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Jet engine and gas turbine system simulation

System simulation for innovative aircraft propulsion design

예상 시청 시간:  70분

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Aircraft propulsion system simulation model

In this webinar, you will learn how to use an integrated system simulation methodology for innovative and sustainable aircraft propulsion design. Find out why system simulation can provide an essential competitive advantage for jet engine and gas turbine manufacturers.

A hybrid-electric engine is a promising technology for aircraft propulsion, in alignment with sustainable mobility trends. Nevertheless, technology maturity combined with innovative architectures must be closely assessed to prevent thermal management from becoming a breaking point in the design cycle.

To help you address these key challenges, dedicated approaches are to be applied where simulation plays a central role all along the design process. From conceptual, preliminary and detailed design phases, the use of modeling and simulation at the system level results in shorter development time and reduced risk while removing silos between disciplines and applications.

Aircraft engine innovation with system simulation

Learn how to:

  • Size your gas turbine (on- and off-design) and automatically generate a transient behavioral model integrating control
  • Build innovative propulsion architectures and make trade-off studies
  • De-risk innovation by integrating your powerplant model to carry out thermal management studies
  • Adopt a digital twin approach to support all development phases – from early concept, trade-off studies and detailed design to verification and certification processes

Aircraft propulsion system assessment for urban air mobility, conventional short- and medium-range and supersonic applications

Experts from Cranfield University and Hellenic Air Force Academy will showcase how multi-disciplinary tools and simulation platforms can be used to assess novel propulsion systems for aircraft and rotorcraft applications.

Key takeaways:

  • Explore and assess the performance of parallel hybrid-electric propulsion systems for two platforms
  • Learn how a hydrogen gas turbine-fuel cell propulsion system for tilt-rotor aircraft compares against gas turbine only kerosene and hydrogen cases at the aircraft and mission level
  • Analyze and quantify the potential of a parallel hybrid-electric for a short/medium range aircraft focusing on performance and operability and identify thermal management challenges
  • Develop engine model for specific supersonic application based on on-wing measurements aiming for performance monitoring

발표자 소개

Cranfield University

Ioannis Roumeliotis

Head of Gas Turbine Engineering Group

Ioannis has led to more than 20 European, UK and industrial funded research projects focusing on the development of multi-disciplinary and multi-physics modeling methods, integrated systems simulation and systems health monitoring for gas turbine-based propulsion and power systems. He works closely with Rolls-Royce as part of the Cranfield University Technology Center on aero-systems design, integration and performance.

Cranfield University

Chana Saias

Research Fellow

Chana Saias is a Research Fellow in Rotorcraft Performance and Environmental Assessments in the Centre for Propulsion and Thermal Power Engineering at Cranfield University. She is active in the areas of rotorcraft modeling and simulation, novel propulsion systems performance and multidisciplinary design

Hellenic Air Force Academy

Ioannis Templalexis

Head of Thermodynamics, Power and Propulsion Systems

Ioannis has been doing research on gas turbine engine performance simulation since 1998. He has been working closely with Cranfield University, on many research projects. He has also been very active in the field of engine life consumption combined with mission analysis within the frame of the Hellenic Air Force.

Siemens Digital Industries Software

Stéphane Mouvand

Aerospace Business Development Manager, Simcenter System Simulation

Stéphane joined Siemens in 2005 as a sales representative for major aerospace customers. Today, Stéphane leads aerospace and defense business development for Simcenter system simulation solutions.

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