| 魏涛,郭建军,邬斌扬,苏万华.柴油机进气掺混低浓度甲烷模拟研究[J].内燃机工程,2021,42(1):34-39. |
| Performance Simulation of Diesel Engine Intake Blended with Low Concentration Methane |
| DOI:10.13949/j.cnki.nrjgc.2021.01.006 |
| Key Words:diesel engine methane combustion characteristic emission characteristic simulation |
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| Abstract:In order to improve the operating safety of diesel engines in methane-rich mines, three-dimensional computational fluid dynamics (CFD) software, CONVERGE, was used to simulate the influence of diesel engine intake blended with different volume concentrations of methane on engine performance and emissions. Results show that when the temperature of methane on fire is greater than 1000K, the blending of methane will increase the number of hydroxyl (OH) groups, which can promote the combustion of diesel engines. When the engine is running at 1200r/min and with 80% load, increasing the methane blending ratio to a volume concentration of 1.00% can shorten the ignition delay period from 7.35° in crank angle to 7.07° in crank angle, and increase the peak heat release rate by 0.1%, resulting in the maximum combustion pressure in the cylinder increased from 16.05MPa to 16.45MPa, and the maximum combustion temperature risen from 1737K to 1771K. For exhaust emissions, the use of methane increases NOx emission from 10.55g/(kW·h) to 11.36g/(kW·h) and hence CO emission from 0.12g/(kW·h) to 1.34g/(kW·h), but soot emissions can be decreased from 1.21×10-3g/(kW·h) to 7.85×10-4g/(kW·h). Considering that the volume concentration of methane in the air of mines is generally less than 0.7%, so it has little influence on operating safety of diesel engines. |
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