SU1275282A1 - Device for measuring content of helium - Google Patents

Abstract

The invention relates to the field of analytical instrumentation and is intended to record the content of gels in the water of wells — the geochemical precursor of earthquakes. The purpose of the invention is to improve the measurement accuracy. The installation contains a passive thermostat with an inlet and inlet pipingJ for pumping water, a flow-type magnetic discharge sensor, placed inside a thermostat and electrically connected to the recording system through an amplifier, an air node, including a pump and an air line, a switching unit, breakdown (L selector. Switching unit is completed With a view of a three-way valve, which periodically allows either to pass gels through the measuring line with the sensor or analyze this water in the opposite direction. direction by air. 2 ill.

Description

The invention relates to analytical instrumentation, in particular, devices designed to monitor the content of gels in natural waters, and can be used for aBTOMaTK4ecKOjM monitoring the content of gels in groundwater when searching for geochemical precursors of earthquakes, estimating the informativeness of wells and predicting seismic activity. The purpose of the invention is to increase the reliability and accuracy of measurements of the content of gels. FIG. 1 is a schematic of the installation in FIG. 2 - magnetic sensor gels and thermal sensors installed in the measuring line. contains a passive thermostat I with an internal volume of 2. The first thermostat has a cross-section 3 and output 4 pipelines for pumping the test water by pouring cix squall. In the internal volume 2 of the stat stat, a magnetic-discharge membrane sensor 5 gels are placed, inserted into measuring line 6 and through an amplifier 7 electrically connected through a temperature correction unit 8 to the information recording system 9. Measuring line 6 is connected to line 10 for sample discharge, placed in the water jacket of the thermostat t so that its heat exchange surface is sufficient to ensure that the liver is inlet air flow. A pressure sensor 11 is also installed in the measuring line 6, electrically connected to the temperature correction unit 8. The thermostat 1 with an internal valve (5 in the Y2 of the thermostat 1 block ko}. Mutad1-i-g is designed as a three-way valve for 12, the second of which is connected through a measuring 6 with a line 10 to drop the sample. The first valve nipple is connected to the sampler 13, and the third connection to the pneumatic route 14, the other end of which is connected to the flow booster 13 (vacuum water jet pump) installed at the outlet Tpy ojjpoBo-da 4 of the thermostat L The sampler 13 is located in the - cavity of the inlet pipe 3. The pulse control unit 16 laziness is made as Aymera N: M: Electric is connected to the executive input of the switching unit and the system; 9 registration information. The magnetically-discharge sensor 5 gels are mounted on the measuring line 6 with the help of the bracket 17 in the manner that the quartz membrane 18 is mounted on the upper end of the ejector 19 , enters the hole made in the side wall of the measuring line b, the protrusion above its inner surface is not more than О ,, 1-0,2 mm. The bracket 17 is attached to the body of the sensor 5 gels with an epoxy compound 20. The body of the sensor contains a magnetic discharge pressure detector (not shown), which simultaneously with the pressure measurement installed in the internal volume of the sensor 5, acts as a pump absorbing helium penetrating the sensor 5 through the quartz membrane 18, the thermal sensor 11 is installed into the hole in the side wall of the measuring line 6 directly above the sensor 18 of the sensor gels and is mounted on the outer surface of the measuring line to the bracket eynz July 1 when a lid 21. The device operates as follows. The test water comes from the well. It passes through a passive thermostat 1, performs the functions of a heat transfer fluid, and is discharged through a flow booster 15. The measurement cycle starts when the first fitting of the three-way valve 12 is closed and the second and third fittings are open. The air drawn in by the flow rate booster 15 enters line 10 to discharge the sample, where it acquires the temperature of the analyzed water. After that, it passes through the measuring line, in contact with the diaphragm 18 of the magnetically discharged sensor B and the temperature sensor valve 12. There, the air is caught in the gap from under the gaskets to the apana helium and the remaining water, and through the pneumatic line 14 and the flow booster 15 (water jet pump) drops it out. The control unit 16 commands the register information system 9 to measure and register the background current from sensor 5 through amplifier 7. After this, control unit 16 outputs a signal for switching valve 12, while blocking the third fitting of valve 12 connected to air line 14, and the first nozzle opens, providing access of the analyzed water to the measuring line 6. At the same time, the water moves in the direction of return air when blowing (from valve 12 to sensor 5), and is discharged at the outlet of line 10 sample dumping. Helium, dissolved in water, diffuses through the quartz membrane 18 into the internal volume of the sensor 5 helium, causing an increase in pressure on it, to which the magnetic discharge pressure detector responds by increasing the discharge current. This signal is amplified by an amplifier 7-15 and fed to a temperature correction unit 8, where, depending on the temperature of the water under study detected by the thermal sensor 11, it is corrected. Two minutes after the valve 12 is switched off, when the signal of sensor 5 is stabilized, unit 16 issues a command to information recording system 9, according to which it registers the resulting signal from adjustment unit 8. Then block 16 gives the command to switch the valve 12 to its original position. Water access is blocked through the first valve connection 12,

Claims (1)

in it, the switching unit is made in the form of a three-way valve, the first fitting of which is connected to a sampler located in the inlet pipeline, the second fitting is connected to the measuring line, and the third - to the flow booster. 2 and through the third connection, connected to the pneumatic line 14, and through the flow driver, to the discharge. The installation enters a purge mode prior to subsequent measurement. Claims An installation for measuring the content of gels in groundwater from self-discharging wells, including a thermostat with inlet and inlet pipelines for pumping water from self-discharging wells, a membrane sensor gels located in it and connected to the recording system, sampler. a flow booster connected to the pneumatic line and a switching unit, characterized in that. in order to increase the reliability and accuracy of measurements of the contents of the gels. J: q V Ljy Figg / 7 i9 20