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Tytuł artykułu

The theoretical investigation on influence the fuel spray geometry on the combustion and emission characteristic of the marine diesel engine

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents an analysis of the influence of the fuel spray geometry on the combustion and emission characteristic of the marine 4-stroke Diesel engine. Presented analysis was prepared based on computational fluid dynamic model (CFD). Initial and boundary conditions of the model as well as data used to model validation were collected during the laboratory study. Calculations were conducted for two different fuel injectors with changed nozzle holes diameters, the number of nozzle holes and the angle between holes axis. The increase of the fuel nozzle holes diameter causes the decrease of the fuel spray tip penetration, but simultaneously the decrease of holes number causes that auto-ignition delay is not changed. The increase of the angle between holes axis from 150° to 158° causes fuel ingintion near cylinder head wall. Result of this is the increase of CO fraction. The deterioration of fuel combustion causes the decrease of NOx mass fraction in the cylinder also.
Czasopismo
Rocznik
Strony
101--107
Opis fizyczny
Bibliogr. 26 poz., wykr.
Twórcy
autor
  • Faculty of Marine Engineering at Gdynia Maritime University
Bibliografia
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  • [4] GIMENO, J., BRACHO, G., MARTÍ-ALDARAVÍ, P., PERAZA, J.E. Experimental study of the injection conditions influence over n-dodecane and diesel sprays with two ECN single-hole nozzles. Part I: Inert atmosphere. Energy Conversion and Management. 2016, 126, 1146-1156.
  • [5] HEYWOOD, J. B., SHER, E. The two-stroke cycle engine. its development, operation, and design. Taylor&Francis N.Y. 1999.
  • [6] HOSEINI, S.S., NAJAFI, G., GHOBADIANA, B. et al. The effect of combustion management on diesel engine emissions fueled with biodiesel-diesel blends. Renewable and Sustainable Energy Reviews. 2017, 73, 307-331.
  • [7] KAPUSTA, Ł.J., PIELECHA, I., WISŁOCKI, K., TEODORCZYK, A. Autoignition and combustion of n-hexane spray in subcritical and supercritical environments. J Therm Anal Calorim. 2016, 123(1), 819-828.
  • [8] KIM, H.J., PARK, S.H., LEE, C.S. Impact of fuel spray angles and injection timing on the combustion and emission characteristics of a high-speed diesel engine. Energy. 2016, 107, 572-579.
  • [9] KIPLIMO, R., TOMITA, E., KAWAHARA, N., YOKOBE, S. Effects of spray impingement, injection parameters, and EGR on the combustion and emission characteristics of a PCCI diesel engine. Appl Therm Eng. 2012, 37, 165-75.
  • [10] KOWALSKI, J. An experimental study of emission and combustion characteristics of marine diesel engine with fuel pump malfunctions. Applied Thermal Engineering. 2014, 65, 469-476.
  • [11] KOWALSKI, J. An experimental study of emission and combustion Characteristics of marine diesel engine with fuel Injector malfunctions. Polish Maritime Research. 2016, 23(1), 77-84.
  • [12] KOWALSKI, J. Influence of fuel injector holes diameter on parameters of combustion process in the cylinder of the marine 4-stroke diesel engine. Journal of Polish CIMEEAC. 2016, 11(1), 95-102.
  • [13] KOWALSKI, J. The analysis of influence of fuel spray angle on NOx fraction in the exhaust gas from marine 4-stroke diesel engine. Journal of Kones. 2015, 22(3), 309-316.
  • [14] KOWALSKI, J. The model of combustion process in the marine 4-stroke engine for exhaust gas composition assessment. Combustion Engines. 2016, 165(2), 60-69.
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  • [17] PARK, J., JANG, J.H., PARK, S. Effect of fuel temperature on heavy fuel oil spray characteristics in a common-rail fuel injection system for marine engines. Ocean Eng. 2015, 104, 580-589.
  • [18] PARK, Y., HWANG, J., BAE, C. et al. Effects of diesel fuel temperature on fuel flow and spray characteristics. Fuel. 2015, 162, 1-7.
  • [19] PAYRI, R., SALVADOR, F.J., GIMENO, J., PERAZA, J.E. Experimental study of the injection conditions influence over n-dodecane and diesel sprays with two ECN singlehole nozzles. Part II: Reactive atmosphere. Energy Conversion and Management. 2016, 126, 1157-1167.
  • [20] PAYRI, R., TORMOS, B., SALVADOR, F.J., ARANEO L. Spray droplet velocity characterization for convergent nozzles with three different diameters. Fuel. 2008, 87, 15-16.
  • [21] SOM, S., RAMIREZ, A.I., LONGMAN, D.E., AGGARWAL, S.K. Effect of nozzle orifice geometry on spray, combustion, and emission characteristics under diesel engine conditions. Fuel. 2011, 90, 1267-1276.
  • [22] SOM, S., RAMIREZ, A.I., LONGMAN, D.E., AGGARWAL, S.K. Effect of nozzle orifice geometry on spray, combustion, and emission characteristics under diesel engine conditions. Fuel. 2011, 90(3), 1267-1276.
  • [23] SUH, H.K., PARK, S.W., LEE, C.S. Effect of piezo-driven injection system on the macroscopic and microscopic atomization characteristics of diesel fuel spray. Fuel. 2007, 86, 2833-2845.
  • [24] TAGHAVIFAR, H., KHALILARYA, S., JAFARMADAR, S., BAGHERY, F. 3-D numerical consideration of nozzle structure on combustion and emission characteristics of DI diesel injector. Applied Mathematical Modelling. 2016, 40(19-20), 8630-8646.
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fd8b786b-6c65-4704-87b5-a8da7ab0581f
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