References
- Adebayo, G. B., Ameen, O. M., and Abass, L. T. 2011. Physcio- chemical properties of biodiesel produced from Jatropha curcas oil and fossil diesel. J. Microbial. Biotech. Res. 1:12–16.
- Agarwal, A. K., and Rajamanoharan, K. 2009. Experimental investigation of the performance and emission of Karanja oil and its blends in a single cylinder agriculture diesel engine. Appl.Energy 86:106–112.
- Akbar, E., Yaakub Z., Kamarudin, S. K., Ismail M., and Salimon, J. 2009. Characteristics and composition of Jatropha curcas oil seed from Malaysia and its potential as biodiesel feedstock. J. Sci. Res. 29:396–403.
- Akintayo, E. T. 2004. Characteristics and composition of parkia biglobbossa and Jatropha curcas oil and cakes. Bioresour. Technol. 92:307–310.
- Aldo okullo, Temu, A. K., Ogwok, P., and Ntalikwa, J. W. 2012. Physico-chemical properties of biodiesel from Jatropha and Castor oils. Int. J. Renewable Energy Res. 2:47–52.
- Bajpai, S., Sahoo, P. K., and Das, L. M., 2009. Feasibility of blending Karanja oil in petro-diesel and utilization in a direct injection diesel engine. Fuel 88:795–711.
- Banapuramath, N. R., Tewari, P. G., Yaliwal, V. S., and Satish Kamblimath. 2009. Combustion characteristics of a 4-stroke engine operated on Honge oil, Neem oil and Rice Bran oils when directly injected and dual fueled with producer gas induction. Renewable Energy 34:1877–1884.
- Banapuramath, N. R., Tewari, P.G., and Hosmath, R. S. 2008. Performance and emission characteristics of the compression ignition engine operated on Honge, Jatropha and sesame oil methyl esters. Renewable Energy 33:1982–1988.
- Bhattacharya, S. C., Shwe Hla, S., and Pham, H.-L. 2001. A study on a multi-stage hybride gasifire engine system. Biomass Bioenergy 21:445–460.
- Hotti, S. R., and Hebbal, O. 2011. Performance and combustion characteristics of SINGLE cylinder diesel engine running on Karanja oil/Diesel fuel blends. Sci. Res. 3:371–375.
- Makkar, H. P. S., Kumar, V., Oyeleye, O. O., Akinleye, A., Angulo-Escalanate M. A., and Beckerk. 2010. Traditional wisdom confirmed by scientific research: jatropha specie from Mexico is non-toxic. Nat. Proc. hdl:10101/npre.
- Nwafor, O. M. I. 2000. Effect of choice of pilot fuel on the performance of natural gas in diesel engine. Renewable Energy 21:495–504.
- Openshaw, K. 2000. A Review of Jatropha Curcas: An oil plant of unfulfilled promise. Biomass Bioenergy 19:1–15.
- Pramanik, K. 2003. Properties and use of jatropha curcas oil and diesel fuel blends in compression ignition engine. Renewable Energy 28:239–248.
- Ramadhas, A. S., Jayaraj, S., and Muraleedharan, C. 2006. Power generation using coir-pith and wood derived producer gas in diesel engine. Fuel Process. Technol. 87:849–853.
- Ramadhas, A. S., Jayaraj, S., and Muraleedharan, C. 2008. Dual fuel mode operation in diesel engine using renewable fuels: rubber seed oil and coir- pith producer gas. Renewable Energy 33:2077–2083.
- Sonaton, G., Tuhin, K. D., and Tushar, J. 2004. Sustainability of decentralized wood fuel-based power plant: an experience in India. Energy 29:155–166.
- Sureshkumar, K., Velraj, R., and Ganesan, R. 2008. Performance and exhaust emission characteristics of CI engine fueled with Pongamia pinnata methyl ester (PPME) and its blends with diesel. Renewable Energy 33:2294–2302.
- Uma, R., Kandapal, T. C., and Kishore, V. V. N. 2004, Emission characteristics electricity generation system in diesel alone and dual fuel modes. Biomass Bioenergy 27:195–203.