Fuel System Modelling 
Seamless aerospace testing technology from real-time virtual testing to physical testing.
Virtual testing enables efficient and safe design and testing of mechanical components and vehicle control systems. Allows virtual testing throughout the entire development process, from design to verification and validation.

Fuel Systems Toolkit solution enables creating models of fuel systems of different aircrafts and conducting their virtual testing.
Tasks to be solved:
  • design calculation
  • performance calculation
  • сalculation of characteristics of individual assemblies and units
  • simulation under various operation modes and flight conditions.
GTE Simulation Library
GTE Toolkit allows to create a GTE model for execution virtual tests when solving design problems and refinement of gas turbine engines, development of their systems management and diagnostics. GTE models are created on the basis of mathematical models, describing thermogasdynamic processes, occurring in the main components of the engine. Complied conditions for the joint operation of all components in the engine, including equations of continuity, balance power and pressure balance.
Fuel Control Testing
Hybrid technology is an integration of virtual and physical testing in which a model of the environment and vehicle dynamics is combined with the control system of the test bench and the test object. The technology creates a test environment for the physical object and ECU that is close to real-world testing.
  • Obtaining data on the interaction of engine components before final manufacturing;
  • Integration of physical tests and HIL modelling;
  • Determination of physical and hydraulic characteristics of fuel units;
  • Simulation of standard engine controls;
  • Hardware-software and physical simulators of standard engine units and assemblies.
Technical characteristics:
  • drive of fuel pump units 10,000 rpm;
  • drive of airplane units box 12 000 rpm;
  • temperature range of working fluids - 60 ... +130 °C.