3D thermostatic field computation


Completed orders:

ITER Team (Garching, Germany) - International Thermonuclear Experimental Reactor
Efremov Institute (St. Petersburg, Russia) – MRI-tomograph
Confidential (Genue, Italy) – MRI tomograph


The specially developed code is the well-proven integrated software designed for numerical simulation and analysis of 3D thermostatic field. An efficient calculation algorithm enables a versatile thermal field analysis using medium-scale computers. The numerical simulation provides a desired accuracy with the allowance for complex system geometry and non-linear effects.

HIGHLIGHTS

- an efficient numerical simulation algorithm capable of precise thermostatic field analysis;
- pre- and post processing of input/output data;
- coupled problems for thermostatic/electromagnetic/stress analysis
- prolonged intensive wide-range applications.

The numerical simulation algorithm is based on the classical Poisson equation, finite-element method, and symmetric successive overrelaxation method combined with a polynomial acceleration of a convergence rate. An effective integration with another special program packages using the same finite-element mesh makes it possible to obtain the heat releases distribution from the steady and eddy currents, induced by electrical and transient magnetic fields.

Applications:

- Accelerator magnets
- Fusion and MHD-generator magnets
- Spectrometer magnets
- MRI-magnets
- Experimental and diagnostic devices for scientific research
- Generators, motors
- Superconducting devices




More details on demand





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