Browse > Article
http://dx.doi.org/10.7467/KSAE.2013.21.1.099

Study on the Optimum Design of High Pressure Common-rail DME Injector Nozzle with Consideration of Cavitation  

Jeong, Soo-Jin (Korea Automotive Technology Institute)
Park, Jung-Kwon (Korea Automotive Technology Institute)
Lee, Sang-In (Korea Automotive Technology Institute)
Publication Information
Transactions of the Korean Society of Automotive Engineers / v.21, no.1, 2013 , pp. 99-106 More about this Journal
Abstract
DME (Di-Methyl Ether) is synthetic product that is produced through dehydration of methanol or a direct synthesis from syngas. And it is able to save fossil fuel and reduce pollutants of emission such as PM and $CO_2$. In spite of its advantages it is difficult to design DME fuelled engine system because DME fuel may cause to severely generate cavitation and corrosion in fuel delivery system due to physical properties of DME. Therefore, in this study three-dimensional internal flow characteristics with consideration of cavitation were predicted in the DME injector using diesel and DME fuel. Moving grid technique was employed to describe needle motion and 1-D hydraulic simulation of injector was also simulated to obtain transient needle motion profiles. The results of simulation show that cavitations was generated at the inlet of nozzle near high velocity region both diesel and DME. And mass flow rate of DME is reduced by 4.73% compared to that of diesel at maximum valve lift because cavitation region of DME is much more larger. To increase flow rate of DME injector, internal flow simulation has been conducted to investigate the nozzle hole inner R-cut effect. The flow rates of diesel and DME increase as R-cut increases, and flow coefficient of DME fuel injector was increased by 6.3% on average compared with diesel fuelled injector. Finally, optimum shape of DME injector nozzle is suggested through the comparison of flow coefficient with variation of nozzle hole inner R-cut.
Keywords
Common-rail injector; Internal flow; DME; Cavitation; Effective flow area;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 S.-J. Jeong and S.-I. Lee, "Three Dimensional Numerical Analysis of Transient Internal Flow in High Pressure Common-rail DME Injector with Consideration of Cavitation," KSAE Annual Conference Proceedings, KSAE11- A0125, pp.677-683, 2011.
2 H. Teng and J. C. McCandless, "Comparative Study of Characteristics of Diesel-fuel and Dimethyl-ether Sprays in the Engine," SAE 2005-01-1723, 2005.
3 M. Konno, K. Chiba and T. Okamoto, "Experimental and Numerical Analysis of High Pressure DME Spray," SAE 2010-01-0880, 2010.
4 J. Cha, S. H. Park, C. S. Lee and S. W. Park, "Study on Spray and Exhaust Emission Characteristics of DME-biodiesel Blended Fuel in Compression Ignition Engine," Transactions of KSME(B), Vol.35, No.1, pp.67-73, 2011.   과학기술학회마을   DOI   ScienceOn
5 KATECH, Development of Fuel System and Combustion Technique for Next Generation Clean Alternative Fuel, DME, Industry Original Technology Development Report, MKE(Ministry of Knowledge Economy), 2010.
6 O. Chiavola and F. Palmieri, "Modeling Needle Motion Influence on Nozzle Flow in High Pressure Injection System," SAE 2007-01-0250, 2007.
7 F. R. Menter, "Two-equation Eddy-viscosity Turbulence Modeling for Engineering Applications," AIAA Journal, Vol.32, No.8, pp.1598- 1605, 1994.   DOI   ScienceOn
8 SATR-CCM+ Ver. 6.02 User Guide, CD-adapco, 2011.
9 DME Handbook, Japan DME Forum, 2006.
10 M. Battistoni and C. N. Grimaldi, "Analysis of Transient Cavitating Flows in Diesel Injectors Using Diesel and Biodiesel Fuels," SAE 2010- 01-2245, 2010.
11 P. G. Aleiferis, Y. Hardalupas, D. Kolokotronis, A. M. K. P. Taylor and T. Kimura, "Investigation of the Internal Flow Field of a Diesel Model Injector Using Particle Image Velocimetry and CFD," SAE 2007-01-1897, 2007.
12 J.-W. Lee and K. Min, "A Study on Relation of Needle-nozzle Flow of Piezo-driven Injector by using Eulerian-Lagrangian Multi-phase Method," Transactions of KSAE, Vol.18, No.5, pp.108- 114, 2010.   과학기술학회마을