Keywords: موتور دست کشیدن; Nitric oxide; Engine knock; Autoignition; CFR engine;
مقالات ISI موتور دست کشیدن (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: موتور دست کشیدن; Octane numbers; Ignition delay times; Excitation times; Hot Spots; Developing detonation; Burning velocities; Engine knock;
Keywords: موتور دست کشیدن; Flame-shock interaction; Autoignition; Pressure oscillation; Engine knock;
Numerical study on transition of hydrogen/air flame triggered by auto-ignition under effect of pressure wave in an enclosed space
Keywords: موتور دست کشیدن; Engine knock; End gas auto-ignition; Flame transition; Pressure wave; Auto-ignition progress;
Keywords: موتور دست کشیدن; Kinetic model; Engine knock; Octane number; CFD;
Keywords: موتور دست کشیدن; Engine knock; Burning rate; Mass fraction burnt; Cantera; Chemical kinetics; Ignition delay;
Keywords: موتور دست کشیدن; Engine knock; Autoignition delay times; Natural gas; Hydrogen
Keywords: موتور دست کشیدن; ATDC; after top dead center; BTDC; before top dead center; COV; covariance of variation; DI; direct fuel injection; EDI; ethanol fuel direct injection; EEDI; early ethanol direct injection; ERR; ethanol/gasoline energy ratio; ECU; electronic control unit;
Keywords: موتور دست کشیدن; Modeling; Engine knock; Pressure oscillations; Internal combustion engine; Damped wave equation;
Keywords: موتور دست کشیدن; Engine knock; Super-knock; Auto-ignition; Primary Reference Fuel; Developing detonation;
Effect of turbulent mixing on the end gas auto-ignition of n-heptane/air mixtures under IC engine-relevant conditions
Keywords: موتور دست کشیدن; Engine knock; Turbulent mixing; End-gas auto-ignition; Negative temperature coefficient;
Dual-Fuel Spark Ignition (DFSI) combustion fuelled with different alcohols and gasoline for fuel efficiency
Keywords: موتور دست کشیدن; AFR; Air Fuel Ratio; APmax; Crank Angle of the Maximum Pressure; B; Fuel consumption rate; BSFC; Brake Specific Fuel Consumption; CA50; Crank angle for 50% MFB; DFSI; Dual-Fuel Spark Ignition; E-G; Ethanol PFI with Gasoline DI; ICE; Internal Combustion
A study on the combustion and emission characteristics of an SI engine under full load conditions with ethanol port injection and gasoline direct injection
Keywords: موتور دست کشیدن; Ethanol; Engine knock; Compression ratio; Particulate emission;
Comparative study on alcohols-gasoline and gasoline-alcohols dual-fuel spark ignition (DFSI) combustion for high load extension and high fuel efficiency
Keywords: موتور دست کشیدن; Alcohols; Gasoline; Dual-fuel spark ignition (DFSI) combustion; Engine knock;
Methanol-gasoline DFSI (dual-fuel spark ignition) combustion with dual-injection for engine knock suppression
Keywords: موتور دست کشیدن; Methanol-gasoline combustion; Dual-fuel spark ignition; Engine knock; PIDI (port fuel injection and direct injection);
Engine knock and combustion characteristics of a spark ignition engine operating with varying hydrogen and carbon monoxide proportions
Keywords: موتور دست کشیدن; Engine knock; Combustion; Synthesis gas; Spark ignition engines
Visualization of auto-ignition and pressure wave during knocking in a hydrogen spark-ignition engine
Keywords: موتور دست کشیدن; Hydrogen spark-ignition engine; Engine knock; Auto-ignition; Pressure wave; Spectrum analysis
Influence of autoignition delay time characteristics of different fuels on pressure waves and knock in reciprocating engines
Keywords: موتور دست کشیدن; Autoignition delay times; Autoignitive propagation speeds; Pressure waves; Engine knock
Knock detection in spark ignition engines by vibration analysis of cylinder block: A parametric modeling approach
Keywords: موتور دست کشیدن; Spark ignition engines; Engine knock; ARMA model; System identification
Prediction of knock limited operating conditions of a natural gas engine
Keywords: موتور دست کشیدن; Engine knock; Autoignition; Natural gas; Engine modeling; Zero-D model;