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1.
Improving Combustion of CNG Engine Through Changing Combustion Chamber Shape and Injection Pattern;
燃烧室形状和喷气规律对天然气发动机燃烧的改善
2.
Investigation on the Effects of Combustion Chamber and CNG Injection Timing of CNG Engine;
燃烧室形状和喷气时刻对CNG发动机燃烧影响的研究
3.
Effects of Fuel Injection Timing and Combustion Chamber Geometry on Combustion Process and Emissions of Diesel Engine
喷油定时和燃烧室形状对柴油机燃烧及排放的影响
4.
Effect of Combustion Chamber Geometry on Combustion Process in Spark Ignition Natural Gas Engine
燃烧室形状对天然气发动机燃烧过程影响的研究
5.
Effect of Combustion Chamber Shape on Performance of Natural Gas Engine;
燃烧室形状对天然气发动机性能的影响
6.
Study on Combustion Chamber Shape and Injection Law for Direct Injection Diesel Engine
直喷柴油发动机燃烧室形状和喷射规律研究
7.
Numerical Simulation of Air Flow in the Cylinder of Diesel Engine Affected by the Shape of Combustion Chamber;
燃烧室形状对柴油机缸内气流运动影响的数值模拟研究
8.
Research on Numerical Simulation of Two-Phase Reacting Flow Field and Combustion Performance of Annular Combustors;
环形燃烧室两相燃烧流场与燃烧性能数值研究
9.
Effect of Combustion Chamber Outlet Geometry of Industrial Boilers on Energy Saving and Emission Reducing
工业锅炉燃烧室出口形状对节能减排的影响
10.
Numerical investigation of influence of swirler on combustion performance in annular combustors
数值研究涡流器对环形燃烧室燃烧性能的影响
11.
combustion efficiency
燃烧效率燃烧室效率
12.
Acoustic excitation sources, high order modes and cutoff frequencies of noise were discussed for an annular combustion chamber.
论述了燃烧室的声激励源、环形燃烧室内高阶声模态及其截止频率。
13.
Measurements of the flow fields in a model annular combustor using particle image velocimetry
应用PIV技术测试模型环形燃烧室流场
14.
Numerical Simulation of Three-Dimensional Flow Field of Annular Combustor for Aero-Derivative Gas Turbine
航改燃气轮机环形燃烧室三维全流场数值模拟
15.
"These high-voltage surges then cause electric sparks in the combustion chambers. The sparks ignite, or set fire to, the air-fuel mixture in the combustion chambers so that it Burns and causes the engine to operate."
高压电脉冲在燃烧室中形成电火花,引燃燃烧室中的可燃混合气,使发动机运转.
16.
After hydrogen injecting,firstly,a combustion flow pattern developed in the combustion chamber with the flow velocity being supersonic on average.
注入氢后,首先在燃烧室内形成平均流速是超声速的燃烧流动。
17.
Numerical Simulation Was Made of the Combusting Flow in the Gas Turbine Combustion;
燃气轮机燃烧室燃烧流场的数值模拟
18.
The underside forms the combustion chamber with the top of the piston.
气缸盖下面与活塞顶上的空间形成燃烧室。