论文信息 - In-cylinder heat transfer characteristics of hydrogen fueled engine: a steady state approach

In-cylinder heat transfer characteristics of hydrogen fueled engine: a steady state approach

This study presents in-cylinder heat transfer characteristics of a single cylinder port injection Hydrogen fueled Internal Combustion Engine (H2ICE) using a steady state approach. Problem statement: The differences in characteristics between hydrogen and hydrocarbon fuels are led to the difference in the behavior of physical processes during engine cycle. One of these processes is the in-cylinder heat transfer. Approach: One dimensional gas dynamic model was used to describe the heat transfer characteristics of the engine. The engine speed was varied from 2000-5000 rpm, crank angle from -40° to +100°, while Air-Fuel Ratio (AFR) was changed from stoichiometric to lean limit. Results: The simulated results showed higher heat transfer rate but lower heat transfer to total fuel energy ratio with increasing the engine speed. The in-cylinder pressure and temperature were increased with decreasing AFR and increasing engine speed. The in-cylinder air flow rate was increased linearly with increasing engine speed as well as air fuel ratio. Conclusion/Recommendations: The results showed that the AFR has a vital effect on characteristics variation while the engine speed has minor effect. These results can be utilized for the study of combustion process, fuel consumption, emission production and engine performance.

[1] Mohd Zamri Yusoff,et al. A Quasi One-dimensional Simulation of a 4 Stroke Spark Ignition Hydrogen Fuelled Engine , 2005 .

[2] Soo-Chul Lee,et al. Combustion characteristics of intake port injection type hydrogen fueled engine , 1995 .

[3] A. R. Noorpoor,et al. Flow Simulation in Engine Cylinder with Spring Mesh , 2008 .

[4] Daniel C. Haworth,et al. Multidimensional Port-and-in-Cylinder Flow Calculations and Flow Visualization Study in an Internal Combustion Engine with Different Intake Configurations , 1994 .

[5] Rosli Abu Bakar,et al. Effects of Air-Fuel Ratio and Engine Speed on Performance of Hydrogen Fueled Port Injection Engine , 2009 .

[6] Rosli Abu Bakar,et al. Numerical Study on the Performance Characteristics of Hydrogen Fueled Port Injection Internal Combustion Engine , 2009 .

[7] Baris Ozerdem,et al. An experimental study on performance and emission characteristics of a hydrogen fuelled spark ignition engine , 2007 .

[8] G. Woschni. A Universally Applicable Equation for the Instantaneous Heat Transfer Coefficient in the Internal Combustion Engine , 1967 .

[9] R. Steeper,et al. The hydrogen-fueled internal combustion engine : a technical review. , 2006 .

[10] Rosli A. Bakar,et al. Effects of Air Fuel Ratio and Injection Timing on Performance for Four-Cylinder Direct Injection Hydrogen Fueled Engine , 2009 .