DE2609717A1 - DEVICE FOR MEASURING LEAK LEAKAGE IN A LIQUID PIPING SYSTEM - Google Patents

Description

26Q9717

SIEMENS AKTIENGESELLSCHAFT Our reference Berlin and Munich VPA 78 F 3 3 \\ Π pn

'' Device for measuring the leakage losses in a liquid-carrying Piping system

Device for measuring the leakage losses in a fluid-carrying pipe system, with one flow meter each for the flow and return, the output signals of which, switched in difference, form the measurement signal.
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In many cases it is necessary to reliably record leakage losses that are less than 1 % of the nominal flow rate. especially when the medium conveyed in the line system can react dangerously with the medium surrounding it.

This is the case in many chemical processes, but also in other branches of industry, such as the iron and steel industry, for example the cooling water circuits for the water cooling of the blast furnace tuyeres must be monitored for leakage losses, since Leakage water, which also penetrates the wind forms in very small quantities, leads to the formation of water gas and thus to explosions in the blast furnace can lead. The conventional methods of electrical difference formation between the results of two individual flow measurements ■ lead here because of the sum of the tolerances of at least 2 So on average and the change in the same during operation do not lead to satisfactory results.

According to a known method (DT-OS 1 951 378) an improvement in the measurement is to be achieved in that both Vorwie Return flow through an inductive flow meter, whereby due to the common magnetic field of symmetrical measuring sections the measuring error can be reduced. Since, however, special training of the measuring sections is necessary here are, such facilities are relatively expensive.

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Accordingly, there is the task of creating a device for measuring leakage losses in a pipe system, with which Durr-hflussdifferences in the supply and return can be reliably detected in the order of magnitude of 0.5% of the nominal flow and which is easy and with extensive use of commercially available electrical and electronic components can be built.

A solution to the problem is seen in a device as characterized in claim 1.

With this device, which in a preferred embodiment with standard diaphragms and strain gauge transducers with less static pressure dependency and response times less than or equal to 0.1 see, it will be due to the periodic The measuring points can be queried, on the one hand a signal for the drift compensation of the transducers before each actual measurement to win and on the other hand with the help of the integrator with a given running time one of the momentary statistical To obtain measurement results independent of fluctuations in the measured value. It is also possible to use the same measuring device to monitor several similar line systems by switching the transducers on cyclically with the help of switchable valves the differential pressure transducer pairs of the other systems are switched.

In a further development of the invention, there is provision for monitoring the long-term drift of the measuring sections, which is mainly caused by soiling of the differential pressure transducer or by changes in load or outside temperature in the hourly range, to give up the output signal of the integrator each to an analog storage and comparison circuit, which is in time with the Measuring period contains alternately switchable memory pair and in which the difference between the current and the previous measured value is formed and fed to an indicator and / or limit indicator.

In this way, a high degree of operational safety and economy is achieved.

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The invention is illustrated below with reference to one in the figure Schematics "for example explained.

The coolant is fed to a cooling system 1 via the flow line and discharged again via the return line 3. To the Detection of possible leakage losses in the coolant circuit are both in the supply line 2 as well as arranged in the return line 3 differential pressure transducers 4 and 5, the preferably consist of standard measuring orifices and their active pressures via differential pressure lines 6 and 7 to the pressure transducers 8 and 9 are supplied, in which the differential pressure signal is converted in a known manner into an electrical current signal.

The outputs of the pressure transducers 8 and 9 are both on a first subtractive junction 10 and on the inputs out of calibration circuits 11 and 12, which in the simplest case consist of a resistor network with adjustable Resistance exist and with their help the systematic errors that occur during commissioning or after a long period of operation occur, eliminated v / earth.

That formed in the first subtractive η linkage point 10 Difference signal is fed to a memory 13, the output of which a second algebraic linking stables 14 on shelled υ is, on v / elcher via switches 15 and 15 'also the outputs cer two calibration circuits 11 and 12 and thus the flow in the flow line 2 and the flow in aer return line 3 representing output signals of the pressure transducers

8 and 9 lie.
30th

The output signal of the second linkage point 14, which is formed in a manner to be explained later, is an integrator 16 supplied with a fixed integration time, the output of which feeds a display 17, here a registering measuring device.

In the flow line 2 and the return line 3 sina temperature transducers 19 and 20 next to the differential pressure transducers 4 and 5, the temperature transducers 21, 22 on the

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BATH ORIGINAL

26.Q9717

Calibration circuits 11 and 12 are connected. There, in a manner known per se, the difference in density resulting from the temperature is shown of the coolant in the flow and return, the necessary correction of the flow measurements has been made. Are resistance thermometers are used, they can be switched directly into the resistor network of the calibration circuits.

A control unit 23 with a clock 24 controls, as indicated by the dash-dotted lines of action, with the help of various electronic time relay, a first controllable changeover switch 18 in the differential pressure line 7, the switches 15 and 15'j deleting and loading the memory 13 and gives the integration time of the integrator 16 before.

The measuring circuit shown can also be equipped with an additional circuit for monitoring the long-term drift of the measuring sections, mainly due to soiling of the measuring orifices, but also due to changes in load or outside temperature in the hour range is caused, expanded v / ground. For this purpose, the output signal of the integrator 16 is an analog memory and Comparator circuit 25 supplied, which are essentially two Contains memory, here capacitors, whose inputs and outputs can be switched in opposite directions by the control unit 23, see above that the values of two successive measuring cycles can be compared with one another. That from this comparison Resulting difference signal is fed to an indicator 26 and / or an adjustable limit indicator 27, the leg If a predetermined limit value is exceeded, an acoustic or optical signal transmitter 28 is actuated.

The sequence of a measurement process, the duration of which is set by the clock 24, for example, to 8 seconds, is as follows:
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The controllable changeover switch is located to obtain a correction signal for drift compensation of the pressure transducers 8 and 9 18 and the switches 15 and 15 'in the position shown.

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The pressure transducers 8 and 9 are parallel to the same differential pressure transducer 4 connected, so that the same signal is present at their inputs as their output signals in the normal case correspond. However, if the pressure transducers 8 and 9 have different zero point drifts, there is a difference in the output signals, a difference signal is formed therefrom in the first linkage point 10 and into the memory 13 read in. Thereafter, with the changeover switch 18, the differential pressure transducer 5 in the return line 3 is connected to the input 'of the pressure measuring transducer 9 and thus the parallel connection of the pressure transducers is canceled. It is now taking place for one from the control unit 23 given time the actual flow measurement in the flow and return takes place. The electrical readings of the Pressure transducers 8 and 9 are now closed switches 15 and 15 'of the second connection point 14 to Difference formation supplied, simultaneously with the memory content of the memory 13 with the opposite sign as a correction signal for drift compensation.

In order to compensate for statistical fluctuations in the measurement signals, the output signal of the connection point 14 in the integrator 16 integrated over a specified time, the resulting mean value is the measured flow difference and thus proportional to the leakage that occurs and is displayed in the recorder designed as a point recorder registered after the integration period has expired. Then the integrator 16 is set to zero, the memory 13 is deleted, the switches 15, 15 'open and the changeover switch 18 switched over, a new measuring process begins.

The essential parts of the measuring circuit can also be used for monitoring several line systems can be used by the pressure transducers 8, 9 and the temperature transducers 21, 22 can be connected to the corresponding transducers in the individual line systems, so that when using a Multi-point recorder in the display 17 a time-multi

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plex measurement and registration can take place. The measuring point switch of the multiple point recorder can be used as a clock for the control unit 23 at the same time. The storage and comparison circuit 25 is in one of the number
the number of the monitored systems.

8 claims
1 figure

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Claims (8)

Claims 1 .1 device for measuring leakage losses in a fluid-carrying pipe system, with one flow meter each for the flow and return, the output signals of which when switched in difference form the measurement signal, characterized in that differential pressure transducers (4, 5) and pressure transducers known per se as flow meters (8, 9) are used and that a first controllable switch (18) is provided for connecting the inputs of both pressure transducers (8, 9) in parallel to one of the differential pressure transducers (4) and that the outputs of the pressure transducers (8, 9) are connected to a first subtractive linkage point (10) and with the help of controllable switches (15, 15 ') can be switched to a second linkage point (14) and that the difference signal of the first linkage parts is fed to a memory (13), the content of which as a correction signal with the opposite sign to the second connection point (14) is switchable and that the output signal of the second connection point (14) an I. integrator (16) is supplied with a fixed integration time, the output of which feeds a display (17) and that a control unit (23) with a clock (24) is provided for periodic control of the correction and integration process. 2. Device according to claim 1, characterized in that as a differential pressure transducer (4, 5) standard apertures and as a pressure transducer (8, 9) Strain gauge transducers with low static pressure dependency and a setting time smaller 0.1 seconds are used. 3. Device according to claim 1, characterized in that . a calibration circuit in each case between the outputs of the pressure transducers (8, 9) and the second connection point (14) (11, 12) is switched. VPA 75 E 3592 709837/0216 26Q9717 'is' 4. Device according to claim 1 and 3, characterized in that in the flow and return line (2, 3) next to the Differential pressure transducers (4, 5) are arranged on temperature transducers (21, 22) working temperature transducers (19, 20) are, the electrical measurement signals of the calibration circuits (11, 12) for correcting the temperature-related Difference in density of the liquid supplied in the measuring sections are. 5. Device according to claim 1, characterized in that for monitoring the long-term drift, the output signal of the integrator (16) is fed to an analog storage and comparison circuit (25), the output of which is connected to a limit value indicator (27) and / or indicator (26) is connected. 6. Device according to claim 1, characterized in that several line systems with it by cyclic selection are monitored. 7. Device according to one or more of the preceding claims, characterized by their use in the monitoring of cooling circuits for blast furnace tuyeres. 8. Device according to claim 1 and 6, characterized in that a multi-point recorder is used as the display (17) whose measuring point switch is also the clock for the control unit (23). VPA 75 E 3592 709837/021