Computational Solution
We provide a wide range of engineering simulations in the form of:
| Predictive Engineering | From 1D calculations performed in the conceptual design phase to 3D multi-physical calculations to verify the functionality of the prototype |
|---|---|
| Calculations check | According to relevant standards or according to customer requirements |
| Optimalization | Current state optimization - improvement of required parameters, weight, efficiency, thermal and dynamic properties |
| Validation calculations | Comparison with experimental data and backward correlation with input data |
| Consultation and methodology | Recommendations of the most suitable calculation procedure with computational software and ensuring project management |
Overview of offered simulations and their combinations:
| Type of calculation | Mathematical formulation | Description | Combination with other types of calculation |
|---|---|---|---|
![[page_onas/onas5.png]](https://www.techsim.cz/content/images/page_onas/onas5.png) |
FEM | FEM Linear & Nonlinear Analysis Contact analysis Virtual testing Dynamic analysis Thermal deformation and stress CHT, Conjugate Heat Transfer | FSI, Fluid Structural Interaction |
![[page_onas/onas6.png]](https://www.techsim.cz/content/images/page_onas/onas6.png) |
FEM BEM FVM |
Vibroacoustics Aeroacoustics Noise emission to the environment Noise transfer between different interfaces |
Combination with ELMAG calculation of electromagnetic forces - solution of electromagnetic noise |
![[page_onas/onas7.png]](https://www.techsim.cz/content/images/page_onas/onas7.png) |
FEM FVM |
Heat transfer Conduction Convection Radiation | Combination with ELMAG calculation of Joule losses and electromagnetic losses |
 |
FVM FEM |
External and internal aerodynamics Multiphase flow - VOF, discrete phase, DEM Combustion and chemical reactions Phase change - condensation, boiling Flow into molds, solidification |
Combination with FEA structural analysis Combination with electromagnetic field of public transport (Magneto Hydro Dynamics) |
![[page_onas/onas8.png]](https://www.techsim.cz/content/images/page_onas/onas8.png) |
FEM |
Low and high cycle fatigue Fatigue of welded structures Fatigue of composite materials Fracture mechanics |
Combination with temperature load, creep |
![[page_onas/onas9.png]](https://www.techsim.cz/content/images/page_onas/onas9.png) |
FEM |
Low-frequency electromagnetism Calculation of losses and efficiency of electrical machines Design of electrical machines |
Combination with CFD cooling calculations Combination with rotordynamics Combination with FEA strength calculations |
![[page_onas/onas10.png]](https://www.techsim.cz/content/images/page_onas/onas10.png) |
MBS |
Rigid & elastic body Tire model Co-simulation with control Collision check |
Possibility of cosimulation with FEA structural calculations Models for simulation of rock resistance DEM in combination with CFD Implementation of 1D systems for control, modeling of hydraulics, tires and driving stability |
![[page_onas/onas11.png]](https://www.techsim.cz/content/images/page_onas/onas11.png) |
FEM |
Calculation of critical speeds External excitation Stress Consideration & Material Fatigue Bearings and other attached equipment |
Combination with MBS kinematics and 1D system simulation for control |
![[page_onas/onas12.png]](https://www.techsim.cz/content/images/page_onas/onas12.png) |
1D |
Simulation of complex systems from the fields of hydraulics, tires, heat conduction, electromagnetism, mechanics and control Optimization of working cycles and machine control Simulation of electric / hybrid / ICE traction, consumption and emissions calculation |
Possibility to use simplified models from FEA, CFD and ELMAG analyzes |
![[page_onas/onas13.png]](https://www.techsim.cz/content/images/page_onas/onas13.png) |
Optimization Design Exploration |
3D calculations - FEA, CFD, ELMAG 1D calculations Combination of 1D and 3D |
Automatic selection of the most suitable optimization method from a wide range of available methods (DOE, gradient, genetic, stochastic and others). |
- FEM = Finite Element Method, FEA = Finite Element Analysis
- BEM = Boundary Element Method
- CFD = Computational Fluid Dynamics, FVM = Finite Volume Method
- MBS = Multi-body Simulation
- VOF = Volume of Fluid
- DEM = Discrete Element Method
- DOE = Design of Experiments
- ICE = Internal Combustion Engine