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- CFD Analysis of Exhaust Gas Flow Through Muffler
In the present work, our focus is on understanding the effects of velocity, pressure, and temperature variations during gas flow by altering the inlet tube length and material composition of the muffler, thereby contributing to a more comprehensive understanding of flow distribution
- Analysis of Various Automotive Mufflers: Computational Fluid . . .
Kumar et al (2021) used pressure conditions as inlet and outlet boundary conditions and thermal analysis and backpressure were simulated using ANSYS Fluent for a muffler [12]
- CFD analysis of an exhaust manifold for emission reduction
This section describes the analysis of the pressure and velocity variations of the CATCON and SCR by considering inlet velocity and flow rate of the exhaust gases are 0 16 m s and 10 12 kg h, respectively
- (PDF) CFD analysis on the effects of exhaust backpressure . . .
Results of CFD simulation was showed in the form of pressure and velocity contours and streamline This study found the modification of exhaust piping design of the 4-stroke marine diesel generator increased the backpressure up to 94 7%
- On the Accuracy of Turbulence Model Simulations of the . . .
This study investigating the accuracy of turbulence model simulations of the exhaust manifold using computational fluid dynamics (CFD) carries significant implications By modeling and analyzing the flow of emissions, we aim to identify areas of high stress and pressure, minimize the pressure drop, and maximize the flow of exhaust gases
- Case Study – CFD analysis of an exhaust manifold
By simulating the flow of exhaust gases, CFD allows for the meticulous crafting of manifold geometries that optimize exhaust gas scavenging, thereby reducing turbo lag and enhancing engine performance
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