Reducing Muffler Pressure Drop by 75% With CFD

Product
- What is SimScale?
  - OverviewLearn how SimScale helps engineers innovate faster
  - What’s New?See the latest features & product updates
- Physics
  - Fluid DynamicsLaminar & turbulent,(in)compressible & multiphase flow
  - Structural MechanicsStatic, dynamic, vibration & thermomechanical analysis
  - ThermodynamicsHeat transfer, thermomechanical & thermal management
  - ElectromagneticsLow-frequency electromagnetics simulations
- Technology
  - APICustomize & automate simulation workflows
  - Integrations & PartnersHow SimScale integrates with your existing workflow
  - SecuritySecure platform with data protection & privacy standards
  - Simulation Infrastructure ManagementLearn how SimScale comes with built-in SPDM capabilities
  - Simulation MethodsSee what’s under the hood of SimScale’s simulation capabilities
Solutions
- Industries
  - Architecture, Engineering & Construction (AEC)Meet the demands of modern architecture & sustainability
  - Aerospace & DefenseUse simulation to evaluate designs & predict performance
  - Automotive & TransportationIncrease automotive engineering innovation and efficiency
  - Consumer ProductsInnovate, prototype & optimize products faster
  - Electronics & High TechDesign more robust & reliable electronics faster
  - EnergyTest & optimize turbines, pumps, PV systems & more
  - Engineering ServicesVirtually test designs to deliver quality products
  - Life Sciences & HealthcareSimulate & optimize medical & pharma equipment design
  - Machinery & Industrial EquipmentReduce costs & time-to-market with digital prototyping
  - ManufacturingSave on physical prototyping costs & time
  - MarinePredict & optimize the performance of your design
  - TurbomachineryIncrease machinery performance & reduce R&D timelines
  - ValvesTest, validate & optimize several valve design versions
- Applications
  - Electronics Thermal ManagementOptimize your electronics cooling designs
  - Indoor EnvironmentSimulate & optimize indoor environment designs
  - Multiphase FlowSimulate multiphase flow with accuracy & speed
  - Nonlinear Structural AnalysisOptimize structural designs with changing stiffness
  - Turbomachinery CFDOptimize & improve efficiency of turbomachinery designs
  - Urban MicroclimateOptimize designs with wind & thermal comfort analysis
  - Valve CFDTest & optimize valve designs to increase performance
  - Vibration AnalysisMeasure vibrations & optimize structural designs
- Trends
  - BIMOptimize & inform your BIM workflow for maximum results
  - Cloud Solution for CAE SimulationDeploy simulation across your entire organization
  - Digital TransformationAccelerate digital transformation with cloud simulation
  - Sustainable DesignUnlock sustainability solutions & innovation
Resources
- Content Hub
  - BlogStay up-to-date with the latest articles
  - DocumentationRead detailed info on how to use the SimScale platform
  - Validation CasesView experimental/analytical validated simulations
  - WhitepapersDownload & read comprehensive CAE whitepapers
- Community
  - ForumDiscuss & get help on CAE & SimScale topics
  - Press ReleasesRead our latest press releases & news stories
  - Webinars & WorkshopsRegister for upcoming webinars & watch on-demand replays
- Academy
  - SimScale CPD for AECAchieve a SimScale CPD for AEC professionals
  - SimScale Learning CenterAccess 85 SimScale CFD & FEA training videos
Public Projects
Case Studies
Pricing

Car Muffler Design Optimization

One of the projects of SolidTrust was the optimization of a car muffler design’s performance, which is determined by three main factors:

dissipation of air arriving from the engine

exhaust air removal, power maintenance

engine performance

CFD Simulation of the Car Muffler with SimScale

At the same time, the design of a muffler also influences the amount of noise generated by the gas exhaust. SolidTrust carried out CFD simulations with SimScale to test and analyze the flow patterns within different proposed designs of the muffler, as well as to measure the pressure resistance of the device.

Airflow Analysis of the Muffler Design

For the numerical analysis of the flow, an incompressible, turbulent airflow model was chosen. The inlet conditions were kept at engine operating conditions of 28mps. The obtained data were analyzed with the aim of acquiring pressure drop from inlet to outlet, high and low air velocity areas, and overall flow patterns within the design.

A CFD analysis was performed on the original design of the manufacturer (OEM). The muffler included simple, long pipes inside 3 chambers. The results from this simulation were later used as a reference point for the improved designs.

The first proposed modification of the muffler involved the shortening of the inlet and outlet pipes. A complete redesign of the internal part of the chamber was performed, i.e., extra flow diverters were added and three rows of straight fins were introduced.

For the second version, additional channels between chambers were added and the fins were put at an angle.

CFD Analysis of the Car Muffler Design

The Results

Reduced Pressure Drop by 75% and Maximum Velocity by 44%

The modification of the muffler proved to significantly improve its performance. Even the first design iteration reduced the pressure drop by 50% and the maximum velocity by 38%.

The final CAD design based on the results of the simulations carried out with SimScale allowed SolidTrust’s engineers to improve pressure drop by 75% and reduce the maximum velocity by 44%.

At operating conditions, the newly developed muffler is expected to bring a significant noise reduction and better working conditions for the engine.

Set up your own cloud-native simulation via the web in minutes by creating an account on the SimScale platform. No installation, special hardware or credit card is required.

Start Simulating Request Demo

SolidTrust significantly reduced noise and improved working conditions for its car muffler design with SimScale.

The Challenge

Car Muffler Design Optimization

How they solved it with SimScale

Airflow Analysis of the Muffler Design

The Results

Reduced Pressure Drop by 75% and Maximum Velocity by 44%

See More Success Stories

Illini Solar Car team used SimScale CFD to optimize internal and external flow of their car design

Bucher Municipal compared its street sweeper design versions with CFD to increase performance

Carlsson Autotechnik optimized their car’s aerodynamics within 5 hours

Have you considered the potential a cloud-native simulation platform could bring to your organization? Learn about SimScale

Platform

Resources

Community

About