL S, et al. Membrane reactors for biodiesel production with strontium oxide as a heterogeneous catalyst[J]. Fuel processing technology, 2019, 185: 1-7. [51] 冯斐斐, 王晓丹. 气液微反应器研究及展望[J]. 当代化工, 2017, 46(5): 943-948. FENG F F, WANG X D.Research and prospect of gas-liquid microreactor[J]. Contemporary chemical industry, 2017, 46(5): 943-948. [52] 郭巧玲,岳建伟. 微通道反应器制备生物柴油的工艺研究[J]. 山东化工, 2018, 48(24): 23-30. GUO Q L, YUE J W.Preparation of biodiesel by microchannel reactor[J]. Shandong chemical industry, 2018, 48(24): 23-30. [53] WEN Z Z, YU X H, TU S T, et al.Intensification of biodiesel synthesis using zigzag micro-channel reactors[J]. Bioresource technology, 2009, 100(12): 3054-3060. [54] NATARAJAN Y, NABERA A, SALIKE S, et al.An overview on the process intensification of microchannel reactors for biodiesel production[J]. Chemical engineering and processing-process intensification, 2019, 136: 163-176. [55] 周红梅, 周斌, 邱伟, 等. 柴油机燃用地沟油生物柴油性能的试验研究[J]. 小型内燃机与车辆技术, 2017, 46(3): 32-37. ZHOU H M, ZHOU B, QIU W, et al.Experimental study on biodiesel performance of diesel engine burning gutter oil[J]. Small internal combustion engine and vehicle technique, 2017, 46(3): 32-37. [56] 边浩毅, 贾超超, 丰延明, 等. 大豆毛油制备生物柴油在发动机上的应用[J]. 长安大学学报(自然科学版), 2013, 33(4): 121-126. BIAN H Y, JIA C C, FENG Y M, et al.Application of biodiesel from soybean crude oil in engine[J]. Journal of Chang'an University(natural science edition), 2013, 33(4): 121-126. [57] 郑挺. 生物柴油制备绿色增塑剂环氧脂肪酸异辛酯及应用研究[D]. 杭州: 浙江工业大学, 2019. ZHENG T.Preparation of green plasticizer epoxidized fatty acid 2-ethylhexyl esters from biodiesel and its application[D]. Hangzhou: Zhejiang University of Technology, 2019. [58] SRIPADA P K, SHARMA R V, DALAI A K.Comparative study of tribological properties of trimethylolpropane-based biolubricants derived from methyl oleate and canola biodiesel[J]. Industrial crops and products, 2013, 50: 95-103. [59] CAMPANELLA A, FONTANINI C, BALTAN S M A. High yield epoxidation of fatty acid methyl esters with performic acid generated in situ[J]. Chemical engineering journal, 2008, 144(3): 466-475. [60] MIYAKE T, MAKINO T, TANIGUCHI S I, et al.Alcohol synthesis by hydrogenation of fatty acid methyl esters on supported Ru-Sn and Rh-Sn catalysts[J]. Applied catalysis A: general, 2009, 364(1-2): 108-112. |