Actran TM
Actran TM
A powerful acoustic CAE tool for turbomachinery noise prediction
Ready to learn more?
Use Actran TM to analyze the sound radiated by turbomachinery and to optimize the related acoustic treatments. One of the challenges of acoustic CAE methods is handling of large models associated to high wave number and to large geometrical size and complexity. Actran TM provides efficient solver technologies to address this problem, which includes advanced parallel processing.
In addition to studying aircraft engines, Actran TM can be used to analyze inlet and outlet liners for helicopter turbines, environmental control systems, and auxiliary power units, and for non-aerospace applications like computer cooling systems. Actran TM can be complemented by Actran DGM to solve problems involving complex shear layers and flow gradients occurring at engine exhaust.
Sample Applications:
- Aircraft engine noise, including nacelle design
- Ducted cooling systems (electronic devices)
- Blower systems (air conditioning modules)
- Helicopter turbine noise
Learn more about Actran products and services at www.fft.be
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Case Studies
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Case studyFine-tuning electric car acoustics to enhance safety
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Case studyFaster testing and virtual validation of access
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Case studyMaking solar panels ready for lift-off
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Case studyDura Automotive Systems: Actran helps evaluate spare...
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Case studyMcMaster University: Actran induces optimization...
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Case studyThales Alenia Space: Predicting mechanical shock...
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Case studyTenneco Inc.: Exhaust active noise cancellation
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Case studySatven: AI/ML based trimmed body NTF...
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Case studyBelgian building research institute: Actran helps...
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Case studyHow BAIC optimized car-body damping by simulation
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Case studyAirbus Defence and Space: Actran helps predict vibro...
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Case studyAlpha cabin: Evaluating acoustic properties porous...
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Case studyChina Railway Design Corporation: Attenuation predict..
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Case studyDura Automotive Systems maintains acoustic...
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Case studyAutoneum: Unleashing the new era of NVH simulation
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Case studyChina Motor Corporation: Pass-by noise sources...
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Case studySNCF trains: Travel quietly and sustainably
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Case studyGeneral Motors: Comfortable eV design, frequency shift
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Case studyMultiphysics: Efficient aeroacoustic modelling...
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Case studyAnalysis of Acoustic Behaviour of Louvers using Actran
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Case studyCNH Industrial: Actran helps reduce time...
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Case studyMarquardt: Acoustic simulation of automotive switches
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Case studyHEAD Acoustics: Using simulation to optimize...
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Case studyAirbus: Simulation optimizes acoustic liners reduces...
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Case studyEcole Centrale Lyon: Tackling jet noise adjoint wave...
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Case studySchindler: Driving elevator design through simulation
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Collateral
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Data sheet Tech specActran TM datasheet
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BrochureActran brochure
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Videos
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VideoACTRAN | Intake & Exhaust Systems
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VideoACTRAN | Simulation & Optimization of Acoustic Trans...
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VideoIntroduction to Actran Student Edition
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VideoACTRAN | Acoustic Simulation for the Aeronautical...
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VideoACTRAN | Noise Prediction Moving Mechanisms Coupled...
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VideoACTRAN | Acoustic Simulation of Duct, Intake & Exh..
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VideoACTRAN | Solving higher frequency acoustic radiation...
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VideoACTRAN | Acoustic Study of an Aircraft Engine
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VideoACTRAN | Acoustic Radiation Analysis
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VideoACTRAN | Reduce Noise and Improve Sound Quality
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VideoACTRAN | Simulation & Optimization of Acoustic Treat...
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