- 作者:L. Andreassi ; S. Ubertini ; L. Allocca
- 关键词:High pressure diesel spray ; Spray/wall interaction ; Splash model ; Digital image post-processing ; Multi-dimensional numerical tool
- 刊名:International Journal of Multiphase Flow
- 出版年:2007
- 出版时间:July 2007
- 年:2007
- 卷:33
- 期:7
- 页码:742-765
- 全文大小:1669 K
The experimental tests are carried out with a high pressure (up to 120 MPa) diesel spray emerging from an axial disposed single-hole nozzle in an optically accessible vessel, pressurized up to 5.0 MPa at ambient temperature. The jet impacts on a flat stainless steel wall heated up to 500 °C by a 200 W temperature regulated electrical resistance wire. The experimental analysis is performed using a Bosh tube as the injection mass flow meter, a pulsed laser sheet generated on the second harmonic of a Nd-YAG laser and a synchronized CCD camera. Digital image post-processing allows extraction of the radial penetration and thickness growth of the impacted fuel versus injection pressure, vessel back-pressure and wall temperature. Moreover, a procedure to relate light intensity to average fuel density is proposed.
The numerical analysis is carried out by means of a multi-dimensional numerical tool, based on the KIVA-3V code. The spray–wall interaction is simulated through a phenomenological splash model available in literature and validated for low injection pressures (up to 300 bar) and ambient back-pressure. The comparison between experimental and numerical results demonstrates the inability of the model in predicting high pressure spray–wall interaction, especially under increasing back-pressures. Based on the experimental evidences, a modified version of the model is proposed and the new model is proven to be an adequate representation for different injection pressures and back-pressures.