【摘 要】
:
A reliable and energy-saving engine system deeply depends on a large degree of the optimal control of fuel injection,ignition,and fuel/air mixing process in the combustion chamber.In the last two deca
【机 构】
:
Department of Mechanical and Automation Engineering,Kao Yuan University,Kaohsiung,Taiwan
【出 处】
:
13th International Conference on Liquid Atomization and Spra
论文部分内容阅读
A reliable and energy-saving engine system deeply depends on a large degree of the optimal control of fuel injection,ignition,and fuel/air mixing process in the combustion chamber.In the last two decades,Gasoline Direct Injection(GDI)engines have caught the attentions of engine manufacturers worldwide because of their potential to rival the economical fuel improvement,better transient response,precise air/fuel ratio control,and selective emissions advantages.The objective of this study is to analyze the spray characteristics of injectors for military GDI engines based on the spray pattern and performance of the injectors in an ambient pressure.The experiments are conducted using a single-hole injector manufactured by BOSCH for GDI engines.Instead of JP-8,the kerosene is injected into the ambient and is measured using laser-based quantitative flow diagnostics.The transient evolution of spray is also numerically calculated and compared with measured data.Based on the results,the fuel spray is determined to have a sac(sacrificing volume)spray and a main spray with a wider hollowcone structure.The results also show that the numerical calculated spray phenomena have a good agreement with the measured results.The measured spray characteristics can suitably provide bases for military GDI engine design and modifications and for development of control strategy.
其他文献
Analytical and experimental studies have been performed to predict discharge coefficients of open-type swirl injectors. The open-type swirl injectors with various geometries in tangential inlet diamet
A liquid fuel sheet injected into the combustor of gas turbine engine is deformed and atomized by the complex interactions between the liquid and high-speed air flows.However,the detailed atomization
The objective of this study was to reveal the characteristics of shaping air(SA)induced atomization of liquid filaments generated at the edge of a rotating bell cup used in spray painting equipment.A
In order to develop a throttleable rocket engine,variable area injector is known as a suitable choice because it is difficult to control thrust using a fixed shape injector with high-efficiency.In add
The study of single droplet impact onto thin films of a different liquid(two-component droplet wall-film interaction)has a great number of industrial applications like combustion processes,spray freez
In a direct injection spark ignition(DISI)engine,the spray impingement on cylinder wall and piston creates a significant challenge to the homogeneity of fuel-air mixture formation in the engine cylind
Several studies have been performed in order to investigate the morphological and dynamic parameters of adroplet during the impact onto a rigid wall.Most of them involve single droplets,but very few a
This paper presents numerical studies on spray painting processes by using three different atomizers,i.e.a high-speed rotary bell atomizer,an airless gun and a pneumatic air spray gun.A commercial CFD
The behavior of single free falling droplets impinging onto a flat surface has been extensively studied both experimentally and numerically.Nevertheless,conventional numerical methods require the empi
We investigate the impact of a liquid droplet on a solid or liquid surface,modelled by the Navier Stokes equations in the gas and liquid phases.The equations are solved by discretizing the fields on a