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A numerical analysis of the delivery pressure wave in a 210-kW/cyl fuel injection pump for medium-speed diesel engines
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 Title & Authors
A numerical analysis of the delivery pressure wave in a 210-kW/cyl fuel injection pump for medium-speed diesel engines
Kong, Kyeong-Ju; Jung, Suk-Ho; Lee, Sang-Deuk; Koh, Dae-Kwon;
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 Abstract
This paper presents a numerical analysis of the delivery pressure wave in a 210-kW/cyl fuel injection pump (P. Corporation, Changwon-si, Korea) for medium-speed diesel engines using Ansys Fluent R15.0. Results obtained from experiment and from numerical analysis of the fuel delivery pressure wave were compared and found to be similar, thereby confirming the reliability of the numerical analysis of the delivery pressure wave in the fuel injection pump.
 Keywords
Fuel injection pump;Computational fluid dynamics;Fuel delivery pressure wave;Medium speed diesel engines;
 Language
Korean
 Cited by
 References
1.
H. Rulfs and M. Wohnke, Cavitation Phenomena in Fuel Injection Pumps, CIMAC Congress Copenhagen, 1998.

2.
G. P. Michael and W. H. Richard, Investigation of Fuel Injection System Cavitation Problems on the MV James R. Barker. MV Mesavi Miner and MV William J. De Lancey, Marine Technology, 1985.

3.
J. H. Kim, A Study on the Possibility of Localization for the Fuel Injection Pump in L28/32H Middle Speed Diesel Engines, M.S. Thesis, Department of Control and Mechanical Engineering, Pukyong National University, Korea, 2015.

4.
S. H. Ryu, D. H. Kim, B. S. Kim, and T. H. Park, "Optical observation of cavitation phenomena in diesel fuel injection pumps," Journal of the Korean Society of Marine Engineering, vol. 35, no. 4, pp. 460-467, 2011. crossref(new window)

5.
T. H. Park, J. Y. Heo, and D. H. Kim, "Flow visualization to evaluate jet-plunger for preventing cavitation damage of fuel injection pumps on diesel engines," The 36th Korean Society of Marine Engineering Fall Conference, p. 149, 2012.

6.
P. M. Gomez-Aldaravi, Development of a Computational Model for a Simultaneous Simulation of Internal Flow and Spray Break-up of the Diesel Injection Process, Ph.D. Dissertation, Department of Thermal Engines and Machines, Universitat Politecnica de Valencia, Spain, 2014.

7.
Y. J. Yang, "Study on simulation of fuel injection pump for marine medium diesel engine," Journal of the Korean Society of Manufacturing Process Engineers, vol. 11, no. 6, pp. 123-129, 2012.

8.
D. T. Hountalas and A. D. Kouremenos, "Development of a fast and simple simulation model for the fuel injection system of diesel engines," Advances in Engineering Software, vol 29, no. 1, pp. 13-28, 1998. crossref(new window)

9.
B. Anna and T. Louise, CFD Simulation of a Safety Relief Valve for Improvement of a One-dimensional Valve Model in RELAP5, M.S. Thesis, Department of Applied Physics, Chalmers University of Technology, Sweden, 2012.

10.
ANSYS. Inc., Fluent Meshing Users Guide, pp.225-226, 2013.