Method for checking the operational readiness of a valve

Details Method for checking the operational readiness of a valve Method for checking the operational readiness of a valve

1998-05-14

2003-01-07

Noland, Thomas P. (Department: 2856)

Measuring and testing

Blower, pump, and hydraulic equipment

C073S865900, C702S179000, C702S114000

Reexamination Certificate

active

06502458

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention:
The invention relates to a method for checking the operational readiness of a valve, in which at least one measured value is determined for a valve-specific parameter and is compared with a previously fixed value.
It has previously been conventional for the purpose of checking the operational readiness of a valve to measure certain-valve-specific parameters at intervals, for example the torque, the friction of a stuffing box or of a spindle nut or the no-load power under conditions close to requirements. In that case, conditions close to requirements are conditions such as high temperature and high pressure, which the valve must still withstand, but which are only seldom reached during operation of the valve. A fault in the valve would be displayed or surmised when such measured values varied over the course of time.
Carrying out measurements under conditions close to requirements, for example at very high temperatures, is very expensive or even entirely impossible. Moreover, conditions close to requirements can only be simulated with great difficulty in an installation in which the valve is a component since it is necessary, for example, to increase pressure and temperature. It is therefore difficult to interpret results obtained under such conditions. In order to ensure that a fault in the valve is not overlooked, it has previously been customary to display a fault even in the case of slight variations in the measured values. Since repair or even exchange of a faulty valve is very expensive and is possible, as a rule, only when the entire installation, which can be a nuclear power plant, is at a standstill, it is uneconomical for a fault to be reported prematurely or wrongly.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method for checking the operational readiness of a valve, which overcomes the hereinafore-mentioned disadvantages of the heretofore-known methods of this general type and which provides for a fault report only if the operational readiness of the valve is truly at risk. Moreover, it should be possible to demonstrate the operational readiness of the valve through the use of a measurement which is easy to carry out under ambient pressure and ambient temperature. In addition, such a measurement should be able to be performed in a power plant, for example, during a customary inspection period.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method for checking the operational readiness of a valve, which comprises determining at least one measured value for a valve-specific parameter in a cold and unpressurized state of a valve; comparing the at least one measured value with a previously fixed value determined analytically from a function model of the valve, for the valve specific parameter; fixing upper and lower limiting values assigned to still tolerable states of the valve (design reserve) for the analytically determined value; and indicating that the valve is operationally ready when the at least one measured value is between the upper and lower limiting values.
Such a method is referred to as a valve diagnosis and evaluation method.
As a rule, the measurement is carried out from the power supply of the actuator of the valve (for example a switchgear). Calibration measurements on site are also possible if required in order to increase the accuracy.
The method according to the invention achieves the advantage of depressing a fault report when the operational readiness of the valve is not at risk, by virtue of the fact that the limiting values are fixed for each valve-specific parameter on the basis of the design reserve of the valve. Including the limiting values in the check also achieves the advantage of preventing slight variations in a valve-specific parameter from leading to a premature fault report.
Moreover, an advantage which is achieved is that it is possible for the behavior of the valve to be predicted on the basis of a measurement which can be carried out very easily at ambient pressure and ambient temperature under requirement conditions, that is to say in the case of the envisaged used of the valve when a high temperature and a high pressure prevail.
In accordance with another mode of the invention, an upper and a lower desired value are also fixed for the analytically determined value which cover a natural fluctuation of the analytically determined value. The fact that the valve is behaving in accordance with design is then displayed if the measured value is between the upper and the lower desired value.
The desired value deviates from the analytically determined value less than the limiting value. While the desired value only takes account of natural fluctuations, the limiting value covers the fluctuations which are still tolerable for the operational readiness. Specifically, a valve is always constructed in such a way that a valve-specific parameter can deviate from the required value more than is prescribed by the natural fluctuation, without the operation of the valve being impaired. The design of the valve required for this purpose includes the so-called design reserve.
The additional orientation relative to the desired values which are determined by the natural fluctuation of the analytically determined value achieves the additional advantage of detecting at an early stage when the valve is not behaving in accordance with design, but is still operationally ready. It is then possible to institute effective maintenance work in a manner orientated to the state. It is not required to exchange the valve or armature, since it is still operationally ready.
An upper and a lower tolerance value, which are to be prescribed to the measuring accuracy, are determined for the measured value, for example. The operational readiness or the behavior of the valve in accordance with design can then already be denied when the lower tolerance value is less than the lower limiting value or desired value, or the upper tolerance value is higher than the upper limiting value or desired value.
In accordance with a further mode of the invention, the valve includes, for example, an actuator, a power supply and switching elements. The valve can be actuated electrically, magnetically, pneumatically, hydraulically or by a dedicated medium. The measured values are determined by suitable measuring sensors and measuring methods, depending on the type of the valve. Valve-specific parameters can be, for example, the no-load power, the running torque, the spindle force, the valve travel, the operating current, the discharge pressure and/or the running time.
In accordance with an added mode of the invention, the function model describes the behavior of the valve through the travel or stroke or both through the travel or stroke and in “OPEN” and “CLOSED” end positions.
The function model that is set up for the analytical determination of a value is verified experimentally. Its applicability for the respective valve design is ensured through the use of strength calculations using rules of mechanics and design evaluations based on experimental results.
In accordance with an additional mode of the invention, a plurality of measured values are determined, and a fault of the valve is displayed when the measured values are subject to a trend. Following a trend in this way achieves the advantage of making it possible to detect a worsening in the state of the valve as early as when the measured values are still within the two limiting values or desired values.
In accordance with a concomitant mode of the invention, the deviation of a measured value from the limiting value or desired value is determined in each case for a plurality of valves, and a fault is already displayed for a valve when the measured value deviates from the limiting value or desired value more than in the case of the majority of the valves. Such a statistical evaluation advantageously leads to the fact that when the measured values are still within the two limiting values or de

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