Page 70 - 《精细化工》2021年第1期

P. 70

·60· 精细化工 FINE CHEMICALS 第 38 卷

[5] YANG Z F (杨子飞), CAO Y (曹阳), LI J (李进). Synthesis and [24] ZIK N A F A, SULAIMAN S, JAMAL P. Biodiesel production from
characterization of zirconium-base MOFs and catalytic preparation of waste cooking oil using calcium oxide/nanocrystal cellulose/polyvinyl
biodiesel[J]. Fine Chemicals (精细化工), 2020, 37(2): 248-256. alcohol catalyst in a packed bed reactor[J]. Renewable Energy, 2020,
[6] SUN C J (孙传佳). Study on synthesis of biodiesel by solid base 155: 267-277.
catalyst[D]. Zhenjiang：Jiangsu University (江苏大学), 2015. [25] VAHID B R, HAGHIGHI M, ALAEI S, et al. Reusability
[7] ZHANG Q Y (张秋云), WU Z F (吴忠富), LUO D (罗丹), et al. enhancement of combustion synthesized MgO/MgAl 2O 4 nanocatalyst
Study on synthesis of biodiesel from esterification of oleic acid and in biodiesel production by glow discharge plasma treatment[J].
methanol catalyzed by a novel chromium-alginate complexes[J]. Energy Conversion and Management, 2017, 143: 23-32.
China Oils and Fats (中国油脂), 2017, 42(7): 101-105. [26] ALAEI S, HAGHIGHI M, RAHMANIVAHID B, et al. Conventional
[8] HUANG Z X (黄振旭), CHEN L X (陈凌霞), WANG P T (王潘婷), vs. hybrid methods for dispersion of MgO over magnetic Mg-Fe
et al. Study on La-doped MgO/SBA-15 solid base catalyst for mixed oxides nanocatalyst in biofuel production from vegetable
transesterification of soybean oil to biodiesel[J]. New Chemical oil[J]. Renewable Energy, 2020, 154: 1188-1203.
Materials (化工新型材料), 2020, 48(3): 232-235. [27] TANG Y, REN H M, CHANG F Q, et al. Nano KF/Al 2O 3 particles as
[9] LEE A F, BENNETT J A, MANAYIL J C, et al. Heterogeneous an efficient catalyst for no-glycerol biodiesel production by coupling
catalysis for sustainable biodiesel production via esterification and transesterification[J]. RSC Advance, 2017, 7(10): 5694-5700.
transesterification[J]. Chemical Society Reviews, 2014, 43: 7887-7916. [28] NAYEBZADEHA H, SAGHATOLESLAMI N, HAGHIGHI M,
[10] SOLER L, ILLANES A, WILSON L. Immobilization of Alcaligenes et al. Catalytic activity of KOH-CaO-Al 2O 3 nanocomposites in
sp. lipase as catalyst for the transesterification of vegetable oils to biodiesel production: Impact of preparation method[J]. International
produce biodiesel[J]. Catalysis Today, 2016, 259: 177-182. Journal of Self-Propagating High-Temperature Synthesis, 2019,
[11] ZHANG Q Y (张秋云), LI H (李虎), XUE W (薛伟), et al. Recent 28(1): 18-27.
advances in the application of metal-oxide-based solid acid to the [29] NAYEBZADEH H, SAGHATOLESLAMI N, TABASIZADEH M.
synthesis of biodiesel[J]. Speciality Petrochemicals (精细石油化工), Application of microwave irradiation for fabrication of sulfated
2013, 30(2): 73-82. ZrO 2-Al 2O 3 nanocomposite via combustion method for esterification
[12] SU F, GUO Y H. Advancements in solid acid catalysts for biodiesel reaction: Process condition evaluation[J]. Journal of Nanostructure in
production[J]. Green Chemistry, 2014, 16(6): 2934-2957. Chemistry, 2019, 9(2): 141-152.
[13] LI H, FANG Z, SMITH R L, et al. Efficient valorization of biomass [30] SHABAN M, HOSNY R, RABIE A M, et al. Zinc aluminate
to biofuels with bifunctional solid catalytic materials[J]. Progress in nanoparticles: Preparation, characterization and application as
Energy and Combustion Science, 2016, 55: 98-194. efficient and economic catalyst in transformation of waste cooking
[14] DEGFIE T A, MAMO T T, MEKONNEN Y S. Optimized biodiesel oil into biodiesel[J]. Journal of Molecular Liquids, 2020, 302:
production from waste cooking oil (WCO) using calcium oxide 112377.
(CaO) nanocatalyst[J]. Sientific Reports, 2019, 9: 18982. [31] WANG H G, LI Y X, YU F, et al. A stable mesoporous super-acid
[15] KRISHNAMURTHY K N, SRIDHARA S N, ANANDA KUMAR C nanocatalyst for eco-friendly synthesis of biodiesel[J]. Chemical
S. Optimization and kinetic study of biodiesel production from Engineering Journal, 2019, 364: 111-122.
hydnocarpus wightiana oil and dairy waste scum using snail shell [32] AFSHARIZADEH M, MOHSENNIA M. Catalytic synthesis of
CaO nano catalyst[J]. Renewable Energy, 2020, 146: 280-296. biodiesel from waste cooking oil and corn oil over zirconia-based
[16] RABIE A M, SHABAN M, ABUKHADRA M R, et al. Diatomite metal oxide nanocatalysts[J]. Reaction Kinetics and Catalysis Letters,
supported by CaO/MgO nanocomposite as heterogeneous catalyst for 2020, 128(1): 443-459.
biodiesel production from waste cooking oil[J]. Journal of Molecular [33] DE A, BOXI S S. Application of Cu impregnated TiO 2 as a
Liquids, 2019, 279: 224-231. heterogeneous nanocatalyst for the production of biodiesel from palm
[17] ESMAEILI H, YEGANEH G, ESMAEILZADEH F. Optimization of oil[J]. Fuel, 2020, 265: 117019.
biodiesel production from moringa oleifera seeds oil in the presence [34] PATIL A, BARAL S S, DHANKE P, et al. Biodiesel production
of nano-MgO using Taguchi method[J]. International Nano Letters, using prepared novel surface functionalised TiO 2 nano-catalyst in
2019, 9(3): 257-263. hydrodynamic cavitation reactor[J]. Materials Today: Proceedings,
[18] SHAHBAZI F, MAHDAVI V, ZOLGHARNEIN J. Preparation and 2020, 27: 198-203.
characterization of SrO/MgO nanocomposite as a novel and efficient [35] VINOTH A R J, BHARATHIRAJA B, VIJAYAKUMAR B, et al.
base catalyst for biodiesel production from waste cooking oil: A Biodiesel production from microalgae nannochloropsis oculata using
statistical approach for optimization[J]. Journal of the Iranian heterogeneous poly ethylene glycol (PEG) encapsulated ZnOMn 2+
Chemical Society, 2020, 17(2): 333-349. nanocatalyst[J]. Bioresource Technology, 2019, 282: 348-352.
[19] SARAVANAN K, TYAGI B, BAJAJ H C. Esterification of caprylic [36] AMBAT I, SRIVASTAVA V, HAAPANIEMI E, et al. Nano-magnetic
acid with alcohol over nano-crystalline sulfated zirconia[J]. Journal potassium impregnated ceria as catalyst for the biodiesel
of Sol-Gel Science and Technology, 2012, 62(1): 13-17. production[J]. Renewable Energy, 2019, 139: 1428-1436.
[20] KAUR M, MALHOTRA R, ALI A. Tungsten supported Ti/SiO 2 [37] AKHTAR M T, AHMAD M, SHAHEEN A, et al. Comparative study
nanoflowers as reusable heterogeneous catalyst for biodiesel of liquid biodiesel from Sterculia foetida (bottle tree) using CuO-CeO 2
production[J]. Renewable Energy, 2018, 116: 109-119. and Fe 2O 3 nano catalysts[J]. Frontiers in Energy Research, 2019, 7: 4.
[21] SALIMI Z, HOSSEINI S A. Study and optimization of conditions of [38] KUMAR P, MATOH L, SRIVASTAVA V C, et al. Synthesis of
biodiesel production from edible oils using ZnO/BiFeO 3 nano zinc/ferrocyanide nano-composite catalysts having a high activity for
magnetic catalyst[J]. Fuel, 2019, 239: 1204-1212. transesterification reaction[J]. Renewable Energy, 2020, 148: 946-952.
[22] MOHEBBI S, ROSTAMIZADEH M, KAHFOROUSHAN D. Effect [39] AL-JAMMAL N, AL-HAMAMRE Z, ALNAIEF M. Manufacturing
of molybdenum promoter on performance of high silica MoO 3/B-ZSM-5 of zeolite based catalyst from zeolite tuft for biodiesel production
nanocatalyst in biodiesel production[J]. Fuel, 2020, 266: 117063. from waste sunflower oil[J]. Renewable Energy, 2016, 93: 449-459.
[23] HALEK F, AGHAMOHAMMADI N, MOHAMADI F. Biodiesel [40] MANADEE S, SOPHIPHUN O, OSAKOO N, et al. Identification of
production from waste edible oil with heterogeneous catalysts potassium phase in catalysts supported on zeolite NaX and
(nanoclay-based nanocatalysts)[J]. Arabian Journal for Science and performance in transesterification of Jatropha seed oil[J]. Fuel
Engineering, 2019, 44(12): 9919-9924. Processing Technology, 2017, 156: 62-67.

65 66 67 68 69 70 71 72 73 74 75