https://orcid.org/0000-0001-6564-9116
References
- Kumar TS, Kumar PS, Annamalai K. Experimental study on the performance and emission measures of direct injection diesel engine with Kapok methyl ester and its blends. Renew Energy. 2015;74:903–909.
- Banković-Ilić IB, Stamenković OS, Veljković VB. Biodiesel production from non-edible plant oils. Renew Sust Energ Rev. 2012;16:3621–3647.
- Karmee SK, Chadha A. Preparation of biodiesel from crude oil of Pongamia pinnata. Bioresour Technol. 2005;96:1425–1429.
- Sahoo P, Das L, Babu M, et al. Comparative evaluation of performance and emission characteristics of jatropha, karanja and polanga based biodiesel as fuel in a tractor engine. Fuel. 2009;88:1698–1707.
- Sureshkumar K, Velraj R, Ganesan R. Performance and exhaust emission characteristics of a CI engine fueled with Pongamia pinnata methyl ester (PPME) and its blends with diesel. Renew Energy. 2008;33:2294–2302.
- Raheman H, Phadatare A. Diesel engine emissions and performance from blends of karanja methyl ester and diesel. Biomass Bioenergy. 2004;27:393–397.
- Palash S, Masjuki H, Kalam M, et al. State of the art of NOx mitigation technologies and their effect on the performance and emission characteristics of biodiesel-fueled Compression Ignition engines. Energ Conver Manage. 2013;76:400–420.
- Lapuerta M, Armas O, Rodríguez FJ. Effect of biodiesel fuels on diesel engine emissions. Prog Energ Combust Sci. 2008;34:198–223.
- Saravanan N, Nagarajan G, Puhan S. Experimental investigation on a DI diesel engine fuelled with Madhuca indica ester and diesel blend. Biomass Bioenergy. 2010;34:838–843.
- Raheman H, Ghadge SV. Performance of compression ignition engine with mahua (Madhuca indica) biodiesel. Fuel. 2007;86:2568–2573.
- Puhan S, Vedaraman N, Ram BV, et al. Mahua oil (Madhuca indica seed oil) methyl ester as biodiesel-preparation and emission characteristics. Biomass Bioenergy. 2005;28:87–93.
- Ganapathy T, Gakkhar RP, Murugesan K. Influence of injection timing on performance, combustion and emission characteristics of Jatropha biodiesel engine. Appl Energ. 2011;88:4376–4386.
- Chauhan BS, Kumar N, Jun YD, et al. Performance and emission study of preheated Jatropha oil on medium capacity diesel engine. Energy. 2010;35:2484–2492.
- Narayana Reddy J, Ramesh A. Parametric studies for improving the performance of a Jatropha oil-fuelled compression ignition engine. Renew Energ. 2006;31:1994–2016.
- Raheman H, Kumari S. Combustion characteristics and emissions of a compression ignition engine using emulsified jatropha biodiesel blend. Biosystems Eng. 2014;1:2329–2333.
- Agarwal D, Agarwal AK. Performance and emissions characteristics of Jatropha oil (preheated and blends) in a direct injection compression ignition engine. Appl Thermal Eng. 2007;27:2314–2323.
- Singh D, Singal SK, Garg MO, et al. Transient performance and emission characteristics of a heavy-duty diesel engine fuelled with microalga Chlorella variabilis and Jatropha curcas biodiesels. Energ Conver Manage. 2015;106:892–900.
- Sharma A, Murugan S. Investigation on the behaviour of a DI diesel engine fueled with Jatropha Methyl Ester (JME) and Tyre Pyrolysis Oil (TPO) blends. Fuel. 2013;108:699–708.
- Jindal S, Nandwana BP, Rathore NS. Comparative evaluation of combustion, performance, and emissions of jatropha methyl ester and karanj methyl ester in a direct injection diesel engine. Energy Fuels. 2010;24:1565–1572.
- 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;37:612–622.
- Ganapathy T, Gakkhar RP, Murugesan K. Influence of injection timing on performance, combustion and emission characteristics of Jatropha biodiesel engine. Appl Energ. 2011;88:4376–4386.
- Huang J, Wang Y, Qin J-B, et al. Comparative study of performance and emissions of a diesel engine using Chinese pistache and jatropha biodiesel. Fuel Process Technol. 2010;91:1761–1767.
- Rahman MM, Hassan MH, Kalam MA, et al. Performance and emission analysis of Jatropha curcas and Moringa oleifera methyl ester fuel blends in a multi-cylinder diesel engine, Cleaner Production. 2014;65:304–310.
- Senthil Kumar M, Ramesh A, Nagalingam B. An experimental comparison of methods to use methanol and Jatropha oil in a compression ignition engine. Biomass Energy. 2003;25:309–318.
- Ashrafur Rahman SM, Masjuki HH, Kalam MA, et al. Effect of idling on fuel consumption and emissions of a diesel engine fueled by Jatropha biodiesel blends. Cleaner Prod. 2014;69:208–215.
- Rawat DS, Joshi G, Lamba BY, et al. Impact of additives on storage stability of Karanja (Pongamia Pinnata) biodiesel blends with conventional diesel sold at retail outlets. Fuel. 2014;120:30–37.
- Dwivedi G, Sharma MP. Prospects of biodiesel from Pongamia in India. Renew Sustain Energ Rev. 2014;32:114–122.
- Rawat DS, Joshi G, Lamba BY, Tiwari AK, & Mallick S. Impact of additives on storage stability of Karanja (Pongamia Pinnata) biodiesel blends with conventional diesel sold at retail outlets, Fuel, 2014;120:30–37.
- Gopal KN, Karupparaj RT. Effect of Pongamia biodiesel on emission and combustion characteristics of DI compression ignition engine. Ain Shams Eng J. 2015;6(1):297–305. http://doi.org/10.1016/j.asej.2014
- Bora BJ, Saha UK. Comparative assessment of a biogas run dual fuel diesel engine with rice bran oil methyl ester, pongamia oil methyl ester and palm oil methyl ester as pilot fuels. Renew Energy. 2015;81:490–498.
- Ibrahim NHM, Udayakumar M. Numerical investigation of exhaust gas emissions for a dual fuel engine configuration using diesel and pongamia oil. Ecotox Environ Safe. 2015;30:1–5.
- Jaichandar S, Annamalai K. Effects of open combustion chamber geometries on the performance of pongamia biodiesel in a DI diesel engine. Fuel. 2012;98:272–279.
- Agarwal KRAK. Experimental investigations of performance and emissions of Karanja oil and its blends in a single cylinder agricultural diesel engine. Appl Energy. 2009;86:106–112.
- Anand K, Sharma R, Mehta PS. Experimental investigations on combustion, performance and emissions characteristics of neat karanji biodiesel and its methanol blend in a diesel engine. Biomass Bioenergy. 2011;35:533–541
- Baiju B, Naik MK, Das LMA. Comparative evaluation of compression ignition engine characteristics using methyl and ethyl esters of Karanja oil. Renew Energy. 2009;34:1616–1621.
- Bajpai S, Sahoo PK, Das LM. Feasibility of blending karanja vegetable oil in petro-diesel and utilization in a direct injection diesel engine. Fuel. 2009;88:705–711.
- Nabi MN, Hoque SMN, Akhter MS. Karanja (Pongamia Pinnata) biodiesel production in Bangladesh, characterization of karanja biodiesel and its effect on diesel emissions. Fuel Process Technol. 2009;90:1080–1086
- Nagarhalli M, Nandedkar V, Mohite K. Emission and performance characteristics of karanja biodiesel and its blends in a CI engine and its economics. ARPNJ Eng Appl Sci. 2010;5:52–56.
- Raheman H, Phadatare A. Diesel engine emissions and performance from blends of karanja methyl ester and diesel. Biomass Bioenergy. 2004;27:393–397.
- Sahoo P, Das L, Babu M, et al. Comparative evaluation of performance and emission characteristics of jatropha, karanja and polanga based biodiesel as fuel in a tractor engine. Fuel. 2009;88:1698–1707.
- Srivastava PK, Verma M. Methyl ester of karanja oil as an alternative renewable source energy. Fuel. 2008;87:673–677.
- Raheman H, Ghadge SV. Performance of diesel engine with biodiesel at varying compression ratio and ignition timing. Fuel. 2008;87:2659–2666.
- Godiganur S, Suryanarayana Murthy CH, Reddy RP. 6BTA 5.9 G2-1 Cummins engine performance and emission tests using methyl ester mahua (Madhua indica) oil/diesel blends. Renew Energy. 2009;34:2172–2177.
- Puhan S, Vedaraman N, Ram BV, et al. Mahua oil (Madhuca indica seed oil) methyl ester as biodiesel-preparation and emission characteristics. Biomass Bioenergy. 2005;28:87–93.
- Agarwal D, Kumar L, Agarwal AK. Performance evaluation of a vegetable oil fuelled compression ignition engine. Renew Energy. 2008;33:1147–1156.
- Godiganur S, Murthy CS, Reddy RP. Performance and emission characteristics of a Kirloskar HA394 diesel engine operated on Mahua oil methyl ester. Renew Energy. 2010;35:355–359.
- Kapilan N, Reddy R. Evaluation of methyl esters of mahua oil (Madhuca indica) as diesel fuel. J Am Oil Chem Soc. 2008;85:185–188.
- Puhan S, Nagarajan G, Vedaraman N, et al. Mahua oil (Madhua indica oil) derivatives as a renewable fuel for diesel engine systems in India: a performance and emissions comparative study. Green Energy. 2007;4:89–104.
- Puhan S, Vedaraman N, Rambrahamam B, et al. Mahua (Madhua indica) seed oil: a source of renewable energy in India. Sci Ind Res. 2005;64:890–896.
- Kumar MS, Kerihuel A, Bellettre J, et al. Experimental investigations on the use of preheated animal fat as fuel in a compression ignition engine. Renew Energy. 2005;30:1443–1456.
- Alptekin E, Canakci M, Ozsezen AN, et al. Using waste animal fat based biodiesels-bioethanol-diesel fuel blends in a di diesel engine. Fuel. 2015;157:245–254.
- Pugazhvadivu M, Jeyachandran K. Investigations on the performance and exhaust emissions of a diesel engine using preheated waste frying oil as fuel. Renew Energy. 2005;30:2189–2202.
- Ekrem B. Effect of biodiesel on a DI diesel engine performance, emission and combustion characteristics. Fuel. 2010;89:3099–3105.
- Hazar H, Aydin H. Performance and emission evaluation of a CI engine fueled with preheated raw rapeseed oil (RRO)-diesel blends, Appl Energy. 2010;87 (3):786–790.
- Karabektas M, Ergen G, Hosoz M. The effects of preheated cottonseed oil methyl ester on the performance and exhaust emissions of a diesel engine. Appl Thermal Eng. 2008;28:2136–2143.
- Nabi MN, Rahman MM, Akhter MS. Biodiesel from cotton seed oil and its effect on engine performance and exhaust emissions, Appl Thermal Eng. 2009;29:2265–2270.
- Qi DH, Geng LM, Chen H, et al. Combustion and performance evaluation of a diesel engine fueled with biodiesel produced from soybean crude oil. Renew. Energy. 2009;34:2706–2713.
- Qi DH, Chen H, Geng LM, et al. Effect of diethyl ether and ethanol additives on the combustion and emission characteristics of biodiesel-diesel blended fuel engine, Renew Energy. 2011;36:1252–1258.
- Qi DH, Chen H, Geng LM, et al. Performance and combustion characteristics of biodiesel-diesel-methanol blend fuelled engine, Appl Energy. 2010;87:1679–1686.
- Aydin H. and Ilkili C. Effect of ethanol blending with biodiesel on engine performance and exhaust emissions in a CI engine, Appl. Therm. Eng. 2010;30(10):1199–1204.
- Sayin C, Gumus M. Impact of compression ratio and injection parameters on the performance and emissions of a DI diesel engine fueled with biodiesel-blended diesel fuel, Appl Thermal Eng. 2011;31:3182–3188.
- Sharon H, Karuppasamy K, Soban Kumar DR, et al. A test on DI diesel engine fueled with methyl esters of used palm oil. Renew Energy. 2012;47:160–166.
- Bari S, Lim TH, Yu CW. Effects of preheating of crude palm oil (CPO) on injection system, performance and emission of a diesel engine. Renew Energy. 2002;27:339–351.
- Hwang J, Qi D, Jung Y, et al. Effect of injection parameters on the combustion and emission characteristics in a common-rail direct injection diesel engine fueled with waste cooking oil biodiesel. Renew Energy. 2014;63:9–17.
- Agarwal AK. Biofuels (alcohols and biodiesel) applications as fuels for internal combustion engines. Prog Energ Combust Sci. 2007;33:233–271.
- Mat Yasin MH, Yusaf T, Mamat R, Fitri Yusop A. Characterization of a diesel engine operating with a small proportion of methanol as a fuel additive in biodiesel blend. Appl Energy 2014;114:865–73. doi: 10.1016/j.apenergy.2013.06.012.
- Mat Yasin MH, Yusaf T, Mamat R, Fitri Yusop A. Characterization of a diesel engine operating with a small proportion of methanol as a fuel additive in biodiesel blend. Appl Energy 2014;114:865–73. doi:10.1016/j.apenergy.2013.06.012.
- Vedharaj S, Vallinayagam R, Yang WM, et al. Effect of adding 1,4-Dioxane with kapok biodiesel on the characteristics of a diesel engine. Appl Energy. 2014;136:1166–1173.
- Aydin H, Ilkiliç C. Effect of ethanol blending with biodiesel on engine performance and exhaust emissions in a CI engine. Appl Thermal Eng. 2010;30(10):1199–1204.
- Karmakar A, Karmakar S, Mukherjee S. Biodiesel production from neem towards feedstock diversification : Indian perspective. Renewable and Sustainable Energy Reviews. 2012;16(1):1050–1060. 2011.
- Gogoi TK, Baruah DC. The use of Koroch seed oil methyl ester blends as fuel in a diesel engine. Appl Energy. 2011;88:2713–2725.
- Kumar TS, Kumar PS, Annamalai K. Experimental study on the performance and emission measures of direct injection diesel engine with Kapok methyl ester and its blends. Renew Energy. 2015;74:903–909.
- Oner C, Altun S. Biodiesel production from inedible animal tallow and an experimental investigation of its use as alternative fuel in a direct injection diesel engine. Appl Energy. 2009;86(10):2114–2120.
- Sayin C, Uslu K, Canakci M. Influence of injection timing on the exhaust emissions of a dual-fuel CI engine. Renew Energy. 2008;33:1314–1323.
- Yannopoulos SI, Lyberatos G, Theodossiou N, et al. Evolution of Water Lifting Devices (Pumps) over the Centuries Worldwide. Water. 2015;7:5031–5060.