Page 302 - Biosystems Engineering

P. 302

Biodiesel and Ethanol in Engines 279

6. Kumar, A., Bhattacharya, S. C., and Pham, H. L. 2005. Greenhouse gas mitiga-
tion potential of biomass energy technologies in Vietnam using the long range
energy alternative planning system model. Energy 28(7):627–654.
7. Islasa, J., Manzinia, F., and Masera, O. 2008. A prospective study of bioenergy
use in Mexico. Energy 32:2306–2320.
8. Dorado, M. P., Ballesteros, E., Gomez, J. M., and Lopez, F. J. 2003. Exhaust
emissions from a diesel engine fueled with transesterified waste olive oil. Fuel
82:1311–1315.
9. Senda, J., Okui, N., Tsukamoto, T., and Fujimoto, H. 2004. On-board measure-
ment of engine performance and emissions in diesel vehicle operated with
bio-diesel fuel. Paper published by the Society of Automotive Engineers
International, 2004-01-0083.
10. Dorado, M. P., Ballesteros, E., Arnal, J. M., Gomez, J., and Gimenez, F. J. L. 2003.
Testing waste olive oil methyl ester as a fuel in a diesel engine. Energy Fuels
17:1560–1565.
11. Lang, X., Dalai, A. K., Bakhshi, N. N., Reaney, M. J., Hertz, P. B. 2001. Preparation
and characterization of bio-diesels from various bio-oils. Bioresource Technology
80:53–62.
12. Antolin, G., Tinaut, F. V., Briceno, Y., Castano, V., Perez, C., and Ramirez, A. L.
2002. Optimization of biodiesel production by sunflower oil transesterification.
Bioresource Technology 83:111–4.
13. Vicente, G., Martinez, M., and Aracil, J. 2004. Integrated biodiesel production: A
comparison of different homogeneous catalysis systems. Bioresource Technology
92:297–305.
14. Ghadge, S. V. and Raheman, H. 2005. Biodiesel production from mahua
(Madhuca indica) oil having high free fatty acids. Biomass Bioenergy 28:601–605.
15. Meher, L. C., Dharmagadda, V. S. S., and Naik, S. N. 2006. Optimization of alkali
catalyzed transesterification of Pongamia pinnata oil for production of biodiesel.
Bioresource Technology 97:1392–1397.
16. Sarin, R., Sharma, M., Sinharay, S., and Malhotra, R. K. 2008. Jatropha-palm
biodiesel blends: an optimum mix for Asia. Fuel 86:1365–1371.
17. Demirbas, A. 2006. Biodiesel production via non-catalytic SCF method and
biodiesel fuel characteristics. Energy Conservation Management 47:2271–2282.
18. Nag, A. 2007. Biofuels Refining and Performance. New York: McGraw-Hill.
19. Goering, C. E., Schwab, A. W., Campion, R. M., and Pryde, E. H. 1982. Evaluation
of soybean oil-aqueous ethanol microemulsion for diesel engines. Proceedings
of the International Conference on Plant and Vegetable Oils as Fuels, ASABE, Fargo,
ND, Aug. 2–4, pp. 279–286.
20. Knothe, G., Matheaus, A. C., and Ryan III, T. W. I. 2003. Cetane numbers of
branched and straight-chain fatty esters determined in an ignition quality tester.
Fuel 82:971–975.
21. Nag, A., Haldar, S., and Ghosh, B. B. 2008. Utilization of Unattended Putranjiva
roxburghii nonedible oil as fuel in diesel engine. Renewable Energy 34:343–347.
22. Rakopoulos, C. D., Antonopoulos, K. A., Rakopoulos, D. C., Hountalas. D. T.,
and Giakoumis. E. G. 2006. Comparative performance and emissions study of
a direct injection diesel engine using blends of diesel fuel with vegetable oils
or bio-diesels of various origins. Energy Conversion Management 47:3272–3287.
23. Ziejewski, M. and Kaufman, K. R. 1984. Dynamometer evaluation and engine
wear characteristics of palm oil diesel emulsions Journal of the American Oil
Chemistry Society 61(10):1620.
24. Raheman, H. and Phadatare, A. G. 2004. Diesel engine emissions and perfor-
mance from blends of karanja methyl ester and diesel. Biomass and Bioenergy
27:393–397.
25. Mathur, H. B. and Das, L. M. 1985. Utilization of nonedible wild oil as diesel
engine fuel. Proceedings of the Bioenergy Society, Hyderabad, India, November
23–26, 1982.
26. Szybist, J. P., Boehman, A. L., Taylor, J. D., and McCormick, R. L. 2005. Evaluation
of formulation strategies to eliminate the biodiesel NO effect. Fuel Processing
x
Technology 86:1109–1126.

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