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2013 | 13 | 3 |

Tytuł artykułu

Diesel operation efficiency improvement based on modelling of fuel carburetion process

Treść / Zawartość

Warianty tytułu

RU
Povyshenie ehffektivnosti raboty dizelja na osnovanii modelirovanija processa smeseobrazovanija topliva

Języki publikacji

EN

Abstrakty

EN
RU

Wydawca

-

Rocznik

Tom

13

Numer

3

Opis fizyczny

p.9-14,fig.,ref.

Twórcy

  • Azov Maritime Institute, Odessa National Maritime Academy, Chernomorskaya Str. 19, Mariupol, 87517, Ukraine
autor
  • Pryazovskiy State Technical University, Universytets'ka Str. 7, Mariupol, 87500, Ukraine
  • Azov Maritime Institute, Odessa National Maritime Academy, Chernomorskaya Str. 19, Mariupol, 87517, Ukraine

Bibliografia

  • 1.Aceves S. M., Flowers D. L., 2005.: A detailed chemical kinetic analysis of low temperature, non-sooting diesel engine. Paper No. SAE 2005-01-0923.
  • 2.Baykov B. P., 1964.: Diesels: Reference book. Lvov, Mashinostroenie, 600.
  • 3.Espey С., Pinson J. A., Litzinger Т. A., 1990.: Swirl effects on mixing and flame evolution in a research Dl diesel engine, Paper No. SAE 902076.
  • 4.Gavrilov У. V., 2009.: Modeling of the fuel dispersion processes in the ship diesel engine. Journal of the water transport university, Iss. 2., 9196.
  • 5.Golubenko A.L., Nozhenko Y.S., Mogila V.l., 2010.: The simulation of the operation of diesel locomotive d49 when using the ozonized fuel. TEKA Commission of Motorization and Power Industry in Agriculture, XC, 5-11.
  • 6.Hiroyasu H., Arai M., Tabati. M., 1989.: Empirical Equations for the Sauter Mean Diameter of a Diesel Spray. Paper No. SAE 890464.
  • 7.Ivashchenko N. A., 1997.: Multizone models of the operational processes of the internal combustion engines. Moscow, Bauman MSTU, 58.
  • 8.Kitamura Т., Ito Т., Senda J., Fujimoto H., 1999.: Detailed chemical kinetic modeling of diesel spray combustion with oxygenated fuels. SAE Paper 199901-1136, 1999.
  • 9.Kook S., Bae C., 2004.: Combustion control using two-stage diesel fuel injection in a single-cylinder PCCI engine. SAE paper, No. 2004-01-0938.
  • 10.Kuschenko A., Chernetskay N., , Kapustin D., 2012.: Experimental research of hydrotransporting concentrated residues at solid fuel burning. TEKA Commission of Motorization and Power Industry in Agriculture, Vol.12, №4, 5-11.
  • 11.Leva M., 1961.: Pseudo-liquefaction. Moscow, Gostoptekxizdat, 164.
  • 12.Lutsenko A., Mogila V.l., 2011.: Complex research results of the evaporative conditioner for diesel locomotive cab. TEKA Commission of Motorization and Power Industry in Agriculture, XIA, 137-145.
  • 13.Lyshevskiy A.S., 1963.: Processes of dispersing fuel by diesel injectors. Moscow, Mashgiz, 179.
  • 14.Maxwell J.C., 1890.: Collected Scientific Papers Cambridge. Vol. 11, Cambridge: Cambridge University Press, 625.
  • 15.Mehdiyev R., ísmailov A., Ergeneman M., ęalik A.T., §an D. and Yildirim M., 2002.: Diesel engines with new fuel-air mixture formation and combustion mechanism. OTEKON'02 Automotive Technology Congress, Bursa, Turkey, 205-210.
  • 16.Mushtaev V. I., 1988.: Drying of the dispersive materials. Moscow, Chemistry, 352.
  • 17.Naber J. D., Reitz R. D. 1988.: Modeling engine spray/wall impingement. SAE paper, No. 880107.
  • 18.Nakakita K., Miwa K., Ohsawa K., Takahashi Т., Watanabe S., 1991.: Effects of high pressure fuel injection on the combustion and exhaust emission of a high-speed Dl diesel engine. JSAE Review, Vol. 12, No.l.
  • 19.Razleytsev N.F., 1980.: Modeling and optimization of combustion process in diesel engines. Kharkov: Vysshaya shkola, 169.
  • 20.Selivanov S.E., 2011.: Kinetics droplet evaporation of liquid fuels liquid fuels. KNADU Bulletin, Vol. 52., Pp. 105-109.
  • 21.Singal S. K., Pundir B. P., Mehta P. S., 1993.: Fuel spray-air motion interaction in Dl diesel engines: Paper No. SAE 930604.
  • 22.Sreznevskiy В. I., 1982.: Om evaporation of the liquids. ZhRFHO, Vol. 14, Iss. 8, 420-442.
  • 23.Yatsenko A. F., 2012.: Theoretical and experimental research of air and water ejector. Scientific works of DonNTU, Iss. 196., 247-253.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-f5c6b859-2c91-414a-b8ab-f311d82d068e
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