References
- Gerpen JV. Biodiesel processing and production. Fuel Process Technol. 2005;86:1097–1107.
- Bozbas K. Biodiesel as an alternative motor fuel: production and policies in the European Union. Renew Sust Energ Rev. 2008;12:542–552.
- Arbab MI, Masjuki HH, Varman M, et al. Fuel properties, engine performance and emission characteristic of common biodiesels as a renewable and sustainable source of fuel. Renew Sust Energ Rev. 2013;22:133–147.
- Kolakoti A, Rao BVA. A comprehensive review of biodiesel application in IDI engines with property improving additives. I-manager's J Mech Eng. 2015;5(4):35–45.
- Sarin R, Sharma M, Sinharay S, et al. Jatropha-palm biodiesel blends: an optimum mix for Asia. Fuel. 2007;86:1365–1371.
- McCormick RL, Ratcliff M, Moens L, et al. Several factors affecting the stability of biodiesel in standard accelerated tests. Fuel Process Technol. 2007;88:651–657.
- Azam MM, Waris A, Nahar NM. Prospects and potential of fatty acid methyl esters of some non-traditional seed oils for use as biodiesel in India. Biomass Bioenerg. 2005;29:293–302.
- Heywood JB. Internal combustion engine fundamentals. McGraw-Hill Publications; 1988.
- Rao GAP, Rama Mohan P. Effect of supercharging on the performance of a DI diesel engine with cotton seed oil. Energ Convers Manage. 2003;44:937–944.
- Leevijit T, Prateepchaikul G. Comparative performance and emissions of IDI-turbo automobile diesel engine operated using degummed, deacidified mixed crude palm oil–diesel blends. Fuel. 2011;90:1487–1491.
- Usta N. Use of tobacco seed oil methyl ester in a turbocharged indirect injection diesel engine. Biomass Bioenerg. 2005;28:77–86.
- Can O, Celikten I, Usta N. Effects of ethanol addition on performance and emissions of a turbocharged indirect injection Diesel engine running at different injection pressure. Energ Convers Manage. 2004;45:2429–2440.
- Arbab MI, Varman M, Masjuki HH, et al. Evaluation of combustion, performance, and emissions of optimum palm–coconut blend in turbocharged and non-turbocharged conditions of a diesel engine. Energ Convers Manage. 2015;90:111–120.
- Victor T, Prasada Rao K, Rao BVA, et al. Experimental investigation on combustion, emissions, performance and cylinder vibration analysis of an IDI engine with RBME along with isopropanol as an additive. Biofuels. 2016. Available from: https://doi.org/10.1080/17597269.2016.1226723.
- Prasada Rao K, Victor Babu T, Anuradha G, et al. IDI diesel engine performance and exhaust emission analysis using biodiesel with an artificial neural network (ANN). Egypt J Petrol. 2016. Available from: https://doi.org/10.1016/j.ejpe.2016.08.006.
- Siwale L, Kristóf L, Adam T, et al. Combustion and emission characteristics of n-butanol/diesel fuel blend in a turbo-charged compression ignition engine. Fuel. 2013;107:409–418.
- Chasos CA, Karagiorgis GN, Christodoulou CN. Emission measurements of naturally aspirated and turbo-charged diesel internal combustion engines for various biodiesel blends. Int J Sust Energ. 2015;34(3–4):142–153. Available from: https://doi.org/10.1080/14786451.2014.895355.
- Prasada Rao K, Rao BVA. Parametric optimization for performance and emissions of an IDI engine with Mahua biodiesel. Egypt J Petrol. 2016. Available from: https://doi.org/10.1016/j.ejpe.2016.10.003.
- Kolakoti A, Rao BVA. Effect of fatty acid composition on the performance and emission characteristics of an IDI supercharged engine using neat palm biodiesel and coconut biodiesel as an additive. Biofuels. 2017. Available from: https://doi.org/10.1080/17597269.2017.1332293
- Khalil I, Aziz ARA, Yusup S, et al. Response surface methodology for the optimization of the production of rubber seed/palm oil biodiesel, IDI diesel engine performance, and emissions. Biomass Convers Biorefin. 2017;7(1):37–49. Available from: https://doi.org/10.1007/s13399-016-0221-y