Design Optimization of Muffler of an Internal Combustion Engine using Computational Fluid Dynamics
L.Prabhu1, R.Mahesh2, Venkatesan.L3, Buse Sai Teja4, Shaik Shahul5
1L.Prabhu*, Professor, Department of Mechanical Engineering, Aarupadai veedu Institute of Technology, Vinayaka Mission’s Research Foundation, Chennai, India.
2R.Mahesh, Assistant Professor, Department of Mechanical Engineering, Aarupadai veedu Institute of Technology, Vinayaka Mission’s Research Foundation, Chennai, India,
3Venkatesan.L, UG Scholar, Department of mechanical Engineering , Aarupadai veedu Institute of Technology, Vinayaka Mission’s Research Foundation, Chennai, India.
4Buse Sai Teja, UG Scholar, Department of mechanical Engineering , Aarupadai veedu Institute of Technology, Vinayaka Mission’s Research Foundation, Chennai, India.
5Shaik Shahul, UG Scholar, Department of mechanical Engineering , Aarupadai veedu Institute of Technology, Vinayaka Mission’s Research Foundation, Chennai, India.

Manuscript received on January 09, 2020. | Revised Manuscript received on January 22, 2020. | Manuscript published on January 30, 2020. | PP: 2922-2927 | Volume-8 Issue-5, January 2020. | Retrieval Number: E3107018520/2020©BEIESP | DOI: 10.35940/ijrte.E3107.018520

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Abstract: A Muffler is a gadget for lessening the measure of clamor produced by the fumes of an inner burning motor. Inner burning motors are commonly furnished with a fumes suppressor (Silencer) created by the ignition procedure to smother the acoustic beat. The direct cause of back pressure in the engine will be the stress and temperature of exhaust gases that flow through the silencer. To relieve the back pressure in the exhaust system, the engine power must be used. Execution of Muffler underneath different working state is typically acquired through design analysis. Accessibility of compressible flow execution parameters is limited, and trial testing can be cost restrictive. The mathematical fluid Dynamics analysis provides better results for this case. The ability to use analytical fluid components is a test to determine their suitability to determine the conditions of their display. The venture’s goal is to examine t he gases gas stream attributes in the suppressor’s current and modified structure. Our effort is to focus on enhancing the structure so that there is less back weight and silencer’s expanded existence. The Computational Fluid elements investigation would be completed by utilizing CFD apparatus CFX. With parameters such as weight and temperature dissemination, disturbance power and liquid power at different load conditions, an extensive report would be done.
Keywords: CFD, Muffler.
Scope of the Article: Waveform Optimization for Wireless Power Transfer.