SU1257460A1 - Device for checking intensity of gas emission from thermal water - Google Patents

Abstract

The invention relates to devices for monitoring the intensity of gas emission from thermal water, can be used in earthquake prediction stations for geochemical features, and allows for improved measurement accuracy. The device contains a sealed housing 1 (K) with inlet 2 (with a nozzle 3 at the end) and outlet 4 pipelines. To 1 is connected to a water meter tube 6, equipped with sensors 9, 10 of the upper and lower levels, connected to a software control unit 13 connected to a chronograph 14 and a servo drive 12. 1 pc. S 1h9 SD H 4 a

Description

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The invention relates to instrument engineering of seismological research, in particular, devices for analyzing natural waters for dissolved gas, and can be used at earthquake prediction stations on geochemical basis to automatically record the emission of gas from thermal waters.

The purpose of the invention is to increase the measurement accuracy by periodically volumetric gas measurement.

The drawing shows a functional diagram of the proposed device.

The device contains a sealed case 1, an inlet pipe 2 with a nozzle 3 at the end and an outlet pipe 4 for draining the analyzed liquid through the monostat 5. The hermetic case 1 is connected to the water tube 6 by the upper and lower nozzles 7 and 8. In the upper and lower parts of the water tube placed electrodes 9 and 10 of the display of the upper and lower levels. Sealed case 1 is placed on the rotary support 11 and is connected to the servo 12. The device also contains a software control unit 13 and a printing chronograph 14.

The device works as follows.

At the command of the software control unit 13, the servo drive 12

Turns the body 1 with the nozzle down 180 with respect to the position shown in the drawing. In this case, the entire body, together with the supply flexible lines 2 and 4 and the water metering tube 6, is filled with the water to be analyzed. After rinsing with thermal water (2-3 minutes) at the command of the control unit 13, the housing 1 is turned over by the servo actuator 12 to the position shown in the drawing (with the nozzle facing up). Nachi Compiler A. Popov Editor A. Ogar Tehred i.Popovich Proofreader A. Obruchar

Order 4907/38 Circulation 778 Subscription VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

. Production and printing company, Uzhgorod, Projecto st., 4

02

nas gases1) 1 separation in the upper part of the housing above the nozzle 3. The water level drops and opens the upper pair of level indication electrodes 9, as a result of which the control unit 13 sends a command pulse to the printing chronograph 14 and the origin of gas emission is recorded. the water level drops and reaches the lower pair of level indication electrodes 10, as a result of which the control unit 13 sends a command pulse to the printing chronograph 14 to complete the gas time recording count gels The volume of the body part between the electrodes is calibrated and the rate of gas exhaust is calculated by the time it takes to fill the standard volume.

Sloth 1 according to the formula: .I

where V is the calibrated volume between

dT Y-Y „(

level sensors; T corresponds to the chronograph end of reference).

L - respectively start time and

formula of invention

A device for monitoring the intensity of gas evolution from thermal water, containing a chamber with pipelines, a water meter tube with level sensors connected to the npo-frame control unit, a printing chronograph for recording the gas velocity, so as to increase the accuracy measurement by periodic volumetric gas measurement, it

It additionally contains a servo drive connected to the camera, while the servo input is connected to the first output of the software control unit, the second output of which is connected to the chronograph, the water meter tube is connected to the upper and lower parts of the chamber, and the pipelines are flexible.

Claims (1)

Claim A device for monitoring the intensity of gas evolution from thermal water, comprising a chamber with pipelines, a water meter tube with level sensors connected to a program control unit, a printing chronograph for recording gas evolution velocity, characterized in that, in order to increase measurement accuracy by periodically measuring the volume of gas, it additionally contains a servo connected to the camera, while the input of the servo is connected to the first output of the program control unit, the second output of which is connected with a chronograph, a water measuring tube is connected to the upper and lower parts of the chamber, and the pipelines are made flexible.