PIDO - Process Integration and Design Optimization
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Power-train Combustion • Optimization Inlet ducts 3D analysis • Burners Pre-mixer analysis for a Gas Turbine • Water Jacket 3D analysis • Complex Chemistry reactions • Exhaust ducts 3D analysis • Whole engine 1D analysis Power plants and Heat Exchange cases • Crank Train vibration analysis • Heat Exchanger for Domestic Boilers analysis • Common Rail Injection analysis • Axis-symmetric Fin designing for Heat Exchangers • Variable Valve actuation systems analysis • Evaporator geometry analysis • Automatic Calibration of Real-time Control System • Domestic Refrigerator thermal analysis Aerospace Multi-body, Crash, Structural, Vibro-Acoustics • CFD/Structural interaction on 3d wing • Automotive braking system analysis • Flap Splitting and Wing Setting analysis • Vehicle Comfort-Handling analysis • Shape analysis of airfoil profile • Racing Vehicle Suspension set-up analysis • Ramjet-Powered Missile analysis • Vacuum Bell analysis • Supersonic Transport Airplane studies • Electro-Magnetic Actuator analysis • Frontal Frame crash analysis Turbo-machinery • Centrifugal Compressor 3D analysis Manufacturing • Axial Turbine 3D analysis • Injection Moulding analysis for automotive components • Axial Compressor 3D analysis • Metal Casting analysis • Turbine single stage 2D steady and unsteady • Metal sheet forming and thermo-forming analysis • Turbine 2 stages 2D unsteady analysis • Experimental Application Marine • Washing Machine experimental assessment • Ship hull design • Burners Modelling and prediction studies • Wave wash minimisation analysis • Stabilising fin analysis • 3D full ship study • Ship structure optimisation PI = Process Integration – Automation of CAE processes – Manage complex data flow involving • One or multiple CAE tools • One or multiple load cases • Serial or parallel execution • Any combination of the above DO = Design Optimization - Systematic search for the best design – Exploration of design space – Optimization • Single and Multi-Disciplinary (MDO) • Single and Multi-Objective – Sensitivity and Robust Design methods – Decision support – DO: obvious values • Optimization improve product performance • Robust design methods give higher-quality, more reliable, more robust products – DO: added value is broader than just ”finding an optimum” • Evaluation of design alternatives and trade-off analysis • Identification of design drivers • Identification of counter-intuitive solutions Multidisciplinary and Multiobjective Design Optimization Tool: modeFRONTIER PIDO - Process Integration and Design Optimization Key partner in Design Process Innovation PIDO AT WORK: THE REALITY - ENGINSOFT EnginSoft S.p.A. www.enginsoft.it
Transcript of PIDO - Process Integration and Design Optimization
Power-train Combustion• Optimization Inlet ducts 3D analysis • Burners Pre-mixer analysis for a Gas Turbine• Water Jacket 3D analysis • Complex Chemistry reactions• Exhaust ducts 3D analysis• Whole engine 1D analysis Power plants and Heat Exchange cases• Crank Train vibration analysis • Heat Exchanger for Domestic Boilers analysis• Common Rail Injection analysis • Axis-symmetric Fin designing for Heat Exchangers• Variable Valve actuation systems analysis • Evaporator geometry analysis• Automatic Calibration of Real-time Control System • Domestic Refrigerator thermal analysis
Aerospace Multi-body, Crash, Structural, Vibro-Acoustics• CFD/Structural interaction on 3d wing • Automotive braking system analysis• Flap Splitting and Wing Setting analysis • Vehicle Comfort-Handling analysis• Shape analysis of airfoil profile • Racing Vehicle Suspension set-up analysis• Ramjet-Powered Missile analysis • Vacuum Bell analysis• Supersonic Transport Airplane studies • Electro-Magnetic Actuator analysis
• Frontal Frame crash analysisTurbo-machinery• Centrifugal Compressor 3D analysis Manufacturing • Axial Turbine 3D analysis • Injection Moulding analysis for automotive components• Axial Compressor 3D analysis • Metal Casting analysis• Turbine single stage 2D steady and unsteady • Metal sheet forming and thermo-forming analysis• Turbine 2 stages 2D unsteady analysis• Experimental Application Marine• Washing Machine experimental assessment • Ship hull design• Burners Modelling and prediction studies • Wave wash minimisation analysis
• Stabilising fin analysis• 3D full ship study• Ship structure optimisation
PI = Process Integration – Automation of CAE processes– Manage complex data flow involving
• One or multiple CAE tools• One or multiple load cases• Serial or parallel execution• Any combination of the above
DO = Design Optimization - Systematic search for the best design– Exploration of design space– Optimization
• Single and Multi-Disciplinary (MDO)• Single and Multi-Objective
– Sensitivity and Robust Design methods– Decision support – DO: obvious values
• Optimization improve product performance• Robust design methods give higher-quality, more reliable, more
robust products– DO: added value is broader than just ”finding an optimum”
• Evaluation of design alternatives and trade-off analysis• Identification of design drivers• Identification of counter-intuitive solutions
Multidisciplinary and Multiobjective Design Optimization Tool: modeFRONTIER
PIDO - Process Integration and Design Optimization
Key partner in Design Process Innovation
PIDO AT WORK: THE REALITY - ENGINSOFT
EnginSoft S.p.A.www.enginsoft.it
