1. Rath, M.K., S.K. Acharya and S. Roy, 2016. Thermodynamic analysis of compression ignition engine using neat Karanja oil under varying compression ratio. Int. J. Ambient Energy, 37: 94-102.
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2. Patnaik, P.P., S.K. Acharya, D. Padhi and U.K. Mohanty, 2016. Experimental investigation on CI engine performance using steam injection and ferric chloride as catalyst. Eng. Sci. Technol.: Int. J., 19: 2073-2080.
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3. Nayak, C., S.K. Achrya and R.K. Swain, 2016. Performance of a twin cylinder dual-fuel diesel engine using blends of neat Karanja oil and producer gas. Int. J. Ambient Energy, 37: 36-45.
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4. Nayak, C., S.K. Acharya and R.K. Swain, 2016. Emission analysis of different blends of karanja oil with producer gas in a twin-cylinder diesel engine in dual fuel mode. Energy Sour. Part A: Recov. Utiliz. Environ. Eff., 38: 821-827.
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5. Nayak, C., S.K. Acharya and R.K. Swain, 2016. Emission analysis of different blends of Karanja biodiesel with producer gas in a twin cylinder diesel engine in dual fuel mode. Energy Sour. Part A: Recov. Utiliz. Environ. Eff., 38: 813-820.
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6. Nayak, C., S.K. Achrya and R.K. Swain, 2015. Performance of a twin cylinder diesel engine in dual fuel mode using woody biomass producer gas. Int. J. Sustain. Eng., 8: 341-348.
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7. Rath, M.K., S.K. Acharya, P.P. Patnnaik and S. Roy, 2014. Exergy and energy analysis of diesel engine using karanja methyl ester under varying compression ratio. Int. J. Eng.-Trans. B: Applic., 27: 1259-1268.
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8. Patnaik, P. and S.K. Acharya, 2014. Effect of compression ratio on emission of CI engine using neat Karanja oil and Karanja oil methyl ester blends. Int. J. Eng. Trans.-C, 27: 403-410.
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9. Panigrahi, N., M.K. Mohanty, S.K. Acharya, S.R. Mishra and R.C. Mohanty, 2014. Experimental investigation of Karanja oil as a fuel for diesel engine using shell and tube heat exchanger. Int. J. Chem. Nuclear Metall. Mater. Eng., 8: 89-96.
10. Nayak, C. and S. Acharya, 2014. Experimental investigation of diesel engine emissions with producer gas and blends of neat Karanja oil as fuel adding turbocharger. Int. J. Renew. Energy Res., 4: 675-682.
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11. Acharya, S.K., R.K. Swain, M.K. Mohanty and A.K. Mishra, 2014. Preheated and blended Karanja oil as diesel engine fuel. Energy Sour. Part A: Recov. Utiliz. Environ. Eff., 36: 1325-1334.
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12. Acharya, S.K., R.K. Swain and M.K. Mohanty, 2014. Emission analysis of using preheated Karanja and Kusum oil. Energy Sour. Part A: Recov. Utiliz. Environ. Eff., 36: 1358-1365.
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13. Acharya, S.K. and S.P. Jena, 2013. Performance and emission analysis of a CI engine in dual mode with LPG and Karanja oil methyl ester. ISRN Renew. Energy. 10.1155/2013/540589.
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14. Acharya, S.K., R.K. Swain, M.K. Mohanty, A.K. Mishra and S. Mahapatra, 2011. The performance and emission characteristics of a diesel engine using preheated Kusum oil and Kusum diesel blend. Int. J. Energy Technol. Policy, 7: 503-518.
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15. Acharya, S.K., A.K. Mishra, M. Rath and C. Nayak, 2011. Performance analysis of Karanja and Kusum oils as alternative bio-diesel fuel in diesel engine. Int. J. Agric. Biol. Eng., 4: 23-28.
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16. Acharya, S., R. Swain and S.N. Das, 2011. The optimization of injection pressure of a direct injection diesel engine using Karanja oil (Preheated and Blended) as a fuel. Energy Sour. Part A: Recov. Utiliz. Environ. Eff., 33: 1250-1259.
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17. Acharya, S.K., R.K. Swain and M.K. Mohanty, 2010. Use of rice bran oil as a fuel for small horse-power diesel engine. Energy Sourc. Part A: Recovery Utilization Environ. Effects, 33: 80-88.
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18. Acharya, S.K., 2010. Enviromental aspects of running a direct injection diesel engine using preheated straight vegetable. Technoinsight National J., 2: 49-56.
19. Acharya, S.K., R.K. Swain and M.K. Mohanty, 2009. Performance investigations of karanja oil (methyl ester) as a fuel in diesel engine with exhaust gas recirculation. Int. J. Mech. Automobile Eng., 3: 83-97.
20. Acharya, S.K., R.K. Swain and M.K. Mohanty, 2009. Kusum oil as a fuel for small horse power diesel engine. Int. J. Eng. Technol., 1: 219-223.