Pumped storage power generation motor rotor pigeon tail accumulated fatigue life predicting method based on Grover-Manson rule

A technology for generating electric motors and pumped water storage, which is applied in the fields of electrical digital data processing, computer-aided design, and special data processing applications, etc., and can solve problems such as inability to reflect time changes in stress distribution

Active Publication Date: 2016-08-24
CHINA THREE GORGES UNIV
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AI Technical Summary

Problems solved by technology

The existing research method is to obtain the maximum stress distribution of each working condition through static calculation, and then use it as a load for fatigue life prediction. This method cannot reflect the change of stress distribution over time.
In addition, there is no research on the fatigue life prediction of the pumped storage generator motor rotor dove tail by calculation criteria

Method used

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  • Pumped storage power generation motor rotor pigeon tail accumulated fatigue life predicting method based on Grover-Manson rule
  • Pumped storage power generation motor rotor pigeon tail accumulated fatigue life predicting method based on Grover-Manson rule
  • Pumped storage power generation motor rotor pigeon tail accumulated fatigue life predicting method based on Grover-Manson rule

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Embodiment Construction

[0066] A method for predicting the cumulative fatigue life of the rotor pigeon tail of a pumped storage generator motor based on the Grover-Manson criterion, including the following steps:

[0067] 1) According to the rotor speed curve under the actual operating conditions provided by the pumped storage power plant, the acceleration distribution is obtained as the load. Through dynamic calculation, the dove tail of the rotor of the generator motor is obtained in the power generation start-up condition, power generation shutdown condition, and electric start-up condition respectively. The distribution of the stress caused by the centrifugal force over time under the conditions of electric shutdown, load shedding and runaway conditions;

[0068] 2) The temperature change of the motor caused by electromagnetic loss, and the resulting thermal stress and the stress caused by centrifugal force are vector summed;

[0069] 3) According to the total stress distribution under the power ...

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Abstract

Disclosed is a pumped storage power generation motor rotor pigeon tail accumulated fatigue life predicting method based on a Grover-Manson rule. The method includes: acquiring acceleration distribution as a load according to a rotor speed curve under actual running conditions provided by a pumped storage power plant, and respectively acquiring distribution conditions of stress along with time caused by centrifugal force of a power generation motor rotor pigeon tail in power generation starting condition, power generation stopping condition, motor starting condition, motor stopping condition, load shedding condition and runaway operating condition through dynamic computation; drawing a stress-time curve of a position most prone to fatigue damage in different working conditions, and calculating usable fatigue life times of the position; substituting actual occurrence times of various working conditions of a power generation motor already running for m years and fatigue life using times in the working conditions into a Grover-Manson rule calculation formula, respectively considering fatigue crack formation and fatigue crack expansion, and calculating according to crack formation and expansion to acquire fatigue life of the power generation motor rotor pigeon tail.

Description

technical field [0001] The invention discloses a method for predicting the cumulative fatigue life of the dove tail of a pumped storage generator motor rotor based on the Grover-Manson criterion, and relates to the field of fatigue life prediction of the rotor dove tail of the pumped storage power generator motor. Background technique [0002] Pumped-storage generator motors have two main working conditions: power generation and electric power generation, with high speed, large unit capacity, frequent start and stop of the unit, and positive and negative rotation of the rotor. At the same time, with the increase of the operating life of the pumped storage power station, the faults and accidents of the generator motor occur frequently, and the safety and stability problems become increasingly prominent. [0003] At present, there are few studies on the fatigue life prediction of the rotor pigeon tail of the pumped storage generator motor. Because the generator motor has power...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCG06F30/17G06F2119/04
Inventor 张宇娇刘东圆黄雄峰徐彬昭吴刚梁
Owner CHINA THREE GORGES UNIV
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