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Design and Simulation solutions for Rotating Machinery

Compression and Gas Moving

  • Solutions for automotive, chemical process, oil and gas, and HVAC applications, and apply to compressors, blowers, fans and turbochargers
  • Combine high aerodynamic efficiency with outstanding durability
  • High-fidelity aeromechanic analysis delivers reliable bladed components optimized for weight, strength, durability and efficiency
  • ANSYS rotordynamics assures machine stability, even accounting for the effects of support and housing flexibility on the rotating shaft assembly
  • Examples:
    • Efficient and High-Performance Flow Path Development
    • Reliable Blading Development with Aeromechanics Simulation
    • Rotordynamics for Stable and Reliable Machines

Hydraulic Machinery

  • Increase efficiency, operational flexibility and reliability in pump design, vehicle torque converters and marine liquid propulsion systems, including propellers
  • ANSYS provides turbomachinery-focused hydraulic simulation tools for developing efficient and high-performance flow paths, all within an integrated environment that maximizes user productivity
  • Examples:
    • Efficient and High-Performance Flow Path Development
    • Reliable Blading Development with Aeromechanics Simulation

Thermal Turbomachinery

  • Improve the operating characteristics of all key components, which means improving aerodynamic efficiencies, increasing power density, managing higher temperatures, supporting greater loads and reducing weight, all while increasing operational life
  • ANSYS enables high aerodynamic efficiency flow paths and combustors
  • High-fidelity aeromechanic analysis ensures reliable bladed components, optimized for weight, strength, durability and efficiency
  • Multi-spool rotating assemblies can be optimised with ANSYS rotordynamics simulation software
  • Examples:
    • Efficient and High-Performance Flow Path Development
    • Combustor Simulation for Low Emissions and High Reliability
    • Thermal Simulation for Life and Reliability Enhancement
    • Reliable Blading Development with Aeromechanics Simulation
    • Rotordynamics for Stable and Reliable Machines

Wind, Aircraft Propellers and Rotors

  • Simulation aids power delivery and aerodynamic efficiency over a broad range of flow incidence
  • Combine high aerodynamic efficiency with outstanding durability
  • Develop rotor blades with high aerodynamic efficiency and robustness
  • High-fidelity aeromechanic analysis leads to reliable bladed components, optimized for weight, strength, durability and efficiency
  • Examples:
    • Efficient and High-Performance Flow Path Development
    • Reliable Blading Development with Aeromechanics Simulation

Want to learn more about LEAP’s solutions?

Complete the form and our team will contact you to discuss your needs.