Orthogonal Magnetic Controlled Reactor Based On Ansys Numerical Calculation Of Electromagnetic Fields Is Studied

This paper has a profound and complete study of Magnetic valve controllable reactor(MVCR), including its fundamental structure working principal, and mathematical model. Then operating characteristic of MVCR is analyzed roundly. ANSYS is at first employed to analyze the MVCR’s model, and another group of parallel simulation and analysis by MAGNET is also available. The magnetic field distribution of MVCR in the AC and DC excitation is confirmed and the reactor winding inductance in different working conditions is calculated. After comparing these results of those simulations with MVCR’s tested operating features, the correctness and feasibility of this paper’s analytical methods, algorithms, and models can be verified.Based on the study above, this paper try to analyze a new orthogonal magnetizing controllable reactor (OMCR). The energy expression of orthogonal magnetization is built by analyzing two mutually orthogonal electrical excitation sources and their magnetic domain movement, and according to this energy model, the mathematical analysis is also completed. A prototype is firstly produced and then its performance is tested accordingly. Then, through establishing the3D electromagnetic equation, considering the coupling of the circuit and finite element equation, this paper builds the field-circuit coupling of the OMCR. So that the new OMCR’s magnetic field distribution under the double effect of both AC and DC can be worked out after solving the equation of the3D nonlinear transient electromagnetic field. Some special points and areas of the OMCR’s core with variable and greatly changed magnetic flux density are under focused analysis.