Simulation-Led R&D for Complex Systems
I build CFD/FEA/FVM digital twins to de-risk design, then run targeted experiments to prove performance—cutting time, cost, and risk.
Innovative R&D Consulting Services
I build high-fidelity digital twins to de-risk design before cutting metal: CFD (laminar/turbulent), FEA, FVM, and multi-physics coupling. Typical deliverables: sensitivity/optimization studies, failure-mode prediction, and design recommendations that cut test cycles and cost.
CFD: internal/external flow, pressure drop, heat/mass transfer
FEA: static/modal/thermal, vibration & acoustics
Design-space exploration & trade studies
Clear reports with figures and next-step decisions
Expertise in Simulation
Rapid Prototyping Solutions
When it’s time to build, I create instrumented prototypes and test rigs to confirm performance fast. CAD/SolidWorks, quick fabrication, data acquisition, and repeatable V&V protocols to move from concept to validated design.
Prototype build + fixture design
Sensor selection & DAQ setup
Test plans, acceptance criteria, and traceable results
Handover docs for your team/suppliers
Consulting Services
Enhancing product development through advanced simulations and targeted experimental validations.
Digital Twin Modeling
I create validated digital twins using CFD, FEA, and FVM to explore design space, run sensitivity/optimization, and reveal failure modes early. Deliverables include clear figures, trade-off charts, and decision-ready recommendations.
Risk Reduction
Using response surfaces/DOE and reliability checks, I quantify uncertainty, highlight weak links, and optimize for targets (pressure drop, mass, dB, life). You get prioritized fixes and a confident path to readiness.
CAD → build → instrument → measure. I set up sensors/DAQ, author test plans and acceptance criteria, and produce traceable reports that close the loop between simulation and hardware.
Prototyping Validation
Acoustics & Vibration Analysis
Modal/harmonic response, sound power/transmission loss, and noise-control strategies backed by modeling and targeted experiments.
Risk Reduction
Using response surfaces/DOE and reliability checks, I quantify uncertainty, highlight weak links, and optimize for targets (pressure drop, mass, dB, life). You get prioritized fixes and a confident path to readiness.