Page 452 - Advances in Eco-Fuels for a Sustainable Environment
P. 452
Assessment of performance and emission behavior of novel annona 405
[12] No S-Y. Inedible vegetable oils and their derivatives for alternative diesel fuels in CI
engines: a review. Renew Sust Energ Rev 2011;15(1):131–49.
[13] Xue J, Grift TE, Hansena AC. Effect of biodiesel on engine performances and emissions.
Renew Sust Energ Rev 2011;15(2):1098–116.
[14] Lahane S, Subramanian KA. Effect of different percentages of biodiesel–diesel blends on
injection, spray, combustion, performance, and emission characteristics of a diesel engine.
Fuel 2015;139:537–45.
[15] Chauhan BS, Kumar N, Cho HM. A study on the performance and emission of a diesel
engine fueled with jatropha biodiesel oil and its blends. Energy 2012;37(1):616–22.
[16] Mofijur M, Masjuki HH, Kalam MA, Atabani AE. Evaluation of biodiesel blending,
engine performance and emissions characteristics of jatropha curcas methyl ester: Malay-
sian perspective. Energy 2013;55:879–87.
[17] Raheman H, Phadatare AG. Diesel engine emissions and performance from blends of
karanja methyl ester and diesel. Biomass Bioenergy 2004;27(4):393–7.
[18] Chauhan BS, Kumar N, Cho HM, Lim HC. A study on the performance and emission of a
diesel engine fueled with karanja biodiesel and its blends. Energy 2013;56:1–7.
[19] Puhan S, Vedaraman N, Rambrahaman BV, Nagarajan G. Mahua oil (Madhuca Indica
seed oil)–a source of renewable energy in India. J Sci Ind Res 2005;64:890–6.
[20] Saravanan N, Nagarajan G, Puhan S. Experimental investigation on a DI diesel engine
fuelledwithmadhucaindicaesteranddieselblend.BiomassBioenergy2010;34(6):838–43.
[21] Buyukkaya E. Effects of biodiesel on a DI diesel engine performance, emission and com-
bustion characteristics. Fuel 2010;89(10):3099–105.
[22] Rizwanul Fattah IM, Masjuki HH, Kalam MA, Mofijur M, Abedin MJ. Biodiesel produc-
tion, characterization, engine performance, and emission characteristics of malaysian
alexandrian laurel oil. RSC Adv 2014;4:17787–96.
[23] Sanjid A, Kalam MA, Masjuki HH, Ashrafur Rahman SM, Abedin MJ. Combustion, per-
formance and emission characteristics of a DI diesel engine fueled with brassica juncea
methyl ester and its blends. RSC Adv 2014;4:36973–82.
[24] Abu-Hamdeh NH, Alnefaie KA. A comparative study of almond and palm oils as two bio-
dieselfuelsfordieselengineintermsofemissionsandperformance.Fuel2015;150:318–24.
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¸
[25] Ozcelik E, Aydog ˘an H, Acarog ˘lu M. Determining the performance, emission and combus-
tion properties of camelina biodiesel blends. Energy Convers Manag 2015;96:47–57.
[26] Takase M, Zhao T, Zhang M, Chen Y, Liu H, Yang L, Wu X. An expatiate review of neem,
jatropha, rubber and karanja as multipurpose nonedible biodiesel resources and comparison
of their fuel, engine and emission properties. Renew Sust Energ Rev 2015;43:495–520.
[27] Mosarof MH, Kalam MA, Masjuki HH, Ashraful AM, Rashed MM, Imdadul HK,
Monirul IM. Implementation of palm biodiesel based on economic aspects, performance,
emission, and wear characteristics. Energy Convers Manag 2015;105:617–29.
[28] Sanjid A, Kalam MA, Masjuki HH, Ashrafur Rahman SM, Abedin MJ. Characterization and
predictionofblendproperties and evaluationofengineperformanceandemissionparameters
of a CI engine operated with various biodiesel blends. RSC Adv 2015;5:13246–55.
[29] Uddin SMA, Azad AK, Alam MM, Ahamed JU. Performance of a diesel engine run with
mustard-Kerosene blends. Procedia Eng 2015;105:698–704.
[30] Azad AK, Rasul MG, Khan MMK, Sharma SC. Macadamia biodiesel as a sustainable and
alternative transport fuel in Australia. Energy Procedia 2017;110:543–8.
[31] Azad AK, Rasul MG, Khan MMK, Sharma SC, Bhuiya MMK. Recent development of
biodiesel combustion strategies and modelling for compression ignition engines. Renew
Sust Energ Rev 2016;56:1068–86.
