Welcome to the von Karman Institute for Fluid Dynamics Store

Introduction to optimization methods for multidisciplinary design in aeronautics and turbomachinery article pay-per-view 25€/article

Be the first to review this product

Availability: In stock

€0.00

Quick Overview

Innovative optimization and design techniques, both for aircraft (manned or unmanned UAV/UCAV) and engine systems, are now rapidly moving from research labs to industrial integrated platforms used by collaborative teams. These platforms aim at maximum performance in multidisciplinary context by combining several criteria like aerodynamic efficiency, safety, drag, losses, weight, strength, heat fluxes, emission, noise. To reach concurrently this level of excellence, emergent optimization and design methodologies require more and more robust and efficient associated software for daily use in industrial collaborative design environments.


Article pay-per-view

Double click on above image to view full picture

Zoom Out
Zoom In

More Views

  • Article pay-per-view

* Required Fields

€0.00

Details

Innovative optimization and design techniques, both for aircraft (manned or unmanned UAV/UCAV) and engine systems, are now rapidly moving from research labs to industrial integrated platforms used by collaborative teams. These platforms aim at maximum performance in multidisciplinary context by combining several criteria like aerodynamic efficiency, safety, drag, losses, weight, strength, heat fluxes, emission, noise. To reach concurrently this level of excellence, emergent optimization and design methodologies require more and more robust and efficient associated software for daily use in industrial collaborative design environments.

These proceedings intend to provide the basic concepts and tools behind this technology, both in single discipline (single point or multi point design) and multidisciplinary (fluid-structure interaction, fluid-acoustics, conjugate heat transfer, …) context. Subjects which are treated in detail include: gradient based and steepest descent and quasi-Newton methods, methods based on adjoint equation, one shot or goal oriented methods, optimal control, evolutionary/differential evolution algorithms on parallel environments, game strategies like Pareto Fronts and Nash Equilibrium, parameterization, approximation methods (Radial Basis functions, Artificial Neural Networks, Kriging techniques …), distributed and collective design, collaborative optimization, robust design, self organizing map techniques, … . Numerical implementation is presented on model problems. Case study design problems are discussed in full detail (e.g. design of airfoils, UAV, conjugate heat transfer, cooling of turbine blades).

The content of these course notes is oriented towards junior and experienced engineers and researchers involved in the field of multidisciplinary design, who are looking for innovative numerical solutions for complex multi criteria optimization problems. Also practically oriented design engineers in industry will strongly benefit from these course notes by better understanding of the existing and recently developed software tools that are rapidly becoming available to indust

Additional Information

Manufacturer von Karman Institute for Fluid Dynamics

Product Tags

Use spaces to separate tags. Use single quotes (') for phrases.