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Effects of Needle Response on Spray Characteristics In High Pressure Injector Driven by Piezo Actuator for Common-Rail Injection System  

Lee Jin Wook (School of Mechanical and Aerospace Engineering, College of Engineering, Seoul National University)
Min Kyoung Doug (School of Mechanical and Aerospace Engineering, College of Engineering, Seoul National University)
Publication Information
Journal of Mechanical Science and Technology / v.19, no.5, 2005 , pp. 1194-1205 More about this Journal
Abstract
The common-rail injection systems, as a new diesel injection system for passenger car, have more degrees of freedom in controlling both the injection timing and injection rate with the high pressure. In this study, a piezo-driven injector was applied to a high pressure common-rail type fuel injection system for the control capability of the high pressure injector's needle and firstly examined the piezo-electric characteristics of a piezo-driven injector. Also in order to analyze the effect of injector's needle response driven by different driving method on the injection, we investigated the diesel spray characteristics in a constant volume chamber pressurized by nitrogen gas for two injectors, a solenoid-driven injector and a piezo-driven injector, both equipped with the same injection nozzle with sac type and 5-injection hole. The experimental method for spray visualization was based on back-light photography technique by utilizing a high speed framing camera. The macroscopic spray propagation was geometrically measured and characterized in term of the spray tip penetration, spray cone angle and spray tip speed. For the evaluation of the needle response of the above two injectors, we indirectly estimated the needle's behavior with an accelerometer and injection rate measurement employing Bosch's method was conducted. The experimental results show that the spray tip penetrations of piezo­driven injector were longer, on the whole, than that of the solenoid-driven injector. Besides we found that the piezo-driven injector have a higher injection flow rate by a fast needle response and it was possible to control the injection rate slope in piezo-driven injector by altering the induced current.
Keywords
Piezo Actuator; Injector; Diesel Spray; Common-rail Type Fuel Injection System;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
Times Cited By Web Of Science : 1  (Related Records In Web of Science)
Times Cited By SCOPUS : 2
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1 Tanaka, H., Sato, Y. and Urai, T., 2001, 'Development of a Common-Rail Proportional Injector Controlled by a Tandem Arrayed Giant-Magnetostrictive-Actuator,' SAE Paper 2001-01-3182
2 Taylor, C. and Washington, G., 2003, 'The Application of Piezoceramic Actuation to Direct Fuel Injection,' SAE Paper 2003-32-0001
3 Lee, J. W., 2003, 'Design and Development of Common-Rail Injection System for Next generation,' Annual Report of Korea Institute of Machinery and Materials
4 Lee, J. W., Bae, J. W., Kim, H. N., Kang, K. Y. and Min, K. D., 2004, 'Effect of Injection Hole and Needle-driven Characteristics on Pilot Spray in High Pressure Injector with Common-rail system,' Transaction of Liquid Atomization and Spray Systems-Korea, Vol. 9, No. 1, pp. 8-14.   과학기술학회마을
5 Manfred, D., Helmut, E. and Peter, F., 1994, 'Preinjection a Measure to Optimize the Emission Behavior of DI Diesel Engine,' SAE Paper 940674
6 Morita, K., 2003, 'Automotive Power Source in 21st Century,' JSAE Review, Vol. 24, pp. 1-5   DOI   ScienceOn
7 Payri, R., Molina, S., Salvador, F. J. and Gimeno, J., 2004, 'A Study of the Relation Between Nozzle Geometry, Internal Flow and Sprays Characteristics in Diesel fuel Injection Systems,' KSME International Journal, Vol. 18, No. 7, pp. 1222-1235   과학기술학회마을
8 Renner, G., Koyannagi, K. and Maly, R. R., 1998, 'Effect of Common Rail Injector Design in the Emission Characteristics of Passenger Car DI Engines,' The 4th International Symposium COMODIA 98, pp. 477-482
9 Kunkulagunta, K. R., 2000, 'Video Imaging and Analysis of Common Rail Sprays in an Optical Engine Using Shadowgraphy Technique,' SAE 2000-01-1255
10 Erlach, H., Chmela, F., Cartellieri, W. and Herzog, P. L., 1995, 'Pressure Modulated Injection and Its Effect on Combustion and Emissions of a HD Diesel Engine,' SAE Paper 952059
11 European Patent, 1993, No. 0 426 205
12 Fettes, C. and Leipertz, A., 2001, 'Potential of a Piezo-Driven Passenger Car Common Rail System to Meet Future Emission Legislations-An Evaluation by Means of In-Cylinder Analysis of Injection and Combustion,' SAE Paper 2001-01-3499
13 Flaig, U., Polach, W. and Ziegler, G., 1999, 'Common Rail System for Passenger Car DI Diesel Engines; Experience with Application for Series Production Projects,' SAE Paper 199901-0191
14 Kohketsu, S., Tanabe, K. and Mori, K., 2000, 'Flexibly Controlled Injection Rate Shape with Next Generation Common Rail System for Heavy Duty DI Diesel Engines,' SAE Paper 2000-01-0705
15 Follansbee, P. S., 2002, Instruction Guide of Diesel Piezo-Injector Controller. The ScienLab Electronic Systems, DICU200/20CA, 1-9
16 Ganser, M. A., 1998, 'Common Rail Injector with Injection Rate Control,' SAE Paper 981927
17 Gill, D. W. and Herzog, P. L., 1993, 'Fuel Injection Equipment Requirements for Low-Emission DI Diesel Engines,' SAE Paper 933373
18 Beidl, C. V., Gill, D. W., Cartellieri, W. and Rust, A., 1998, 'Impact of Emissions and Fuel Economy Requirements on Fuel Injection System and Noise of HD Diesel Engines,' SAE Paper 980176
19 Bianchi, G. M., Pelloni, P., Filicori, F. and Vannini, G., 2000, 'Optimization of the Solenoid Valve Behavior in Common-Rail Injection Systems,' SAE Paper 2000-01-2042
20 Bianchi, G. M., Falfari, S., Parotto, M. and Osbat, G., 2003, 'Advanced Modeling of Common Rail Injectior Dynamics and Comparison with Experiments,' SAE Paper 2003-01-0006
21 Coldren, D. R. and Moncelle, M. E., 1997, 'Advanced Technology Fuel System for Heavy Duty Diesel Engines,' SAE Paper 973182
22 Boehner, W. and Hummel, K., 1997, 'Common Rail Injection System for Commercial Diesel Vehicles,' SAE Paper 970345
23 Chang, C. T. and Farrell, P. V., 1997, 'Effects of Fuel Viscosity and Nozzle on High Injection Pressure Diesel Spray Characteristics,' SAE Paper 970353