Page 144 - Advances in Eco-Fuels for a Sustainable Environment
P. 144
Prospective ecofuel feedstocks for sustainable production 115
[27] Sinha S, Agarwal AK, Garg S. Biodiesel development from rice bran oil: trans-
esterification process optimization and fuel characterization. Energy Convers Manag
2008;49(5):1248–57.
[28] Arruda TB, Rodrigues FE, Arruda DT, Ricardo NM, Dantas MB, de Arau ´jo KC. Chroma-
tography, spectroscopy and thermal analysis of oil and biodiesel of sesame (Sesamum indi-
cum)—an alternative for the Brazilian Northeast. Ind Crop Prod 2016;91:264–71.
[29] Saydut A, Duz MZ, Kaya C, Kafadar AB, Hamamci C. Transesterified sesame (Sesamum
indicum L.) seed oil as a biodiesel fuel. Bioresour Technol 2008;99(14):6656–60.
[30] Bergmann JC, Tupinamba ´ DD, Costa OY, Almeida JR, Barreto CC, Quirino BF. Biodiesel
production in Brazil and alternative biomass feedstocks. Renew Sust Energ Rev
2013;21:411–20.
[31] Kumar D, Kumar G, Singh CP. Fast, easy ethanolysis of coconut oil for biodiesel produc-
tion assisted by ultrasonication. Ultrason Sonochem 2010;17(3):555–9.
[32] El Boulifi N, Bouaid A, Martinez M, Aracil J. Process optimization for biodiesel produc-
tion from corn oil and its oxidative stability. Int J Chem Eng 2010;2010:1–9.
[33] Chattopadhyay S, Karemore A, Das S, Deysarkar A, Sen R. Biocatalytic production of
biodiesel from cottonseed oil: standardization of process parameters and comparison of
fuel characteristics. Appl Energy 2011;88(4):1251–6.
[34] Farias RM, Conceicao MM, Candeia RA, Silva MC, Fernandes VJ, Souza AG. Evaluation
¸˜
of the thermal stability of biodiesel blends of castor oil and passion fruit. J Therm Anal
Calorim 2011;106(3):651–5.
[35] Rashid U, Anwar F, Moser BR, Knothe G. Moringa oleifera oil: a possible source of bio-
diesel. Bioresour Technol 2008;99(17):8175–9.
[36] Rashid U, Anwar F, Ashraf M, Saleem M, Yusup S. Application of response surface meth-
odology for optimizing transesterification of Moringa oleifera oil: biodiesel production.
Energy Convers Manag 2011;52(8):3034–42.
[37] Nisar J, Razaq R, Farooq M, Iqbal M, Khan RA, Sayed M, et al. Enhanced biodiesel pro-
duction from Jatropha oil using calcined waste animal bones as catalyst. Renew Energy
2017;101:111–9.
[38] Patel RL, Sankhavara CD. Biodiesel production from Karanja oil and its use in diesel
engine: a review. Renew Sust Energ Rev 2016;71:464–74.
[39] Karmakar A, Karmakar S, Mukherjee S. Biodiesel production from neem towards feed-
stock diversification: Indian perspective. Renew Sust Energ Rev 2012;16(1):1050–60.
[40] Awolu OO, Layokun SK. Optimization of two-step transesterification production of bio-
diesel from neem (Azadirachta indica) oil. Int J Energy Environ Eng 2013;4(1):39.
[41] Muthukumaran C, Praniesh R, Navamani P, Swathi R, Sharmila G, Kumar NM. Process
optimization and kinetic modeling of biodiesel production using non-edible Madhuca
indica oil. Fuel 2017;195:217–25.
[42] Canoira L, Alcantara R, Garcı ´a-Martı ´nez MJ, Carrasco J. Biodiesel from Jojoba oil-wax:
transesterification with methanol and properties as a fuel. Biomass Bioenergy 2006;30
(1):76–81.
[43] Garcı ´a-Martı ´nez N, Andreo-Martı ´nez P, Quesada-Medina J, de los Rı ´os AP, Chica A,
Beneito-Ruiz R, Carratala ´-Abril J. Optimization of non-catalytic transesterification of
tobacco (Nicotiana tabacum) seed oil using supercritical methanol to biodiesel production.
Energy Convers Manag 2017;131:99–108.
[44] Somnuk K, Eawlex P, Prateepchaikul G. Optimization of coffee oil extraction from spent
coffee grounds using four solvents and prototype-scale extraction using circulation pro-
cess. Agric Nat Resour 2017;51(3):181–9.
[45] Liu Y, Tu Q, Knothe G, Lu M. Direct transesterification of spent coffee grounds for bio-
diesel production. Fuel 2017;199:157–61.
