JOURNAL OF CHILEAN CHEMICAL SOCIETY

Vol 67 No 1 (2022): Journal of the Chilean Chemical Society
Reviews

A REVIEW OF BIODIESEL PRODUCTION FROM NON-EDIBLE RAW MATERIALS USING THE TRANSESTERIFICATION PROCESS WITH A FOCUS ON INFLUENCE OF FEEDSTOCK COMPOSITION AND FREE FATTY ACIDS

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  • Renata N. Vilas Bôas,
  • Marisa Mendes
Renata N. Vilas Bôas
Universidade Federal Rural do Rio de Janeiro
Published March 14, 2022
Keywords
  • Alternative feedstocks,
  • Biodiesel,
  • Fatty acid FAME,
  • Transesterification
How to Cite
Vilas Bôas, R. N., & Mendes, M. (2022). A REVIEW OF BIODIESEL PRODUCTION FROM NON-EDIBLE RAW MATERIALS USING THE TRANSESTERIFICATION PROCESS WITH A FOCUS ON INFLUENCE OF FEEDSTOCK COMPOSITION AND FREE FATTY ACIDS. Journal of the Chilean Chemical Society, 67(1), 5433-5444. Retrieved from https://www.jcchems.com/index.php/JCCHEMS/article/view/1956

Copyright (c) 2022 SChQ

Creative Commons License

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Abstract

The main resources needed for an alternative fuel are availability and renewability, that is, less dependence on restricted raw materials accompanied by no or less pollution. Due to being eco-friendly and non-toxic to nature, biodiesel is attracting more and more interest. Biodiesel has many important technical advantages compared to petroleum diesel, such as inherent lubricity, low toxicity, derivation of renewable and domestic raw materials, biodegradability, insignificant sulfur content, and lower exhaust emissions. However, they have some important disadvantages that include the high cost of the raw material, lower storage and oxidative stability, lower volumetric energy content, lower low-temperature operability, and in some cases, higher NOx exhaust emissions. One of the major challenge obstacles is the high cost of refined vegetable oil as raw material, which consists of almost 70% of the total production costs. Therefore, in order to reduce the cost of biodiesel, non-edible sources such as residual cooking oil (WCO), algae oil, non-edible vegetable oil, and residual fats are commonly used for the production of biodiesel due to its low cost and don't affect the food chain. The most common method used in the production of biodiesel is the transesterification of vegetable oils and animal fats. Production and process are influenced by several factors, such as temperature and reaction time, the molar ratio of alcohol to oil, and type and concentration of catalyst. Therefore, this review focuses on the recent discovery of the transesterification of inedible sources for biodiesel, the influence of the composition of the raw material on the quality of biodiesel, and the possible solutions to its disadvantages for the production of biodiesel.

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References

  1. I. Ambat, V. Srivastava, M. Sillanpää, Renew Sustain Energy Rev. 90, 356-369, (2018).
  2. B. R. Moser Biodiesel production, properties, and feedstocks. In: Biofuels. Springer, New York, 2011.
  3. M. Rehan, J. Gardy, A. Demirbas, U. Rashid, W. M. Budzianowski, D. Pant, Bioresour. Technol. 250, 17–25, (2018).
  4. S. Rezania, B. Oryani, J. Park, B. Hashemi, K. K. Yadav, E. E. Kwon, J. Hur, J. Cho, Energy Convers Manag. 201, 112155, (2019).
  5. I. S. A. Manaf, N. H. Embong, S. N. M. Khazaai, M. H. A. Rahim, M. M. Yusoff, K. T. Lee, Energy Convers Manag. 185, 508–17, (2019).
  6. M. R. Monteiro, C. L. Kugelmeier, R. S. Pinheiro, M. O. Batalha, A. Da Silva, A. César, Renew Sustain. Energy Ver. 88, 109-122, (2018).
  7. A. Demirbas, Energy Convers Manag. 4(15-16), 2271-2282, (2006).
  8. K. T. Tan, K. T. Lee, A. R. Mohamed, J. Supercrit. Fluids 53(1-3), 88-91, (2010).
  9. V. K. Mishra, R. Goswami, Biofuels 9(2), 273-289, (2017).
  10. X. Meng, G. Chen, Y. Wang, Fuel Process Technol. 89(9), 851-857, (2008).
  11. C. Dalla Rosa, M. B. Morandim, J. L. Ninow, D. Oliveira, H. Treichel, J. V. Oliveira, J. Supercrit. Fluids 47(1), 49-53, (2008).
  12. N. Mansir, Y. H. Taufiq-Yap, U. Rashid, I. M. Lokman, Energy Convers. Manag. 141, 171-182, (2017).
  13. A. H. West, D. Posarac, N. Ellis, Plant. Bioresour. Technol. 99(14), 6587-6601, (2008).
  14. D. Singh, D. Sharma, S. L. Soni, S. Sharma, P. K. Sharma, A. Jhalani, Fuel 262, 116553, (2020).
  15. P. Verma, M. P. Sharma, Renew Sustain. Energy Rev. 62, 1063-1071, (2016).
  16. N. Kumar, K. V. Anand, M. P. Reddy, Acta Physiol. Plant. 32(5), 917-924, (2010).
  17. R. Anr, A. A. Saleh, M. S. Islam, S. Hamdan, M. A. Maleque, Energy Fuels 30(1), 334-343, (2016).
  18. M. R. Uddin, K. Ferdous, S. K. Mondal, M. R. Khan, M. A. Islam, Oil. Chem. Eng. J. 29(1), 24-28, (2017).
  19. B. Gurunathan, A. Ravi, Bioresour. Technol. 190, 424-428, (2015).
  20. A. Demirbas, Biomass Bioenergy. 33(1), 113-118, (2009).
  21. A. Arumugam, D. Thulasidharan, G. B. Jegadeesan, Renew Energy 116, 755-761, (2018).
  22. M. Mourshed, S. K. Ghosh, M. W. Islam, Int. J. Ambient. Energy 1-11, (2020).
  23. G. Sarojini, P. Kannan, G. Pravin, J. Environ. Biol. 40(4), 802-806, (2019).
  24. K. S. Moreira, L. S. Moura Júnior, R. R. Monteiro, A. L. De Oliveira, C. P. Valle, T. M. Freire, J. Dos Santos, Catalysts 10(4), 414, (2020).
  25. F. Halek, A. Delavari, A. Kavousi-rahim, Clean Technol. Environ. Policy, 15(6), 1063-1068, (2013).
  26. R. Yahyaee, B. Ghobadian, G. Najafi, Renew. Sust. Energ. Rev. 17, 312-319, (2013).
  27. X. Yin, X. Duan, Q. You, C. Dai, Z. Tan, X. Zhu, Energy Convers. Manag. 112, 199-207, (2016).
  28. F. Toldrá-Reig, L. Mora, F. Toldrá, Appl. Sci. 10(10), 3644, (2020).
  29. J. Abraham, R. S. Kumar, F. Xavier, D. Mathew, Int. Agric. Eng. J. 9(12), 1190-1193, (2015).
  30. D. Papargyriou, E. Broumidis, M. De Vere-Tucker, S. Gavrielides, P. Hilditch, J. T. Irvine, A. D. Bonaccorso, Renew. Energy 139, 661-669, (2019).
  31. I. Lawan, Z. N. Garba, W. Zhou, M. Zhang, Z. Yuan, Renew. Energy 145, 2550-2560, (2020).
  32. R. C. Rodrigues, G. Volpato, M. A. Z. Ayub, K. Wada, J. Chem. Technol. Biotechnol. 83(6), 849-854, (2008).
  33. B. Norjannah, H. C. Ong, H. H. Masjuki, J. C. Juan, W. T. Chong, RSC Adv. 6(65), 60034-60055, (2016).
  34. G. Knothe, Fuel Process. Technol. 86(10), 1059-1070, (2005).
  35. M. Takase, T. Zhao, M. Zhang, Y. Chen, H. Liu, L. Yang, X. Wu, Renew. Sustain. Energy Rev. 43, 495-520, (2015).
  36. M. Anwar, M. G. Rasul, N. Ashwath, M. N. Nabi, Energy Rep. 5, 280-297, (2019).
  37. V. B. Veljković, M. O. Biberdžić, I. B. Banković-Ilić, I. G. Djalović, M. B. Tasić, Z. B. Nježić, O. S. Stamenković, Renew. Sustain. Energy Rev. 91, 531-548, (2018).
  38. H. C. Ong, A. Silitonga, H. Masjuki, T. Mahlia, W. Chong, M. Boosroh, Energy Convers. Manag. 73, 245–255, (2013).
  39. O. Kibazohi, R. S. Sangwan, Biomass Bioenerg. 35, 1352–1356, (2011).
  40. W. M. J. Achten, L. Verchot, Y. J. Franken, E. Mathijs, V. P. Singh, R. Aerts, Biomass Bioenerg. 32, 1063–1084, (2008).
  41. K. Openshaw, Biomass Bioenerg. 19, 1–15, (2000).
  42. D. Singh, D. Sharma, S. L. Soni, S. Sharma, D. Kumari, Fuel 253, 60–71, (2019).
  43. I. Reksowardojo, I. Lubis, W. Manggala, T. Brodjonegoro, T. Soerawidjaja, W. Arismunandar, Training 2007, 11–19, (2013).
  44. S. Thapa, N. Indrawan, P. R. Bhoi, Environ. Technol. Innov. 9, 210-219, (2018).
  45. M. A. Kalam, J. U. Ahamed, H. H. Masjuki, Renew. Sustain. Energy Rev. 16(6), 3999-4007, (2012).
  46. M. J. Salar-García, V. M. Ortiz-Martínez, P. Olivares-Carrillo, J. Quesada-Medina, A. P. De Los Ríos, F. J. Hernández-Fernández, J. Supercrit. Fluids 112, 1-6, (2016).
  47. S. K. Karmee, A. Chadha, Bioresour. Technol. 96, 1425–1429, (2005).
  48. S. Bajpai, P. K. Sahoo, L. M. Das, Fuel 88, 705–711, (2009).
  49. R. L. Patel, C. D. Sankhavara, Renew. Sustain. Energy Rev. 71, 464-474, (2017).
  50. M. I. Al-Widyan, M. Al-Muhtaseb, Energy Convers. Manag. 51, 1702–1707, (2010).
  51. M. H. Ali, M. Mashud, M. R. Rubel, R. H. Ahmad, Proc. Eng. 2056, 625–30, (2013).
  52. F. Ullah, A. Bano, S. Ali, Pol. J. Chem. Technol. 15(1), 74-77, (2013).
  53. S. Dixit, A. Rehman, Renew. Sustain. Energy Rev. 16, 4415–4421, (2012).
  54. O. E. Ikwuagwu, I. C. Ononogbu, O. U. Njoku, Ind. Crops. Prod. 12(1), 57-62, (2000).
  55. J. Ahmad, S. Yusup, A. Bokhari, R. N. M. Kamil, Energy Convers. Manag. 78, 266–275, (2014).
  56. N. Usta, B. Aydoğan, A. Con, E. Uğuzdoğan, S. Ozkal, Energy Convers. Manag. 52, 2031–2039, (2011).
  57. W. N. Ghazali, R. Mamat, H. H. Masjuki, G. Naja, Renew. Sustain. Energy Rev. 51, 585–602, (2015).
  58. D. Ertugrul, K. Filiz, Energ. Source 26(7), 611-625, (2004).
  59. E. I. Bello, A. A. Aladesuru, Sci. Agric. 11(1), 1-7, (2015).
  60. C. Ilkilic, H. Yucesu, Energy Sour. 30, 742–53, (2008).
  61. M. Y. E. Selim, M. S. Radwan, S. M. S. Elfeky, Renew. Energy 28, 1401–1420, (2003).
  62. A. Kumar, S. Sharma, Renew. Sustain. Energy Rev. 15, 1791–1800, (2011).
  63. L. Canoira, R. Alcantara, M. J. García-Martínez, J. Carrasco, Biomass Bioenergy 30(1), 76-81, (2006).
  64. M. G. S. Da Silva, K. J. N. Ferreira, M. M. Teixeira, F. C. Silva, A. P. Maciel, Rev. Univ. Vale Rio Verde 12(2), 434-443, (2014).
  65. J. S. Oliveira, R. Montalvao, L. Daher, P. A. Suarez, J. C. Rubim, Talanta 69(5), 1278-1284, (2006).
  66. A. E. Atabani, A. S. Silitonga, I. A. Badruddin, T. M. I. Mahlia, H. H. Masjuki, S. Mekhilef, Renew. Sustain. Energy Rev. 16(4), 2070-2093, (2012).
  67. I. B. Banković-Ilić, O. S. Stamenković, V. B. Veljković, Renew. Sustain. Energy Rev. 16(6), 3621-3647, (2012).
  68. G. Knothe, S. C. Cermak, R. L. Evangelista, Fuel 96, 535-540, (2012).
  69. S. T. Keera, S. M. El Sabagh, A. R. Taman, Egypt. J. Pet. 27(4), 979-984, (2018).
  70. D. Da Costa Barbosa, T. M. Serra, S. M. P. Meneghetti, M. R. Meneghetti, Fuel 89(12), 3791-3794, (2010).
  71. A. Talebian-Kiakalaieh, N. A. S. Amin, H. Mazaheri, Appl. Energy 104, 683–710, (2013).
  72. E. F. Mora, C. Torres, A. Valero, Sustainability 7(5), 6321-6335, (2015).
  73. S. E. Mahesh, A. Ramanathan, K. M. M. S. Begum, A. Narayanan, Energy Convers. Manag. 91, 442–450, (2015).
  74. H. Hamze, M. Akia, F. Yazdani, Process. Saf. Environ. Prot. 94, 1–10, (2015).
  75. A. R. S. Teixeira, J. L. C. Santos, J. G. Crespo, Ind. Eng. Chem. Res. 50, 2865-2875, (2011).
  76. R. Piloto-Rodríguez, E. A. Melo, L. Goyos-Pérez, S. Verhelst, Braz. J. Chem. Eng. 31(2), 287-301, (2014).
  77. R. N. Vilas‑Bôas, L. L. Da Silva, L. D. Fernandes, B. L. Augusto, M. F. Mendes, Catal. Lett. 150, 3642–3652, (2020).
  78. V. M. Sousa, S. M. Luz, A. Caldeira-Pires, F. S. Machado, C. M. Silveira, Int. J. Life Cycle Assess. 22(11), 1837-1850, (2017).
  79. J. Chavarria‐Hernandez, L. Ordóñez, L. F. Barahona‐Pérez, M. Castro‐Gomez, S. Paredes‐Cervantes, J. Chem. Technol. Biotechnol. 92(5), 899-905, (2017).
  80. S. M. S. Ardebili, A. Khademalrasoul, J. Clean. Prod. 204, 819-831, (2018).
  81. A. Sander, M. A. Košćak, D. Kosir, N. Milosavljević, J. P. Vuković, L. Magić, Renew. Energy 118, 752-760, (2018).
  82. D. Bolonio, P. Marco Neu, S. Schober, M. J. García-Martínez, M. Mittelbach, L. Canoira, Energy Fuels 32(1), 490-496, (2018).
  83. P. Suwannapa, N. Tippayawong, Chem. Eng. Commun. 204(5), 618-624, (2017).
  84. V. Punsuvon, R. Nokkaew, P. Somkliang, M. Tapanwong, S. Karnasuta, Energ. Source 37(8), 846-853, (2015).
  85. M. Gürü, A. Koca, O. Can, C. Çınar, F. Sahin, Renew. Energy 35, 637–643, (2010).
  86. F. Shafiq, M. W. Mumtaz, H. Mukhtar, T. Touqeer, S. A. Raza, U. Rashid, T. S. Y. Choong, Catalysts 10(6), 633, (2020).
  87. S. Gugule, F. Fatimah, Y. Rampoh, Anim. Prod. 13, 115–121, (2011).
  88. A. S. Rad, M. H. Nia, F. Ardestani, H. Nayebzadeh, Waste Biomass Valorization 9(4), 591-599, (2018).
  89. M. Abid, A. Touzani, R. Benhima, Int. J. Sustain. Eng. 12(4), 272-280, (2019).
  90. D. Castañeda, J. M. Lozano, H. Suárez, Agron. Colomb. 34(3), 403-414, (2016).
  91. FAO, Food and Agriculture Organization. Available: http://www.fao.org. Acess in: January of 2018.
  92. J. Ching-Velasquez, R. Fernández-Lafuente, R. C. Rodrigues, V. Plata, A. Rosales-Quintero, B. Torrestiana-Sánchez, V. G. Tacias-Pascacio, Renew. Energy 153, 1346-1354, (2020).
  93. A. Wisniewski Jr, V. R. Wiggers, E. L. Simionatto, H. F. Meier, A. A. C. Barros, L. A. S. Madureira, Fuel 89(3), 563-568, (2010).
  94. A. B. Fadhil, L. H. Ali, Renew. Energy 60, 481-488, (2013).
  95. A. B. Fadhil, E. T. Al-Tikrity, M. A. Albadree, Fuel 210, 721-728, (2017).
  96. GMRDF Greek Ministry of Rural Development and Food. Statistics of agricultural policy, in Greece, 2014
  97. I. Sarantopoulos, E. Chatzisymeon, S. Foteinis, T. Tsoutsos, Energy Sustain. Dev. 23, 110-114, (2014).
  98. Y. Zhao, J. Wang, H. Zhang, C. Yan, Y. Zhang, Bioresour. Technol. 136, 461–468, (2013).
  99. E. S. Salama, M. B. Kurade, R. A. I. Abou-Shanab, M. M. El-Dalatony, I. S. Yang, B. Min, Renew. Sustain. Energy Rev. 79, 1189–1211, (2017).
  100. S. Dickinson, M. Mientus, D. Frey, A. Amini-Hajibashi, S. Ozturk, F. Shaikh, Clean. Technol. Environ. Policy 19, 637–668, (2017).
  101. H. M. Amaro, A. C. Guedes, F. X. Malcata, Appl. Energy 88, 3402–3410, (2011).
  102. G. Huang, F. Chen, D. Wei, X. Zhang, G. Chen, Appl. Energy 87, 38–46, (2010).
  103. M. Faried, M. Samer, E. Abdelsalam, R. S. Yousef, Y. A. Attia, A. S. Ali, Renew. Sustain. Energy Rev. 79, 893–913, (2017).
  104. T. Suganya, M. Varman, H. H. Masjuki, S. Renganathan, Renew. Sustain. Energy Rev. 55, 909–941, (2016).
  105. H. B. Bucy, M. E. Baumgardner, A. J. Marchese, Algal. Res. 1,57–69, (2012).
  106. A. Steriti, R. Rossi, A. Concas, G. Cao, Bioresour. Technol. 164, 70–77, (2014).
  107. M. L. Menegazzo, G. G. Fonseca, Renew. Sustain. Energy Rev. 107, 87–107, (2019).
  108. S. Wang, J. Zhu, L. Dai, X. Zhao, D. Liu, W. Du, Energy 115, 963–968, (2016).
  109. V. K. Mishra, R. Goswami, Biofuels, 9(2), 273-289, (2018).
  110. G. Baskar, R. Aiswarya, Renew. Sustain. Energy Rev. 57, 496-504, (2016).
  111. J. C. Juan, D. A. Kartika, T. Y. Wu, T. Y. Y. Hin, Bioresour. Technol. 102(2), 452-460, (2011).
  112. L. Lin, Z. Cunshan, S. Vittayapadung, S. Xiangqian, D. Mingdong, Appl. Energy 88(4), 1020-1031, (2011).
  113. P. Verma, M. P. Sharma, Renew. Sust. Energ. Rev. 62, 1063-1071, (2016).
  114. A. Abbaszaadeh, B. Ghobadian, M. R. Omidkhah, G. Najafi, Energy Convers. Manag. 63, 138-148, (2012).
  115. S. P. Singh, D. Singh, Renew. Sust. Energ. Rev. 14(1), 200-216, (2010).
  116. Y. C. Sharma, B. Singh, S. N. Upadhyay, Fuel 87(12), 2355–2373, (2008).
  117. F. Motasemi, M. T. Afzal, Renew. Sustain. Energy Rev. 28, 317-330, (2013).
  118. J. C. Ge, S. K. Yoon, N. J. Choi, Appl. Sci. 7(9), 881, (2017).
  119. F. Moazeni, Y. C. Chen, G. Zhang, J. Clean. Prod. 216, 117-128, (2019).
  120. L. R. Cavonius, N. G. Carlsson, I. Undeland, Anal Bioanal. Chem. 406(28), 7313e7322, (2014).
  121. K. Y. Wong, N. Jo-Han, C. T. Chong, S. S. Lam, W. T. Chong, Renew. Sustain. Energy Rev. 116, 109399, (2019).
  122. M. Aghbashlo, M. Tabatabaei, H. Rastegari, H. S. Ghaziaskar, J. Clean. Prod. 183, 1265-1275, (2018).
  123. B. Kayode, A. Hart, Biofuels 1e19, (2017).
  124. A. Tiwari, V. M. Rajesh, S. Yadav, Energy Sustain. Dev. 43, 143-161, (2018).
  125. J. Sun, J. Ju, L. Ji, L. Zhang, N. Xu, Ind. Eng. Chem. Res. 47, 1398–1403, (2008).
  126. B. Aghel, M. Rahimi, A. Sepahvand, M. Alitabar, H. R. Ghasempour, Energy Convers. Manag. 84, 541–549, (2014).
  127. R. Jachuck, G. Pherwani, S. M. Gorton, J. Environ. Monit. 11, 642–647, (2009).
  128. E. Lotero, Y. Liu, D. E. Lopez, K. Suwannakarn, D. A. Bruce, J. G. Goodwin, Ind. Eng. Chem. Res., 44(14), 5353-5363, (2005).
  129. P. K. Sahoo, L. M. Das, M. K. G. Babu, S. N. Naik, Fuel 86(3), 448-454, (2007).
  130. A. M. Ruhul, M. A. Kalam, H. H. Masjuki, I. R. Fattah, S. S. Reham, M. M. Rashed, RSC Adv. 5(122), 101023-101044, (2015).
  131. H. Chen, B. Peng, D. Wang, J. Wang, Front. Chem. Eng. China 1, 11–15, (2007).
  132. F. Jamil, L. Al-Haj, H. Ala’a, M. A. Al-Hinai, M. Baawain, U. Rashid, M. N. Ahmad, Rev. Chem. Eng. 34(2), 267-297, (2018).
  133. H. Amani, Z. Ahmad, B. H. Hameed, Appl. Catal. A: Gen. 487, 16–25, (2014).
  134. A. Madhawan, A. Arora, J. Das, A. Kuila, V. Sharma, Biomass Convers. Biorefin. 8(2), 485-496, (2018).
  135. L. P. Christopher, H. Kumar, V. P. Zambare, Appl. Energy 119, 497-520, (2014).
  136. J. Lu, L. Deng, R. Zhao, R. Zhang, F. Wang, T. Tan, J. Mol. Catal. B Enzym. 62(1), 15-18, (2010).
  137. A. Madhawan, A. Arora, J. Das, A. Kuila, V. Sharma, Biomass Convers. Biorefinery 8(2), 485-496, (2018).
  138. K. T. Tan, K. T. Lee, A. R. Mohamed, Biomass Bioenergy 33(8), 1096-1099, (2009).
  139. A. N. Phan, T. M. Phan, Fuel 87, 3490–3496, (2008).
  140. M. A. Hanif, S. Nisar, M. N. Akhtar, N. Nisar, N. Rashid, Int. J. Energy Res. 42(6), 2070-2083, (2018).
  141. L. C. Meher, V. S. Dharmagadda, S. N. Naik, Bioresour. Technol. 97(12), 1392-1397, (2006).
  142. L. C. Meher, S. N. Naik, L. M. Das, CSIR 913-918, (2004).
  143. M. A. Hanif, S. Nisar, M. N. Akhtar, N. Nisar, N. Rashid, Int. J. Energy Res. 42(6), 2070-2083, (2018).
  144. M. Kirubakaran, V. A. M. Selvan, Renew. Sustain. Energy Rev. 82, 390-401, (2018).
  145. D. Y. C. Leung, Y. Guo, Fuel Process Technol. 87(10), 883-890, (2006).
  146. D. Y. Leung, X. Wu, M. K. H. Leung, Appl. Energy 87(4), 1083-1095, (2010).
  147. A. Gnanaprakasam, V. M. Sivakumar, A. Surendhar, M. Thirumarimurugan, T. Kannadasan, Energy J. 2013, 1-10, (2013).
  148. M. Canakci, J. Van Gerpen, Trans. ASAE 46, 945–954, (2003).
  149. S. T. Jiang, F. J. Zhang, L. J. Pan, Braz. J. Chem. Eng. 27(1), 137-144, (2010).
  150. N. A. Adeyemi, A. Mohiuddin, T. Jameel, Afr. J. Biotechnol. 10(44), 8914–8929, (2011).
  151. A. Kumari, P. Mahapatra, V. K. Garlapati, R. Banerjee, Biotechnol. Biofuels 2(1), 1-7, (2009).
  152. A. L. De Lima, C. M. Ronconi, C. J. Mota, Catal. Sci. Technol. 6(9), 2877-2891, (2016).
  153. L. Coniglio, J. A. Coutinho, J. Y. Clavier, F. Jolibert, J. Jose, I. Mokbel, V. Tschamber, Prog. Energy Combust. Sci. 43, 1-35, (2014).
  154. A. Datta, B. K. Mandal, Renew. Sust. Energ. Rev. 57, 799-821, (2016).
  155. F. Jamil, H. Ala’a, L. Al-Haj, M. A. Al-Hinai, P. Hellier, U. Rashid, Energy Convers. Manag. 117, 264-272, (2016).
  156. A. E. Atabani, A. S. Silitonga, I. A. Badruddin, T. M. I. Mahlia, H. Masjuki, S. Mekhilef, Renew. Sust. Energ. Rev. 16(4), 2070-2093, (2012).
  157. I. M. Atadashi, M. K. Aroua, A. A. Abdul, Renew. Sust. Energ. Rev. 14(7):1999–2008, (2010).
  158. M. Balat, Energy Convers. Manag. 52(2), 1479–1492, (2011).
  159. M. Lapuerta, O. Armas, J. Rodrıguez-Fernandez, Prog. Energ. Combust. Sci. 34(2), 198–223, (2008).
  160. N. N. A. N. Yusuf, S. K. Kamarudin, Z. Yaakub, Energ. Convers. Manag. 52(7), 2741–2751, (2011).
  161. M. Mofijur, H. H. Masjuki, M. A. Kalam, A. E. Atabani, Energy 55, 879-887, (2013).
  162. M. M. Yasin, T. Yusaf, R. Mamat, A. F. Yusop, Appl. Energy 114, 865-873, (2014).
  163. K. T. Tan, M. M. Gui, K. T. Lee, A. R. Mohamed, J. Supercrit. Fluids 53(1-3), 82-87, (2010).
  164. M. Canakci, J. Van Gerpen, Trans. ASAE 42, 1203–1210, (1999).
  165. M. Naik, L. C. Meher, S. N. Naik, L. M. Das, Biomass Bioenerg 32, 354–357, (2008).
  166. U. Rashid, F. Anwar, Fuel 87, 265–273, (2008).
  167. M. Zappi, R. Hernandez, D. Sparks, J. Horne, M. Brough, S. M. Arora, W. D. Motsenbocker A review of the engineering aspects of the biodiesel industry. Mississippi Biomass Council, M. S. Jackson, 2003.
  168. A. Demirbas, Energy Policy 35, 4661–4670, (2007).
  169. M. Canakci, A. N. Ozsezen, E. Arcaklioglu, A. Erdil, Expert. Syst. Appl. 36, 9268–9280, (2009).
  170. A. Demirbas, Energy Educ. Sci. Technol. 21, 1–59, (2008).
  171. C. Carraretto, A. Macor, A. Mirandola, A. Stoppato, S. Tonon, Energy 29, 2195–2211, (2004).
  172. S. D. Romano, P. A. Sorichetti Introduction to biodiesel production. In Dielectric Spectroscopy in Biodiesel Production and Characterization, Springer, London, 2010, pp. 7-27.
  173. ASTM Standard specification for biodiesel fuel (B100) blend stock for distillate fuels. In: Annual Book of ASTM Standards, ASTM International, West Conshohocken, Method D6751-08, 2008
  174. P. T. Scott, L. Pregelj, N. Chen, J. S. Hadler, M. A. Djordjevic, P. M. Gresshoff, Bioenergy Res. 1, 2–11, (2008).
  175. R. Shan, L. Lu, Y. Shi, H. Yuan, J. Shi, Energy Convers. Manag. 178, 277-289, (2018).
  176. L. Wang, J. Yang, Fuel 86(3), 328-333, (2007).
  177. S. Al‐Zuhair, Biofuels 1(1), 57-66, (2007).
  178. H. W. Aparamarta, S. Hapsari, S. Gunawan, R. I. Shiena, A. G. Ariandi, Y. H. Ju, Mal. J. Fund. Appl. Sci. 15(5), 767-771, (2019).
  179. R. Selvaraj, R. Praveenkumar, I. G. Moorthy, Biofuels 10(3), 325-333, (2019).
  180. H. Yun, M. Wang, W. Feng, T. Tan, Energy 54, 84-96, (2013).

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