FLUIDDYNAMICS / CFD CAPACITY

 

WHY CFD RESEARCHES AND WHY NOT IN CHINA???

Fluid Dynamics and related sciences
Numerical theory and techniques
CFD theory and techniques
CFD expertise
CFD consulting
CFD development
CFD related processes and subjects
CFD Related Systems and Equipments
CFD Relevant Industries and Areas of Applications
CFD applications & tools

 

WHY CFD RESEARCHES AND WHY NOT IN CHINA???

 

The reason to seek CFD is the fact that it belongs to one of the fundamental science of the thermal physics chapter and I have learned it very intensively over the past and my business over the last couple of years are related to this area.

China’s education and research segments are currently very corrupted, therefore it is impossible to undertake pure researches without the compromise with this system. And the general trends towards decay of the Chinese society does not allow for genuine researches and studies.

 

Fluid Dynamics and related sciences

  1. Aerodynamics
  2. Combustion, turbulent combustion
  3. Compressible flow
  4. Fluidized Beds
  5. Incompressible flow
  6. Micro/nano -fluidics
  7. Multi-phase and multi-component flow
  8. Non-Newtonian flow, Rheology - Rheological modeling for non- Newtonian fluids
  9. Pneumatic conveyors, bulk granular material handling
  10. Porous media flow
  11. Turbulent fluid flow / mixing and modeling / evaluation

 

Numerical theory and techniques

  1. Boundary Element Methods (BEM)
  2. Discrete Element Method (DEM)
  3. Direct Numerical Simulations (DNS)
  4. Finite Difference Methods (FDM)
  5. Finite Element Methods (FEM)
  6. Finite Volume Methods (FVM)
  7. Moving Interface Methods (MIM) such as
    1. Sharp Interface Method (SIM)
    2. Level Set Method (LSM)
  8. Probability Density Function (PDF)
  9. Adaptive, unstructured mesh CFD

 

CFD theory and techniques

  1. Detached Eddy Simulations (DES)
  2. Lattice Boltzmann CFD
  3. Large Eddy Simulation (LES)
  4. Reynolds Averaged Navier Stokes (RANS)
    1. U-RANS
    2. hybrid RANS/LES
  5. Reynolds Stress Model  (RSM) model
    1. Anisotropy-invariant Reynolds Stress Model of turbulence (AIRSM)
  6. Sliding mesh techniques
  7. Smoothed Particle Hydrodynamics (SPH)

 

CFD expertise

 

CFD consulting

 

My duties and responsibilities were/are:

  1. Specialist consultation
  2. Project consultation
  3. Process simulation and design
  4. Process, design, equipment optimization
  5. Thermodynamic cycle analysis
  6. Fluid flow and heat transfer analysis - 3-D fluid field analysis
  7. Software technical support

 

CFD development

 

Whereby I was involved in:

  1. Developing numerical algorithms and approaches
  2. Developing and implementing computational fluid dynamics codes
  3. Defining computational requirements
  4. Modeling and simulating various processes
  5. Documenting results
  6. Conducting data analysis and interpretation
  7. Performing post processing & visualization

 

CFD related processes and subjects

 

Flow Processes covered:

  1. Chemical reaction flows
  2. Fuel-air mixing processes
  3. Industrial processes
  4. Nucleate boiling
  5. Porous materials
  6. Sustainable energy systems
  7. Thermal flows
  8. Transport phenomena

 

CFD Related Systems and Equipments

  1. Boilers
  2. Burners
  3. Ducts and pipes
  4. Heat exchangers incl. condensers
  5. Pumps
  6. Steam/hydro turbines
  7. Thermal Energy Storage

 

CFD Relevant Industries and Areas of Applications

  1. Automobile
  2. Buildings
  3. Electronics
  4. Energy and Power
  5. Environment

 

CFD applications & tools

 

CFD applications (solver) such as

  1. Ansys: Ansys Workbench, Ansys CFX
  2. Fluent
  3. NUMECA
  4. OpenFoam
  5. Phoenix
  6. StarCD

CAD Software

  1. Pro/E
  2. solidworks

the most prevalent pre-processors

  1. Gambit
  2. ICEM-CFD

CFD post-processor

  1. EnSight