Intensification approaches for biodiesel synthesis from waste cooking oil: A review

Industrial and Engineering Chemistry Research

Volumn 51, Issue 45, 2012, Pages 14610-14628

  Maddikeri, Ganesh L ^a   Pandit, Aniruddha B ^a   Gogate, Parag R ^a  

^a INSTITUTE OF CHEMICAL TECHNOLOGY   (India)

Author keywords

[No Author keywords available]

Indexed keywords

BIODIESEL PRODUCTION; BIODIESEL SYNTHESIS; CAVITATIONAL REACTORS; CHEMICAL PRE-TREATMENT; COMPARATIVE ANALYSIS; COSOLVENTS; CRITICAL REVIEW; DESIGN AND OPERATIONS; ENERGY INPUTS; ENVIRONMENTAL BENEFITS; HIGH ENERGY CONSUMPTION; MICRO CHANNEL REACTORS; MOLAR RATIO; NON-TOXICITY; OPERATING PARAMETERS; OSCILLATORY FLOWS; PRETREATMENT METHODS; PROCESS INTENSIFICATION; PRODUCTION EFFICIENCY; SUPERCRITICAL; SYNTHESIS PROCESS; SYNTHESIS ROUTE; TRANSESTERIFICATION REACTION; TRANSPORT PROCESS; WASTE COOKING OIL;

ADSORPTION; ALTERNATIVE FUELS; BIODEGRADATION; BIODIESEL; DISTILLATION; ENERGY UTILIZATION; FATTY ACIDS; FEEDSTOCKS; OILS AND FATS; REACTION RATES; SYNTHESIS (CHEMICAL); TRANSESTERIFICATION;

SYNTHETIC FUELS;

EID: 84869462954     PISSN: 08885885     EISSN: 15205045     Source Type: Journal    
DOI: 10.1021/ie301675j     Document Type: Review

References (95)

1. Karmarkar, A.; Karmarkar, S.; Mukherjee, S. Properties of various plants and animals feedstocks for biodiesel production Bioresour. Technol. 2010, 101, 7201-7210
2. Klass, D. L. Biomass for Renewable Energy. In Fuels, and Chemicals, 1 st ed.; Academic Press, 1998.
3. Lin, C. Y.; Lin, H. A.; Hung, L. B. Fuel structure and properties of biodiesel produced by the peroxidation process Fuel 2006, 85, 1743-1749
4. Yang, Z.; Xie, W. Soybean oil transesterification over zinc oxide modified with alkali earth metals Fuel Proc. Technol. 2007, 88, 631-638
5. Ma, F.; Hanna, M. A. Biodiesel production: A review Bioresour. Technol. 1999, 70, 1-15
6. Zhang, Y.; Dubé, M. A.; McLean, D. D.; Kates, M. Biodiesel production from waste cooking oil: 1. Process design and technological assessment Bioresour. Technol. 2003, 89, 1-16
7. Kulkarni, M. G.; Dalai, A. K. Waste Cooking Oil An Economical Source for Biodiesel: A Review Ind. Eng. Chem. Res. 2006, 45, 2901-2913
8. Canakci, M.; Van Gerpen, J. Biodiesel production via acid catalysis Trans. ASAE 2012, 42, 1203-1210
9. Canakci, M.; Van Gerpen, J. Biodiesel production from oils and fats with high free fatty acids Trans. ASAE 2012, 44, 1429-1436
10. Saka, S.; Kusdiana, D. Biodiesel fuel from rapeseed oil as prepared in supercritical methanol Fuel 2001, 80, 225-231
11. Patil, P. D. Biodiesel Production from Waste Cooking Oil Using Sulfuric Acid and Microwave Irradiation Processes J. Environ. Prot. 2012, 03, 107-113
12. Ahmad, A. L.; Yasin, N. H. M.; Derek, C. J. C.; Lim, J. K. Microalgae as a sustainable energy source for biodiesel production: A review Renew. Sustainable Energy Rev. 2011, 15, 584-593
13. Diyauddeen, B. H.; Abdul Aziz, A. R.; Daud, W. M. A. W.; Chakrabarti, M. H. Performance evaluation of biodiesel from used domestic waste oils: A review Process Safe. Environ. 2012, 90, 164-179
14. Math, M. C.; Kumar, S. P.; Chetty, S. V. Technologies for biodiesel production from used cooking oil-A review Energy Sustainable Dev. 2010, 14, 339-345
15. fcamin.nic.in/Dir-Vanaspati/Edible-Oil.doc.
16. Math, M. C. Performance of a diesel engine with blends of restaurant waste oil methyl ester and diesel fuel Energy Sustainable Dev. 2007, 11, 93-95
17. http://petroleum.nic.in/reports.htm.
18. http://gain.fas.usda.gov/Recent%20GAIN%20Publications/ General%20Report-New%20Delhi-India-6-12-2009.pdf.
19. Leung, D. Y. C.; Guo, Y. Transesterification of neat and used frying oil: Optimization for biodiesel production Fuel Proc. Technol. 2006, 87, 883-890
20. Cvengro, V.; Cvengroova, Z. Used frying oils and fats and their utilization in the production of methyl esters of higher fatty acids Biomass Bioenergy 2004, 27, 173-181
21. Charoenchaitrakool, M.; Thienmethangkoon, J. Statistical optimization for biodiesel production from waste frying oil through two-step catalyzed process Fuel Proc. Technol. 2011, 92, 112-118
22. Issariyakul, T.; Kulkarni, M. G.; Dalai, A. K.; Bakhshi, N. N. Production of biodiesel from waste fryer grease using mixed methanol/ethanol system Fuel Proc. Technol. 2007, 88, 429-436
23. Dias, J. M.; Alvim-Ferraz, M.; Almeida, M. F. Comparison of the performance of different homogeneous alkali catalysts during transesterification of waste and virgin oils and evaluation of biodiesel quality Fuel 2008, 87, 3572-3578
24. Hoffman, G. The Chemistry and Technology of Edible Oils and Fats and Their High Fat Product; Academic Press, 1989.
25. Meher, L. C.; Dharmagadda, V. S. S.; Naik, S. N. Optimization of alkali-catalyzed transesterification of Pongamia pinnata oil for production of biodiesel Bioresour. Technol. 2006, 97, 1392-1397
26. Toeneboehn, G. J.; Welsh, W. A. Adsorptive removal of sulfur compounds from fatty materials. U.S. Patent 5 298638, 1994.
27. Nakazono, Y. Method of Producing Biodiesel Fuel. U.S. Patent 20100132252, 2010.
28. Lee, K. T.; Foglia, T. A.; Chang, K. S. Production of alkyl ester as biodiesel from fractionated lard and restaurant grease J. Am. Oil Chem. Soc. 2002, 79, 191-195
29. Supple, B.; Howard-Hildige, R.; Gonzalez-Gomez, E.; Leahy, J. J. The effect of steam treating waste cooking oil on the yield of methyl ester J. Am. Oil Chem. Soc. 2002, 79, 175-178
30. Darnoko, D.; Cheryan, M. Kinetics of palm oil transesterification in a batch reactor J. Am. Oil Chem. Soc. 2000, 77, 1263-1267
31. Lee, S.; Posarac, D.; Ellis, N. Process simulation and economic analysis of biodiesel production processes using fresh and waste vegetable oil and supercritical methanol Chem. Eng. Res. Des. 2011, 89, 2626-2642
32. Marchetti, J. M.; Miguel, V. U.; Errazu, A. F. Possible methods for biodiesel production Renew. Sust. Energ. Rev. 2007, 11, 1300-1311
33. Enweremadu, C. C.; Mbarawa, M. M. Technical aspects of production and analysis of biodiesel from used cooking oil - A review Renew. Sustainable Energy Rev. 2009, 13, 2205-2224
34. Singh, A. K.; Fernando, S. D. Reaction Kinetics of Soybean Oil Transesterification Using Heterogeneous Metal Oxide Catalysts Chem. Eng. Technol. 2007, 30, 1716-1720
35. Liu, X.; He, H.; Wang, Y.; Zhu, S.; Piao, X. Transesterification of soybean oil to biodiesel using CaO as a solid base catalyst Fuel 2008, 87, 216-221
36. Du, W.; Xu, Y.; Liu, D.; Zeng, J. Comparative study on lipase-catalyzed transformation of soybean oil for biodiesel production with different acyl acceptors J Mol. Catal. B: Enzym. 2004, 30, 125-129
37. Lertsathapornsuk, V.; Pairintra, R.; Aryusuk, K.; Krisnangkura, K. Microwave assisted in continuous biodiesel production from waste frying palm oil and its performance in a 100 kW diesel generator Fuel Proc. Technol. 2008, 89, 1330-1336
38. Gogate, P. R.; Tayal, R. K.; Pandit, A. B. Cavitation: A technology on the horizon Curr. Sci. 2006, 91, 35-46
39. Gole, V. L.; Gogate, P. R. A review on intensification of synthesis of biodiesel from sustainable feed stock using sonochemical reactors Chem. Eng. Process. 2012, 53, 1-9
40. Fukuda, H.; Kondo, A.; Noda, H. Biodiesel fuel production by transesterification of oils J. Biosci. Bioeng. 2001, 92, 405-416
41. Refaat, A. A.; El Sheltawy, S. T. Comparing three options for biodiesel production from waste vegetable oil WIT Press 2008, 133-140
42. Babajide, O.; Petrik, L.; Amigun, B.; Ameer, F. Low-Cost Feedstock Conversion to Biodiesel via Ultrasound Technology Energies 2010, 3, 1691-1703
43. Hingu, S. M.; Gogate, P. R.; Rathod, V. K. Synthesis of biodiesel from waste cooking oil using sonochemical reactors Ultrason. Sonochem. 2010, 17, 827-832
44. Marija, M.; Ivana, L.; Olivera, S.; Vlada, V.; Dejan, S. Heterogeneous base-catalyzed methanolysis of vegetable oils: State of art Hem. Ind. 2010, 64, 63-80
45. Vyas, A. P.; Verma, J. L.; Subrahmanyam, N. A review on FAME production processes Fuel 2010, 89, 1-9
46. Georgogianni, K. G.; Katsoulidis, A. P.; Pomonis, P. J.; Kontominas, M. G. Transesterification of soybean frying oil to biodiesel using heterogeneous catalysts Fuel Proc. Technol. 2009, 90, 671-676
47. Wang, J.-X.; Huang, Q.-D.; Huang, F.-H.; Wang, J.-W.; Huang, Q.-J. Lipase-catalyzed production of biodiesel from high acid value waste oil with ultrasonic assistant Sheng Wu Gong Cheng Xue Bao 2007, 23, 1121-1128
48. Ghayal, D.; Pandit, A. B.; Rathod, V. K. Optimization of biodiesel production in a hydrodynamic cavitation reactor using used frying oil Ultrason. Sonochem. 2013, 20, 322-28
49. Veljković, V. B.; Avramović, J. M.; Stamenković, O. S. Biodiesel production by ultrasound-assisted transesterification: State of the art and the perspectives Renew. Sustainable Energy Rev. 2012, 16, 1193-1209
50. Lidström, P.; Tierney, J.; Wathey, B.; Westman, J. Microwave assisted organic synthesis - a review Tetrahedron 2001, 57, 9225-9283
51. Groisman, Y.; Gedanken, A. Continuous Flow, Circulating Microwave System and Its Application in Nanoparticle Fabrication and Biodiesel Synthesis J. Phys. Chem. C 2008, 112, 8802-8808
52. Mutyala, S.; Fairbridge, C.; Paré, J. R. J.; Bélanger, J. M. R.; Ng, S.; Hawkins, R. Microwave applications to oil sands and petroleum: A review Fuel Proc. Technol. 2010, 91, 127-135
53. Marra, F.; De Bonis, M. V.; Ruocco, G. Combined microwaves and convection heating: A conjugate approach J. Food Eng. 2010, 97, 31-39
54. Barnard, T. M.; Leadbeater, N. E.; Boucher, M. B.; Stencel, L. M.; Wilhite, B. A. Continuous-Flow Preparation of Biodiesel Using Microwave Heating Energy Fuels 2007, 21, 1777-1781
55. Yaakob, Z.; Ong, B. H.; Satheesh Kumar, M. N.; Kamarudin, S. K. Microwave-assisted transesterification of jatropha and waste frying palm oil Int. J. Sustainable Energy 2009, 28, 195-201
56. Suppalakpanya, K.; Ratanawilai, S.; Tongurai, C. Production of ethyl ester from esterified crude palm oil by microwave with dry washing by bleaching earth Appl. Energy 2010, 87, 2356-2359
57. Koberg, M.; Abu-Much, R.; Gedanken, A. Optimization of bio-diesel production from soybean and wastes of cooked oil: Combining dielectric microwave irradiation and a SrO catalyst Bioresour. Technol. 2011, 102, 1073-1078
58. Refaat, A.; El Sheltawy, S.; Sadek, K. Optimum reaction time, performance and exhaust emissions of biodiesel produced by microwave irradiation Int. J. Environ. Sci. Technol. 2008, 5, 315-322
59. Chen, K.-S.; Lin, Y.-C.; Hsu, K.-H.; Wang, H.-K. Improving biodiesel yields from waste cooking oil by using sodium methoxide and a microwave heating system Energy 2012, 38, 151-156
60. Stephens, G.; Mackley, M. R. Heat transfer performance for batch oscillatory flow mixing Exp. Therm. Fluid Sci. 2002, 25, 583-594
61. Mackley, M. R.; Stonestreet, P.; Thurston, N. C.; Wiseman, J. S. Evaluation of a novel self-aerating, oscillating baffle column Can. J. Chem. Eng. 1998, 76, 5-10
62. Mackley, M. R.; Stonestreet, P.; Roberts, E.; Ni, X.-W. Residence time distribution enhancement in reactors using oscillatory flow Chem. Eng. Res. Des. 1996, 74, 541-545
63. Ni, X.-W.; Mackley, M. R.; Harvey, A. P.; Stonestreet, P.; Baird, M. H. I.; Rama Rao, N. V. Mixing Through Oscillations and Pulsations - A Guide to Achieving Process Enhancements in the Chemical and Process Industries Chem. Eng. Res. Des. 2003, 81, 373-383
64. Skelton, B.; Bustnes, T. E.; Mackley, M. R. Development of the oscillatory flow based process for the production of biodiesel transport fuel. In 7th World Congress of Chemical Engineering; Glasgow, UK, 2005; 14.
65. Harvey, A. P.; Mackley, M. R.; Seliger, T. Process intensification of biodiesel production using a continuous oscillatory flow reactor J. Chem. Technol. Biotechnol. 2003, 78, 338-341
66. Pohar, A.; Plazl, I. Process intensification through microreactor application Chem. Biochem. Eng. Q. 2009, 23, 537-544
67. Ehrfeld, W.; Hessel, V.; Lowe, H. Microreactors: New Technology for Modern Chemistry, 1 st ed.; Wiley-VCH, 2000.
68. Kobayashi, J.; Mori, Y.; Kobayashi, S. Multiphase Organic Synthesis in Microchannel Reactors Chem. Asian J. 2006, 1, 22-35
69. Jovanovic, G. N.; Paul, B. K.; Parker, J.; Al-Dhubabian, A. Microreactor Process for Making Biodiesel. U.S. Patent 8137554, 2012.
70. Sun, J.; Ju, J.; Ji, L.; Zhang, L.; Xu, N. Synthesis of biodiesel in capillary microreactors Ind. Eng. Chem. Res. 2008, 47, 1398-1403
71. Guari, G.; Kusakabe, K.; Moriyama, K.; Sakurai, N. Continuous production of biodiesel using a microtube reactor Chem. Eng. 2008, 14, 237
72. Wen, Z.; Yu, X.; Tu, S. T.; Yan, J.; Dahlquist, E. Intensification of biodiesel synthesis using zigzag micro-channel reactors Bioresour. Technol. 2009, 100, 3054-3060
73. Sun, P.; Sun, J.; Yao, J.; Zhang, L.; Xu, N. Continuous production of biodiesel from high acid value oils in microstructured reactor by acid-catalyzed reactions Chem. Eng. J. 2010, 162, 364-370
74. Demirbas, A. Progress and recent trends in biodiesel fuels Energy Convers. Manage. 2009, 50, 14-34
75. Muppaneni, T.; Reddy, H. K.; Patil, P. D.; Dailey, P.; Aday, C.; Deng, S. Ethanolysis of camelina oil under supercritical condition with hexane as a co-solvent Appl. Energy 2012, 94, 84-88
76. Jiang, J.-J.; Tan, C.-S. Biodiesel production from coconut oil in supercritical methanol in the presence of cosolvent J. Taiwan Inst. Chem. Eng. 2012, 43, 102-107
77. Peña, R.; Romero, R.; Martínez, S. L.; Ramos, M. J.; Martínez, A.; Natividad, R. Transesterification of Castor Oil: Effect of Catalyst and Co-Solvent Ind. Eng. Chem. Res. 2008, 48, 1186-1189
78. Park, J.-Y.; Kim, D.-K.; Wang, Z.-M.; Lee, J.-S. Fast biodiesel production with one-phase reaction Appl. Biochem. Biotechnol. 2009, 154, 67-73
79. Trentin, C. M.; Lima, A. P.; Alkimim, I. P.; de Silva, C.; de Castilhos, F.; Mazutti, M. A. Continuous catalyst-free production of fatty acid ethyl esters from soybean oil in microtube reactor using supercritical carbon dioxide as co-solvent J. Supercrit. Fluids 2011, 56, 283-291
80. Li, Q.; Zheng, J.; Yan, Y. Biodiesel preparation catalyzed by compound-lipase in co-solvent Fuel Proc. Technol. 2010, 91, 1229-1234
81. Lam, M. K. Accelerating transesterification reaction with biodiesel as co-solvent: A case study for solid acid sulfated tin oxide catalyst Fuel 2010, 89, 3866-3870
82. Guan, G.; Kusakabe, K.; Yamasaki, S. Tri-potassium phosphate as a solid catalyst for biodiesel production from waste cooking oil Fuel Proc. Technol. 2009, 90, 520-524
83. Sabudak, T.; Yildiz, M. Biodiesel production from waste frying oils and its quality control Waste Manage. 2010, 30, 799-803
84. Warabi, Y.; Kusdiana, D.; Saka, S. Reactivity of triglycerides and fatty acids of rapeseed oil in supercritical alcohols Bioresour. Technol. 2004, 91, 283-287
85. Tan, K. T.; Lee, K. T.; Mohamed, A. R. Effects of free fatty acids, water content and co-solvent on biodiesel production by supercritical methanol reaction J. Supercrit. Fluids 2010, 53, 88-91
86. Tan, K. T.; Lee, K. T.; Mohamed, A. R. Potential of waste palm cooking oil for catalyst-free biodiesel production Energy 2011, 36, 2085-2088
87. Demirbas, A. Biodiesel from waste cooking oil via base-catalytic and supercritical methanol transesterification Energy Convers. Manage. 2009, 50, 923-927
88. Patil, P.; Deng, S.; Rhodes, J. I.; Lammers, P. J. Conversion of waste cooking oil to biodiesel using ferric sulfate and supercritical methanol processes Fuel 2010, 89, 360-364
89. Kasteren, J. M. N.; Nisworo, A. P. A process model to estimate the cost of industrial scale biodiesel production from waste cooking oil by supercritical transesterification Resour., Conserv. Recycl. 2007, 50, 442-458
90. Campanelli, P.; Banchero, M.; Manna, L. Synthesis of biodiesel from edible, non-edible and waste cooking oils via supercritical methyl acetate transesterification Fuel 2010, 89, 3675-3682
91. Anitescu, G.; Bruno, T. J. Biodiesel Fuels from Supercritical Fluid Processing: Quality Evaluation with the Advanced Distillation Curve Method and Cetane Numbers Energy Fuels 2012, 26, 5256-5264
92. Kelkar, M. A.; Gogate, P. R.; Pandit, A. B. Intensification of esterification of acids for synthesis of biodiesel using acoustic and hydrodynamic cavitation Ultrason. Sonochem. 2008, 15, 188-194
93. Gogate, P. R.; Pandit, A. B. A review and assessment of hydrodynamic cavitation as a technology for the future Ultrason. Sonochem. 2005, 12, 21-27
94. Hsiao, M.-C.; Lin, C.-C.; Chang, Y.-H.; Chen, L.-C. Ultrasonic mixing and closed microwave irradiation-assisted transesterification of soybean oil Fuel 2010, 89, 3618-3622
95. Georgogianni, K. G.; Kontominas, M. G.; Tegou, E.; Avlonitis, D.; Gergis, V. Biodiesel Production: Reaction and Process Parameters of Alkali-Catalyzed Transesterification of Waste Frying Oils Energy Fuels 2007, 21, 3023-3027