RU2213347C2 - Procedure determining content of hydrogen chloride in air - Google Patents

Abstract

FIELD: measurement technology, methods establishing content of gaseous hydrogen chloride. SUBSTANCE: procedure includes sampling and pumping of air, division of air flow into two flows and throttling to control flow of air in flows. First and second sensors detect gaseous chlorine, first sensor measures gaseous chlorine in first flow. Second sensor measures gaseous chlorine produced by added operation of disintegration of hydrogen chloride to chlorine in second flow. Signals from first and second sensors of chlorine are subtracted, compared and converted by information processing operations to content of hydrogen chloride in ambient atmosphere. Digital indication of readings, light double-level signaling, filtration and measurement of flow rate of each air flow are carried out and flows are mixed later. EFFECT: simplified procedure with increased measurement accuracy. 1 dwg

Description

 The invention relates to measuring technique, to methods for determining the composition of gas-air mixtures, can be used for the quantitative determination of gaseous hydrogen chloride in the ambient air of industrial premises and workplaces in industry.

 A known method of analyzing a gas mixture in order to detect and determine an impurity, containing the sampling of the test mixture from the environment, selecting the necessary impurities through the use of a gas-permeable membrane, ionizing the mixture, removing all ions that do not meet a certain ratio, determining the impurity by mass spectroscopy.

 The method is complex and requires expensive equipment [1].

A known method and device [2] for non-intrusive continuous and automatic selection of analytical samples, sample preparation, including sampling using a pump, separating a specific sample using a membrane and applying to the absorption element, dissolution and diffusion at the corresponding temperature of the test spot, correlation , determination of a sample by a special sensor analyzer,
The method has many operations, complicated.

 A known method for the determination of sulfur and chlorine in organic compounds [3], containing the following operations: selection, burning of the selected sample, determination of sulfur content by IR spectroscopy, acidimetric titration of the resulting combustion products, determination of chlorine content by the known formula.

 The method also requires special equipment infrared spectroscopy.

 A known method for determining the content of hydrogen chloride [RU 2074389 C1], comprising the following operations: selection and pumping of air, separation of the air flow into two, determination of the content of hydrogen chloride by mass spectrometry.

 The method requires complex mass spectrometric equipment.

 The objective of the present invention is to improve the accuracy of determination, creating a simpler procedure for determining gaseous hydrogen chloride in air, while eliminating the influence of gaseous chlorine, high humidity.

 To solve this problem, the following method is proposed.

 Ambient air intake using a pump, restriction by a throttle in certain constant flow rates, direction to the first analyzer of gaseous chlorine, direction to the reaction space where gaseous hydrogen chloride reacts with potassium bromide to produce gaseous chlorine, direction of the mixture to a second chlorine analyzer, concentration calculation hydrogen chloride according to the results of both analyzers.

 Determination of the content of hydrogen chloride in this way allows to increase the accuracy of determination by taking into account the gaseous chlorine contained in the source air, the analysis of the content of gaseous chlorine is more independent of the humidity of the air better accuracy characteristics of the chlorine analyzer.

The method is presented in the drawing and includes the following operations:
1 - selection of ambient air using a micropump
2 - splitting into two streams
3 - flow throttling
4 - direction of the first flow to the chlorine gas sensor and determination of the content
5 - direction of the second stream to the decomposition device with the generation of chlorine from hydrogen chloride
6 - direction to the second sensor of gaseous chlorine and determination of the content
7 - filtering the first stream
8 - determination of the flow rate of the first stream
9 - mixing of the effluent
10 - throttling of the second stream
11 - filtering the second stream
12 - determination of the flow rate of the second stream
13 - input signals from chlorine sensors in the information processing device
14 - processing of measurement results
15 - indication of measurement results
A method for determining the content of hydrogen chloride, which is new, unknown from the prior art, is proposed. The method is applicable in industry, as it provides better accuracy characteristics for the determination of hydrogen chloride, less independence from environmental conditions.

Sources of information
1. Application of France 3590026, G 01 N 27/62, publ. 05/15/87.

 2. The patent of Germany 3818210, G 01 N 1/00, publ. 11/23/89.

 3. A.S. USSR 1564533, G 01 N 31/22, publ. 04/08/88.

 4. A.S. USSR 1497518, G 01 N 21/25, publ. 07/30/89, BI 28.

Claims (1)

 A method for determining the content of hydrogen chloride in air, including the selection and pumping of air, separation of the air stream into two, characterized in that after the separation of the air stream is carried out, to regulate the air flow through the flows, throttling and determining the first and second sensors of gaseous chlorine, the first chlorine gas in the first stream is measured by a sensor, and chlorine gas obtained in the additionally introduced decomposition of hydrogen chloride into chlorine is measured by the second sensor the second stream, the signals from the second and first chlorine sensors are subtracted, converted by processing information into the percentage of hydrogen chloride in the air, which is indicated by a digital indicator, as well as signal lamps that exceed the lower and upper limits of detection of hydrogen chloride and filter and measure the flow rate of each air stream and their subsequent mixing.