Business Support Member

Flownex Simulation Environment

Leading systems (1D/2D) simulation tool for thermal-fluid analysis and design in transient and steady state. Predominant areas of application are Fossil Fuel and Nuclear Power and Turbo-machinery. Designs applicable to small and large systems taking mass energy and momentum into account.

Flownex Simulation Environment
Employees
15
CAE-Engineers
8
Countries
2
Locations
2
Founded
1984
website http://www.flownex.com
Main Office Block E, Totius Park
24 Totius Street
Potchefstroom
South Africa
Other offices Chicago
Contact Person Luke Davidson
Phone: +27 18 297 0326

Flownex® Simulation Environment delivers technology that enables you to study how systems will behave in the real world, where fluid is the driving factor. Flownex® system simulation relays the overall effect of changing specific properties on components, allowing clients to examine extensively all possible variations in the design and optimization of systems.
 

BRINGING NUCLEAR QUALITY & STANDARDS TO SYSTEM SIMULATION

Flownex® is developed in an ISO 9001:2008 and NQA1 quality assurance system environment. Flownex® is the only software of its kind to hold a nuclear accreditation, a testament to the quality, reliability and accuracy of our simulation software.

GROWING DEMAND FOR SYSTEM SIMULATION

On a global scale leading organizations apply our software and service offerings to achieve maximum potential of their systems both in design and operational states. Our promise of fast reliable and accurate system and subsystem-level simulation has immensely benefited our clients. The use of our technology has set our clients apart from their competitors allowing them to pursue frontiers of engineering simulation. The global demand for Flownex® has shown exponential growth over the last few years, and as more organizations adopt our technology, we are continuously striving to push the boundaries in system simulation.

CAPABILITIES

  • Simple/complex systems simulation
  • System optimization
  • Commissioning assistance
  • Investigative simulations
  • Component performance assessment
  • Concept design
  • Technical feasibility studies
  • Root cause analysis
  • Thermal-hydraulic designs