SU1296906A1 - Device for measuring gas dust burden - Google Patents

Abstract

The invention relates to the field of analysis of aerodisperse systems, namely, devices for determining the dust content of a gas, and can be used in solving problems of environmental protection and control of technological hygiene, in the study of condensation nuclei and atmospheric aerosols, for testing filters. The purpose of the invention is to increase the reliability of control by ensuring the neutralization of the natural charge of particles, reducing energy consumption and increasing safety of work by eliminating the corona electrode in the device. The device comprises a duct made of insulating material. Parallel lattice electrodes are located in the lower and upper parts of the duct. Flat sources of particles are installed on the inner surface of the housing. The use of grid electrodes and radioactive radiation sources, their proposed arrangement in a gas pipeline body, creates a unipolar ionic atmosphere near a grounded electrode, and makes unipolar electrification of particles in a gas flow through a grounded electrode onto a filter connected to an electrometer to measure current of particle transfer , settled on the filter fibers, and by its magnitude determine the dust content of the gas, t sludge. S (l

Description

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The invention relates to a measurement technique, is designed to determine the concentration of particles in gases and can be used in biology, medicine, electronic and other industrial fields.

The purpose of the invention is to increase the availability of control by ensuring the neutralization of the natural charge of particles, as well as reducing energy costs and improving safety by eliminating the corona electrode.

The drawing shows the functional scheme of the device.

The device contains a duct 1 made of insulating material. Perpendicular to the axis of the duct, parallel grid electrodes 2 and 3 are located in the upper and lower parts of the duct. Electrode 2 is connected to voltage source 4, and electrode 3 is grounded through a microammeter 5. Power supply does not exceed 1 kV. Near the electrode 2, flat sources of 6 and 7 alpha particles are installed on the inner surface of the gas pipeline so that the ionizing radiation does not penetrate to the grounded electrode 3, i.e. at a distance from it, exceeding the mean free path of the alpha particle in the test gas. A filter 8 with conductive fibers is installed in the lower part of the housing, connected to an electrometer 9 for measuring the current transfer of particles deposited on the filter fibers. To the upper and lower ends of the housing 7 there are fixedly attached inlet 10 and outlet 11 nozzles for inlet and outlet of the gas and dust under study from the gas duct. The microammeter 5 is designed to control the electrical conductivity of the gas, the value of which uniquely determines the electrification of the particles for a given field value in the gas duct and charging time.

The device works as follows.

A flow of dusty gas with a bulk velocity of 0.1-0.4 l / s through the nozzle 10 is supplied to charging zone A, located between electrodes 2 and 3. In zone A, near lattice electrode 3, unipolar charge of suspended particles in the gas occurs by ions that are generated by alpha radiation from a source

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The coils 6, 7 and are concentrated near the electrode 3 by the electric field E. The field E is formed by creating a potential difference between the grounded electrode 3 and the electrode 2 connected to a constant voltage source 4. The positive ions formed by ionizing radiation are concentrated by the field E near electrode 2 and are practically not contained near electrode 3, since the shortest distance between the fixed electrode and radioactive sources 1 & L (L is the mean free path of alpha particles in the test gas). The flow of unipolarly charged particles from the charging zone through the lattice electrode 3 is fed to a filter 8 connected to an electrometer 9 for measuring the transport current of particles 1p1 deposited on the filter fibers. The magnitude of 1 and the magnitude of the ion current in zone A, measured by a microammeter 5, judge the dust content of the gas. In addition, in the space between the sources of alpha particles, the natural positive and negative charges of the particles are neutralized, which leads to an increase in the reliability of the control.

Claims (1)

Invention Formula A device for measuring the dust content of a gas containing a duct made of insulating material and equipped with inlet and outlet nozzles, two parallel electrodes installed in the duct, one of which is grounded and the other connected to a voltage source, a source of unipolar ions and a filter with a wire fibers installed in the duct in front of the outlet pipe and podklyuchennyi to talent electrometer, o t - so that, with aim of increasing the reliability of control by ensuring the neutralization of the natural charge of the particles, and also in order to reduce energy consumption and increase safety of work by eliminating the discharge electrode in the device, both parallel electrodes are made of lattice and installed perpendicular to the gas flow between the inlet pipe and the filter with conducting fibers, and the source of unipolar ions is made from flat sources of alpha particles, usn 12969064 between the grating electrodes that are longer than the free birth on the inner surface of the alpha-particle path in the test probe at a distance from the grounded gas .. eleven Editor N.Kishtulinets Compiled by D.Gromov Tehred I.Popovich Proofreader G. Reshetnik 769/45 Circulation 777 Subscription VNISH1I USSR State Committee for inventions and discoveries 113U35, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4