Page 143 - Advances in Eco-Fuels for a Sustainable Environment
P. 143
114 Advances in Eco-Fuels for a Sustainable Environment
[8] Azad AK, Rasul MG, Khan MM, Sharma SC, Bhuiya MM, Mofijur M. A review on socio-
economic aspects of sustainable biofuels. Int J Glob Warm 2016;10(1–3):32–54.
[9] Bhuiya MM, Rasul MG, Khan MM, Ashwath N, Azad AK. Prospects of 2nd generation
biodiesel as a sustainable fuel—part: 1 selection of feedstocks, oil extraction techniques
and conversion technologies. Renew Sust Energ Rev 2016;55:1109–28.
[10] Singh M, Shukla R, Das K. Harvesting of microalgal biomass. In: Bux F, editor. Biotech-
nological applications of microalgae. London: CRC Press; 2013. p. 77–87.
[11] Fan X, Burton R. Recent development of biodiesel feedstocks and the applications of glyc-
erol: a review. Open Fuels Energy Sci J 2009;2:100–9.
[12] Karmakar A, Karmakar S, Mukherjee S. Properties of various plants and animals feed-
stocks for biodiesel production. Bioresour Technol 2010;101(19):7201–10.
[13] USDA FAS. EU-28 Oilseeds and products annual, (2016, April 1) https://gain.fas.usda.
gov/Recent%20GAIN%20Publications/Oilseeds%20and%20Products%20Annual_
Vienna_EU-28_4-1-2016.pdf; 2016. Accessed 17 October 2017.
[14] Rashid U, Anwar F. Production of biodiesel through optimized alkaline-catalyzed trans-
esterification of rapeseed oil. Fuel 2008;87(3):265–73.
[15] Santin CM, Michelin S, Scherer RP, Val erio A, diLuccio M, Oliveira D, et al. Comparison
of macauba and soybean oils as substrates for the enzymatic biodiesel production in
ultrasound-assisted system. Ultrason Sonochem 2017;35:525–8.
[16] Santos FF, Rodrigues S, Fernandes FA. Optimization of the production of biodiesel
from soybean oil by ultrasound assisted methanolysis. Fuel Process Technol 2009;90
(2):312–6.
[17] Moser BR. Biodiesel production, properties, and feedstocks. In Vitro Cell Dev Biol Plant
2009;45(3):229–66.
[18] Kaya C, Hamamci C, Baysal A, Akba O, Erdogan S, Saydut A. Methyl ester of peanut
(Arachis hypogea L.) seed oil as a potential feedstock for biodiesel production. Renew
Energy 2009;34(5):1257–60.
[19] Canakci M, Sanli H. Biodiesel production from various feedstocks and their effects on the
fuel properties. J Ind Microbiol Biotechnol 2008;35(5):431–41.
¸˜
[20] Fernandes DM, Serqueira DS, Portela FM, Assuncao RM, Munoz RA, Terrones MG.
Preparation and characterization of methylic and ethylic biodiesel from cottonseed oil
and effect of tert-butyl hydroquinone on its oxidative stability. Fuel 2012;97:658–61.
[21] Habibullah M, Masjuki HH, Kalam MA, Fattah IR, Ashraful AM, Mobarak HM. Biodiesel
production and performance evaluation of coconut, palm and their combined blend with
diesel in a single-cylinder diesel engine. Energy Convers Manag 2014;87:250–7.
[22] Sanjid A, Masjuki HH, Kalam MA, Rahman SA, Abedin MJ, Palash SM. Production of
palm and jatropha based biodiesel and investigation of palm-jatropha combined blend
properties, performance, exhaust emission and noise in an unmodified diesel engine.
J Clean Prod 2014;65:295–303.
[23] Mootabadi H, Salamatinia B, Bhatia S, Abdullah AZ. Ultrasonic-assisted biodiesel pro-
duction process from palm oil using alkaline earth metal oxides as the heterogeneous cat-
alysts. Fuel 2010;89(8):1818–25.
[24] Saydut A, Erdogan S, Kafadar AB, Kaya C, Aydin F, Hamamci C. Process optimization
for production of biodiesel from hazelnut oil, sunflower oil and their hybrid feedstock.
Fuel 2016;183:512–7.
[25] Antolın G, Tinaut FV, Briceno Y, Castano V, Perez C, Ramırez AI. Optimisation of biodie-
sel production by sunflower oil transesterification. Bioresour Technol 2002;83(2):111–4.
[26] Zhang Y, Wong WT, Yung KF. One-step production of biodiesel from rice bran oil cat-
alyzed by chlorosulfonic acid modified zirconia via simultaneous esterification and trans-
esterification. Bioresour Technol 2013;147:59–64.
