Virtual Engineering

Avtech Scientific enables its clients to enhance their products' reliability and quality while drastically reducing costs, risks and time to market by providing them with effective Virtual Product Engineering solutions.

Our experts develop and adopt numerical models for clients' specific problems, providing an intuitive graphical user interface that enables employment of the program without any additional software training. We provide engineers with tools to accurately determine the real-world thermal, fluid-flow, aero-dynamic and bio-chemical behavior of complex processes and product designs. Our clients come from a wide array of industries including medicine, pharmaceutical, civil engineering, chemistry and power generation among others. We help them to solve complex problems, for which analytical solutions do not exist and intuition-driven direct experimental verifications are highly unpractical.

Models utilize numerous numerical techniques. Competitive studies of different approaches suggest that a problem-oriented choice of a numerical technique can lead to speedup of 100 and more. Our experience demonstrates that in particular fields our methods are 1000 times faster than those realized in ANSYS software and 100 times faster than COMSOL, without compromising on accuracy. The non-free software is not flexible enough to provide problem-oriented optimizations.

Such a significant speedup enables more physical effects being taking into account thus bringing the model closer to reality. The high precision of simulation applications allows our clients to reduce product development costs and time by eliminating the need of experimenting or creating expensive prototypes at the same time providing more information and flexibility than laboratory observations.

For more information, please contact us.

Natural sciences

  • Physics
  • Chemistry
  • Biology
  • Materials science
  • Geoscience
  • Mechanical engineering
  • Electrical engineering
  • Optics


  • Automotive
  • Medical devices
  • Biopharmaceutical
  • Chemicals, oil and gas
  • Environmental / Cleantech
  • Power generation
  • Semiconductors
  • Defense


  • Aerodynamic design
  • Computer-aided surgery
  • Biochemical reactors
  • Computational fluid dynamics
  • MEMS / Microfluidics
  • Fuel cells / Batteries
  • Lithography
  • Lasers