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Feasibility Study for Using Jet Fuel in Diesel Engines

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Chemistry and Technology of Fuels and Oils Aims and scope

We have determined the primary jet fuel performance properties that have the greatest impact on how effectively they can be used in diesel engines, requiring improvement with the help of functional additives. We have studied the effect of a cetane improver additive based on 2-ethylhexyl nitrate and an antiwear additive based on higher carboxylic acids on the performance properties of jet fuels when they are used in diesel engines, and we have optimized their composition. We present the results of a study of the proposed fuel compositions based on jet fuel and functional additives, using laboratory and qualification methods and indicator properties for the D-245.125 engine cycle.

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References

  1. E. I. Gulin, Ignition and Burning of Fuels of Different Fraction and Group Hydrocarbon Composition in Diesel Engines [in Russian], VATT, Leningrad (1966). 144 pp.

  2. E. I. Gulin, D. P. Yakubo, V. A. Somov et al., Handbook of Fuel and Lubricant Materials in Marine Engineering [in Russian], Sudostroenie, Leningrad (1987), 224 pp.

  3. I. I. Gershman, Automotive Multifuel Compressed-Ignition Engines [in Russian], TsBTI (1961), 120 pp.

  4. L. A. Dem'yanov and S. K. Sarafanov, Multifuel Engines [in Russian], Voenizdat, Moscow (1968). 104 pp.

  5. L. A. Dem'yanov, S. K. Sarafanov et al., The Automotive Industry [in Russian], No. 3 (1961). 18 pp.

  6. GOST 32511-2013. EURO diesel fuel. Technical specifications.

  7. A. S. Safonov, A. I. Ushakov, and A. V. Oreshenkov, in: Quality of Automotive Fuels [in Russia], NPIKTs, St. Petersburg (2006), pp. 36-318.

  8. Tractor and Combine Diesel Engines. Bench test methods.

  9. A. G. Talishlinskii and G. L. Minkina, Orthogonal and Central Composite Rotatable Experimental Designs: Methodology Guidelines for Laboratory Research [in Russian], U1GTU, Ul'yanovsk (2005). 39 pp.

  10. T. N. Mitusova, E. V. Polina, and M. V. Kalinina, Modern Diesel Fuels and Fuel Additives [in Russian], Tekhnika, Moscow (2002). 64 pp.

  11. A. M. Danilov, Application of Automotive Fuel Additives [in Russian], Khimiya, Moscow (2000). 232 PP.

  12. A. M. Danilov, Khimiya i Tekhnologiya Topliv i Masel. No. 5,31-34 (2014).

  13. A. M. Danilov, Concise History of Fuel Additives [in Russian], Sputnik+, Moscow (2013). 22 pp.

  14. S. T. Bashkatova, Diesel Fuel Additives [in Russian], Khimiya, Moscow (1994). 256 pp.

  15. A. M. Danilov, Application of Fuel Additives. Handbook. Third Edition [in Russian], Klihnialat. St. Petersburg (2010). 366 pp.

  16. Russian Federation Patent 2525552.

  17. Russian Federation Patent 2280068.

  18. Russian Federation Patent 2280069.

  19. Russian Federation Patent 2355732.

  20. Russian Federation Patent 2378323.

  21. Russian Federation Patent 2267518.

  22. Russian Federation Patent 2401861.

  23. Russian Federation Patent 2332442.

  24. Russian Federation Patent 2422495.

  25. Russian Federation Patent 2410414.

  26. Russian Federation Patent 2165447.

  27. Russian Federation Patent 2161640.

  28. Russian Federation Patent 2436841.

  29. Russian Federation Patent 2167919.

  30. Russian Federation Patent 2237081.

  31. Russian Federation Patent 2568263.

  32. Russian Federation Patent 2254357.

  33. US Patent 20140060471.

  34. US Patent 2015337229.

  35. T. N. Mitusova, V. A. Lyubimenko, and A. S. Nedaiborshcht, Neftepererabotka i Neftekhimiya, No. 5, 32-36 (2015).

  36. Yu. M. Pimenov, Principles of Systems Analysis and Modeling in Chemmotology [in Russian], VATT, St. Petersburg (1999). 267 pp.

  37. A. V. Babin and D. F. Rakipov, Organization and Mathematical Design of an Experiment [in Russian], Ekaterinburg (2014). 112 pp.

  38. L. G. Astakhova (compiler), Mathematical Theory of Experimental Design: Methodology Guidelines for Laboratory Research [in Russian], Terek, Vladikavkaz (2014). 77 pp.

  39. A. V. Nikolaenko, E. P. Pavlov, and S. I. Chermidov, Computer-Assisted Determination of Parameters of an Internal Combustion Engine Cycle Using Indicator Diagrams [in Russian], LSIChl, Leningrad (1982). 32 pp.

  40. I. M. Lenin, Theory ofAutomotive and Tractor Engines [in Russian], Mashinostroenie, Moscow (1969). 368 pp.

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Authors and Affiliations

  1. Federal Aviation Administration 25 State Scientific Research Institute of Chenunotology of the Ministry of Defense of Russia, Moscow, Russia

    S. N. Volgin, I. V. Belov, N. M. Likhterova & D. A. Ukhanov

Authors
  1. S. N. Volgin
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  2. I. V. Belov
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  3. N. M. Likhterova
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  4. D. A. Ukhanov
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Correspondence to S. N. Volgin.

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Translated from Khimiya i Tekhnologiya Topliv i Masel, No. 3, pp. 22 — 30, May — June, 2019.

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Volgin, S.N., Belov, I.V., Likhterova, N.M. et al. Feasibility Study for Using Jet Fuel in Diesel Engines. Chem Technol Fuels Oils 55, 243–258 (2019). https://doi.org/10.1007/s10553-019-01027-3

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