Method for finding influence rule on torques and harmonic waves by negative sequence components in steam-turbine generator
A technology of turbo generator and negative sequence component, which is applied in the direction of electrical digital data processing, special data processing applications, instruments, etc., and can solve the problems of motor thermal stability decline and other problems
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specific Embodiment approach 1
[0039] Specific implementation mode one: establish a turbogenerator model
[0040] 1 Basic assumptions for building the model
[0041] Ansoft simulation software is used to establish a two-dimensional electromagnetic field model. In order to determine the differential equation and boundary conditions of the magnetic field in the area to be solved, the following assumptions are made:
[0042] 1) The calculation of the magnetic field in the synchronous generator is simulated using a two-dimensional field, and the magnetic field in the generator is assumed to be a quasi-steady field, and the displacement current is ignored.
[0043] 2) Assume that the circumference of the outer surface of the stator of the generator is applied with the Dirichlet boundary condition as the boundary condition, and its value is set to zero.
[0044] 3) It is assumed that the material of the motor is isotropic, that is, the hysteresis effect of the ferromagnetic material is neglected.
[0045] 4) Ch...
specific Embodiment approach 2
[0052] Specific implementation mode two: analyze the influence of different negative sequence components on torque;
[0053] The analysis of the torque in this paper is based on the Ansoft Maxwell2D transient solver. The rotational equation used by the transient solver in the solution process is
[0054] Jβ+λω=T comp +T load
[0055] In the formula, J is the inertial force, kg m 2 ;T is torque, N m; ω is angular velocity, rad / s; β is angular acceleration, rad / s 2 .
[0056] Through the simulation of the model in the rated operating state, the torque-time image under the rated working condition is obtained, and the spectrum analysis of the torque waveform is carried out, the image is as follows image 3 , Figure 4 shown.
[0057] from image 3 , Figure 4 It can be seen that the torque of the generator is basically stable during rated operation, and its fundamental wave amplitude is 7.257MN·m, and the amplitude of each harmonic is very small and can be ignored.
[00...
specific Embodiment approach 3
[0065] Specific implementation mode three: analyze the influence of different negative sequence content changes on air gap flux density harmonics;
[0066] By changing the content of negative sequence, the air-gap magnetic density of the turbogenerator under different negative sequence content is obtained by simulation. Due to the symmetry of the generator, it is advisable to generate an air-gap magnetic density curve from a pair of poles of the generator, and decompose the curve to obtain the amplitude of each air-gap magnetic density harmonic.
[0067] The steam turbine generator decomposes the air-gap magnetic density harmonics of a pair of poles under rated operation conditions, such as Figure 8 , Figure 9 shown.
[0068] In order to explore the regular changes of each air gap magnetic density harmonic with different negative sequence current components, the generated histogram is shown as Figure 10 shown by columnar Figure 10 It can be seen that the fundamental wa...
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