Induced nuclear reactions: processes – systems – and elements – Reactor structures – Circulating fluid within reactor
Reexamination Certificate
2003-04-30
2004-06-15
Carone, Michael J. (Department: 3641)
Induced nuclear reactions: processes, systems, and elements
Reactor structures
Circulating fluid within reactor
C376S245000, C376S246000, C376S260000, C376S392000, C376S407000, C073S650000, C073S862410, C073S862510
Reexamination Certificate
active
06751281
ABSTRACT:
TECHNICAL FIELD OF THE INVENTION
This invention relates to a measurement system of torsional vibration for Reactor Internal Pump used for controlling Reactor core flux of a boiling water reactor.
BACKGROUND OF THE INVENTION
Reactor Internal Pump is used for controlling Reactor core flux of a Nuclear reactor, in the boiling water reactor. The reactor internal pump is fitted by hanging down on lower part of a reactor pressure vessel. About ten sets of reactor internal pumps are arranged in circle form at the lower part of the reactor pressure vessel. The reactor internal pump is usually driven by an inverter.
The reactor internal pump consists of an impeller that is a hydraulic power part, and a motor (motor rotor and motor stator) that is a drive part. A reactor internal pump is contained in a cylindrical motor casing, and this casing is connected with a reactor pressure vessel through a nozzle, and hung down. The lower end of the motor casing is sealed by a motor cover, to thereby prevent the discharge of reactor water.
Conventionally, such a reactor internal pump has measured vibration, in order to supervise an operation state. Two kinds of vibration are measured by setting a vibration meter in the motor casing. That is, vibration of the motor casing produced by change of a pump axis and the fluid included therein is measured by an electrodynamic vibration meter (vibration detector), and the vibration sound and fluid sound of a pump is measured by piezoelectric vibration meter (sound detector). As for the vibration detector and the sound detector, two pieces are fitted on the circumferential direction of the motor casing at intervals of the angle of 90 degrees, respectively.
Object of the vibration detector is to measure vibration in the radial direction of the motor casing (reactor internal pump), and the object of the sound detector is to check the sound transmitted mainly to the motor casing.
By the way, an axial torsional vibration is generated in the reactor internal pump, due to the torque change of a motor. There is a possibility that the frequency component of the axial torsional vibration generates mechanical resonance with the natural frequency of the composition parts forming the reactor internal pump, and damage the composition parts. Therefore, taking into consideration the influence of repetitive fatigue of a reactor internal pump or the like, it is needed to measure the axial torsional vibration.
Measuring an axial torsional vibration of a motor by change of the phase difference of the detected signal of the optical detector, having the optical detector fitted on two places of the axis of rotation, is known, for example, as disclosed in JP-A-07-5056.
The conventional technology includes the optical detector fitted on the axis of rotation of a motor, to thereby measure the axial torsional vibration. However, both of the pump and the motor are contained in a motor casing, so as to be sealed therein. The reactor internal pump includes no exposed part in the axis of rotation. This makes it very difficult practically for a detector to be fitted. For enabling the detector to be fitted on the axis of rotation, large alteration of the reactor internal pump is needed.
For this reason, development of the technology for allowing an easy measuring system without large alteration of the reactor internal pump is demanded strongly.
SUMMARY OF THE INVENTION
This invention is proposed in order to overcome the above-described problem, and its object is to provide an axial torsional vibration measurement device of the reactor internal pump capable of measuring the axial torsional vibration easily.
In this invention, a vibration detector that detects the vibration in radial directions and a sound detector that detects the vibration in the circumferential direction are fitted on a cylindrical motor casing containing a motor of a reactor internal pump, and the dimensions of both signals of the vibration waveform signal detected by the vibration detector and the sound waveform signal detected by the sound detector are made to be matched, to thereby obtain an axial torsional vibration of a motor from the difference of both signals.
According to this invention, vibration in the circumferential direction is detected in the sound detector, therefore an axial torsion frequency component is contained in a sound waveform signal. An axial torsional vibration can be measured by the difference of the vibration waveform signal containing no axial torsion frequency component. Also conventionally, the vibration detector and the sound detector are formed in the vibration measurement of a reactor internal pump, therefore an axial torsional vibration can be easily measured only by changing the fitting constitution of the sound detector.
If put in another way, in this invention, an axial torsional vibration is obtained by the difference of the vibration waveform signal of the vibration detector that detects the vibration in the radial direction which is substantially the same direction with the circumferential direction detected by the sound detector, in similar way to the detection of the vibration in the circumferential direction by the sound detector.
In preferred embodiment of this invention, the vibration detector is disposed in a different position from the sound detector by 90 degrees in the circumferential direction.
REFERENCES:
patent: 4408294 (1983-10-01), Imam
patent: 5206816 (1993-04-01), Hill et al.
patent: 6456945 (2002-09-01), Sonnichsen et al.
patent: 2002/0170349 (2002-11-01), Soneda et al.
patent: 07-005056 (1995-01-01), None
Hikida Naoto
Matsumura Seiichi
Carone Michael J.
Hitachi , Ltd.
Hogan & Hartson LLP
Keith Jack
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