Try Mobilus Beta
Search tips
 This content is not included in your SAE MOBILUS subscription, or you are not logged in.

Experimental Investigations of the Tribological Properties of Lubricating Oil from Biodiesel Fuelled Medium Duty Transportation CIDI Engine

Journal Article
2008-01-1385
ISSN: 1946-3952, e-ISSN: 1946-3960
DOI: https://doi.org/10.4271/2008-01-1385
Published April 14, 2008 by SAE International in United States
Experimental Investigations of the Tribological Properties of Lubricating Oil from Biodiesel Fuelled Medium Duty Transportation CIDI Engine
Sector:
Citation: Sinha, S. and Agarwal, A., "Experimental Investigations of the Tribological Properties of Lubricating Oil from Biodiesel Fuelled Medium Duty Transportation CIDI Engine," SAE Int. J. Fuels Lubr. 1(1):719-730, 2009, https://doi.org/10.4271/2008-01-1385.
Language: English

References

  1. Agarwal, A.K. Bio energy options and rural India India Infrastructure report-2007 Oxford University Press 2007 165 177
  2. Subramanian, K.A. Singhal, S.K. Saxena, M Singhal, S. Utilization of liquid biofuels in automotive diesel engines: An Indian perspective Biomass and Bioenergy 29 2005 65 72
  3. Petroleum statistics, Ministry of oil & natural gas, Government of India
  4. Peterson, C. L. Auld D.L. Technical overview of vegetable oil as a transportation fuel, FACT, 12, Solid fuel conversion for the Transportation Sector ASME 1991
  5. Kowalewicz, A. Wojtyniak, M. Alternative fuels and their application to combustion engines Proceedings Institution of Mechanical Engineers, Part D: Journal of automobile engineering 219 2005 103 125
  6. Demirbas, A. Fuel properties and calculation of higher heating values of vegetable oils Fuel 77 9 10 1998 1117 20
  7. Barnwal, B.K. Sharma, M.P. Prospects of biodiesel production from vegetable oils in India Renewable and Sustainable Energy Reviews 9 4 2005 363 78
  8. Srivastava, A. Prasad, R. Triglycerides-based diesel fuels Renewable & sustainable energy reviews 4 2000 111 33
  9. Ma, F. Hanna, M.A. Biodiesel production: a review Bioresource Technology 70 1999 1 15
  10. Peterson, C.L. Wagner, G.L. Auld, D.L. “Vegetable oil substitution for diesel fuel” Transaction of ASAE 26 1983 322 27
  11. Krawczyk, T. Biodiesel- Alternative fuel makes inroads but hurdle remains INFORM 7 1996 801 15
  12. Clark, S.J. Wagner, L. Schrock, M.,D. Piennaar, P.,G. Methyl and ethyl soybean esters as renewable fuels for diesel engines JAOCS 61 10 1984 1632 43
  13. Murayama, T. Oh, Y. Miyamoto, N. Chikahisa, T. Takagi, N. Itow, K. Low carbon flower buildup, low smoke, and efficient diesel operation with vegetable oils by conversion to monoesters and blending with diesel oils or alcohols SAE 841161 1984
  14. Canakci, M. Van Gerpen, J., H. Comparison of Engine Performance and Emissions for Petroleum Diesel Fuel, Yellow Grease Biodiesel, and Soybean Oil Biodiesel Paper No. 016050, ASAE Annual International Meeting 2001
  15. Rewolinski, C. Shaffer, D.L. Sunflower Oil Diesel Fuel: Lubrication System Contamination JAOCS 62 7 1985
  16. Ryan, T.W., III Dodge, L.G. Callahan, T.J. The Effects of Vegetable Oil Properties on Injection and Combustion in Two Different Diesel Engines JAOCS 61 10 1984 1610 19
  17. Marchetti, J.M. Possible methods for bio diesel production, renewable & sustainable energy reviews 11 6 2007 1300 11
  18. Gerpan, J.V. Biodiesel processing and production Fuel Processing Technology 86 2005 1097 1107
  19. Meher, L.C. Technical aspect of biodiesel production by transesterification- a review Renewable & sustainable energy reviews 10 3 2006 248 68
  20. Fukuda, H. Kondo, S. Noda, H. Biodiesel fuel production by transesterification of oils Journal of biosciences and bioengineering 92 5 2001 405 16
  21. Schwab, A.W. Dykstra, G.J. Selkeo, E. Sorenson, S.C. Pryde, E.H. Diesel fuel from thermal decomposition of soybean oil JAOCS 65 11 1988 1781 86
  22. Agarwal, A.K. Bijwe, J. Das, L.M. Effect of Biodiesel utilization on wear of vital parts in compression ignition engine Transaction of the ASME, Journal of engineering for gas turbines and power 124 2002 604 11
  23. Agarwal, A.K. Das, L.M. Biodiesel development and characterization for use as a fuel in compression ignition engine Transaction of the ASME, Journal of engineering for gas turbines and power 123 2001 440 47
  24. Freedman, B. Pryde, E.H. Mounts, T.L. Variables affecting the yields of fatty esters from transesterified vegetable oils JAOCS 61 1984 1638 43
  25. Vicente, G. Martinez, M. Aracil, J. Integrated biodiesel production: a comparison of different homogeneous catalysts systems Bioresource Technology 92 2004 297 305
  26. Peterson, C.L. Hustruid, T. Carbon cycle for rapeseed oil biodiesel fuel Biomass & Bioenergy 14 1998 91 101
  27. Devitt, M. Drysdale, D.W. MacGillivray, I. Norris, A.J. Thompson, R. Twidell, J.W. Biofuel for transport: an investigation into the validity of rape methyl ester (RME) as an alternative to diesel fuel International journal of ambient energy 14 4 1983 195 218
  28. Sinha, S. Agarwal, A.K. Performance Evaluation of a Biodiesel (Rice-ran Oil Methyl Ester) Fuelled Transport Diesel Engine SAE 2005-01-1730 2005
  29. Sinha, S. Agarwal, A.K. “Experimental Investigation of the Combustion Characteristics of Biodiesel (Rice-bran Oil Methyl Ester) Fuelled Direct Injection Transportation Diesel Engine” Proceedings of IMechE, part D: Journal of Automobile Engineering 221 2007 921 32
  30. Hu, J. Du, Z. Li, C. Min, E. Study on the lubrication properties of biodiesel as fuel lubricity enhancers Fuel 84 2005 1601 1606
  31. Kinney, A.,J. Clemente, T.,E. Modifying soybean oil for enhanced performance in biodiesel blends Fuel Processing Technology 86 2005 1137 1147
  32. Drown, D.C. Harper, K. Frame E. Screening Vegetable Oil Alcohol Esters as Fuel Lubricity Enhancers JAOCS 78 6 2001 579 84
  33. Spedding, H. Watkins, R.C. The antiwear mechanism of ZDDP's Tribology International February 1982 9 12
  34. Kinney, A.J. Clemente, T.E. Modifying soybean oil for enhanced performance in biodiesel blends Fuel Processing Technology 86 2005 1137 47
  35. Monyem, A. Van Gerpen, J.H. The effect of biodiesel oxidation on engine performance and emissions Biomass and Bioenergy 20 2001 317 25
  36. Hu, J. Du, Z. Li, C. Min, E. Study on the lubrication properties of biodiesel as fuel lubricity enhancers Fuel 84 2005 1601 06
  37. Geller, D. P. Goodrum, J. W. Effects of specific fatty acid methyl esters on diesel fuel lubricity Fuel 83 2004 2351 56
  38. Goncalves, I.M. Murillo, M. Gonzolez, A.M. Determination of metals in used oils by aas using emulsified samples Talanta 47 1998 1033 42
  39. Ekanem, E.J Lori J.A. Thomas S.A. The determination of wear metals in used lubricating oils by flame atomic absorption spectrometry using sulphanilic acid as ashing agent Talanta 44 1997 2103 08
  40. Nadkarni, R.K. Elemental Analysis, Manual 37: Fuels and Lubricants Handbook Totten, G.,E. ASTM International 707 16
  41. Reis, B.F. Knochen, M. Pignalosa, G. Cabrera, N. Giglio, J. A multicommuted flow system for the determination of copper, chromium, iron and lead in lubricating oils with detection by flame AAS Talanta 64 2004 1220 25
  42. Palus, J.Z. Examination of Used Motor Oils by Flame AAS for criminalistic purposes: A diagnostic study Forensic Science International 91 1998 171 79
  43. Kalam, M.A. Masjuki, H.H. Biodiesel from palm oil - An analysis of its properties and potential Biomass & Bioenergy 23 2002 471 79
  44. Masjuki, H.H. Maleque, M.A. Kubo, A. Nonaka, T Palm oil and mineral oil based lubricants, their tribological and emission performance Tribology International 32 1999 305 14
  45. Tung, S.C. McMillan, M.L. Automotive tribology, overview of current advances and challenges for the future Tribology International 37 2004 517 36
  46. Nagai, I. Endo, H. Nakamura, H. Yano, H. Soot and valve train wear in passenger car diesel engines SAE 831757 1983
  47. Jones, M.H. Ferrography applied to diesel engine oil analysis Wear 56 1979 93 103
  48. Pocock, G. Courtney, S.J. Some quantitative aspects of ferrography Wear 67 1981 287 301
  49. 49 Hofman, M.V. Johnson, J.H. The development of ferrography as a laboratory wear measurement method for the study of engine operating conditions on diesel engine wear Wear 44 1977 183 99
  50. Agarwal, A.K. Bijwe, J. Das, L.M. Wear assessment in a Biodiesel fuelled compression ignition engine Transaction of the ASME, Journal of engineering for gas turbines and power 125 2003 820 26
  51. Agarwal, A.K. Experimental investigations of the effect of biodiesel utilization on lubricating oil tribology in diesel engines Proceedings of IMechE, part D: journal of Automobile Engineering 219 2005 703 12
  52. 1980
  53. Fox, M.F. Pawlak, Z. Picken, D.J. Acid-base determination of lubricating oils Tribology International 24 6 1991 335 39
  54. Fox, M.F. Picken, J. D. Pawlak, Z. The effect of water on the acid-base properties of new and used IC engine lubricating oils Tribology International 23 3 1990 183 87

Cited By

Recommended Content

Technical Paper Field Trials of Biodiesel (B100) and Diesel Fuelled Common Rail Direct Injection Euro-III Compliant Sports Utility Vehicles in Indian Conditions
Technical Paper Morphological Characterization of Gasoline Soot-in-Oil: Development of Semi-Automated 2D-TEM and Comparison with Novel High-Throughput 3D-TEM
Technical Paper Impact of E100 Fuel on Bearing Materials Selection and Lubricating Oil Properties