SU1012096A1 - Device for determination of content of gases diluted in liquid - Google Patents

Abstract

1. A DEVICE FOR DETERMINING THE CONTENT OF MIXED GASES, containing a sensor from a gas-permeable tube connected to the carrier gas purge line, a gas analyzer, a carrier gas regulator, distribution valves and a timer connected to them, which is designed to increase sensitivity and measurement accuracy and reducing the inertia of the device due to the supply of two streams with different continuous flow rates of the gas carrier; it is equipped with an additional carrier gas purge line connected with the main valve through distributors, one of which is installed in front of the sensor. 2. The device according to claim 1, which is in that it is equipped with a transducer-formate connected to the gas analyzer (L with a device that stores the memory. To about with O)

Description

The invention relates to a technique for measuring the content of gases dissolved in a liquid and can be used in medical, microbiological, chemical and other industrial fields. It is known a device consisting of a long Teflon tube, through the walls of which oxygen flowing in it diffuses oxygen dissolved in a liquid. However, this device has low sensitivity and measurement accuracy. Closest to the present invention is a device comprising a sensor from a gas-permeable tube connected to a carrier gas purge line, a gas analyzer, a carrier gas supply controller, distribution valves and a connected pressure sensor 2. The disadvantage of this device is the presence of the process of diffusion of the test gas from the sensor into the input line of the carrier gas. Interruption of the carrier gas flow through the gas analyzer leads to a change in the total pressure, which reduces the accuracy of the gas analyzer readings at normalized values of the flow rate and pressure of the gas mixture. In addition, in the circuit the carrier gas supply regulator and the sensor mixing and leveling the concentration of the gas mixture is determined only by diffusion processes, which increases the inertia of the device. The purpose of the Invention is to increase the sensitivity and accuracy of measurements and reduce the inertia of the device due to the supply of two streams with different continuous flow rates of carrier gas. This goal is achieved by the fact that a device containing a sensor from a gas-permeable tube connected to a carrier gas line, a gas analyzer, a carrier gas supply controller, valve valves and a time connected to them is equipped with an additional carrier gas line connected to the main through the distribution valves, one of which is installed in front of the sensor. At the same time, it is equipped with a converter-converter with a storage device connected to the gas analyzer. FIG. 1 shows a diagram of the proposed device, the position of the I distribution valves; FIG. 2 - the same, position P The device contains a regulator for supplying a carrier gas, including a pery l torus of 1 pressure of the carrier gas, regulators 2 and 3 of the flow rate, timer 4 sr-. a device for controlling the operation of gas distributors 5 and b, a sensor 7 with gas-permeable walls, a gas analyzer 8, a converter-former 9 and a storage device 10 providing continuous recording of measurement results without the reading of the recorder 11 to zero. The device works as follows. In the first cycle, the distributors 5 and b commute the gas lines in accordance with the position T. The gas carrier passing through the gas analyzer 8 with the flow rate corresponding to the requirement for the gas analyzer operating conditions and set by the flow regulator 2 is set to zero level of the output signal. Due to the low flow rate of the carrier gas passing through the sensor 7 line, along with an order of lesser flow in the gas analyzer 8, accumulation of the detectable gas diffusing through the walls of the sensor 7 is ensured by efficient mixing of the gas mixture due to diffusion and movement of the carrier gas in sensor 7 and in line behind the sensor, which makes it possible to create a homogeneous mixture. The flow of carrier gas through the sensor is selected from the condition of obtaining the concentration of the detected gas in the carrier gas, equal to the upper limit of the scale of the recorder 11 And corresponding to the maximum value of the gas content in the liquid, and is set by the flow regulator 3. In the second cycle, at the command of timer 4, switching occurs gas lines distributors to the position O. Investigated gas mixture from sensor 7 is transported by the carrier gas flow, the flow rate of which is set by controller 2, to the gas analyzer a. Then the cycle is repeated. In order for discrete passage of the sample through the gas analyzer 8 not to observe separate peaks on the chart tape of the recorder 11, the converter-former 9 and the storage device 10 are inserted, which allows to obtain a constant reading level for each analysis cycle. The signal in the form of a peak, the maximum of which is proportional to the content of the dissolved gas, comes from the output of the gas analyzer 8 to the converter-shaper 9 "The latter forms a constant voltage proportional to the maximum of the peak and sends a command to record the magnitude of this voltage in the storage device 10. Constantly the recording time is much less than the constant time of the mechanism of the recorder's indicator, as a result of which a quasi-continuous display of | MEASURED value occurs, while maintaining its value beyond Period between previous and subsequent analyzes.

The use of the proposed 1: device allows you to automate the process of measuring gas

. in liquids and by increasing the accuracy and reducing the inertia to use it in the systems of automatic control and control of the technological process by 1 mi;

Introduction to this device is

the formformer and the memory of the 4-nanche device allow you to use4

: call serial industrial registrars without modifications.

one

Claims (2)

1. DEVICE FOR DETERMINING THE CONTENT OF THE GASES DISSOLVED IN A LIQUID, comprising a sensor from a gas-permeable tube connected to a purge gas line, a gas analyzer, a carrier gas supply regulator, distributing valves and a timer connected to them, characterized in that, in order to increase the sensitivity and measurement accuracy and reduce the inertia of the device due to the supply of two streams with different continuous flow rates of the carrier, it is equipped with an additional purge line of carrier gas connected to the base hydrochloric through klapanyraspredeliteli, one of which is mounted in front of the sensor. 2. The device according to claim 1, characterized in that it is equipped _{with a} converter-former with a storage device connected to the gas analyzer. L