SU372483A1 - DEVICE FOR DETERMINATION OF CONCENTRATION AND DISPERSION COMPOSITION OF AEROSOL - Google Patents

Description

one

A device is known for determining the concentration and dispersion composition of an aerosol consisting of a flue, corona and induction electrodes and a measuring circuit.

In order to simultaneously determine the concentration and dispersion composition of suspended particles in the proposed device, the flue-measuring device is made in the form of a variable cross-section cylinder, in which a laminar cone, a system of coaxial cylinders, DC crown electrodes, first induction crown electrodes are arranged a different sign than the crown of direct current and the second induction electrode, and the measuring circuit of the device consists of a cascade subtracting with the first and second inputs and an indicator, an amplifier and an integrator connected in series between the first induction electrode and the first input of the subtraction circuit, a narrow-band amplifier and rectifier with a low-pass filter connected in series between the second induction electrode and the second input of the subtraction circuit and the analyzer connected to the amplifier signal of the first induction electrode.

The first induction electrode is made in the form of a ring with a diameter smaller than the diameter of the electrodes of the first corona, and is located in the narrowing of the gas duct.

The drawing shows a diagram of the proposed device.

The device consists of a duct 1, tubing 2 for introducing an aerosol, a laminarizing cone 3, a cylindrical annular gap with filter material 4 and coaxial cylinders 5. Further along the flow of aerosol

A cylindrical electrode 6, a corona needle 7 of a DC corona, a first induction electrode 8, a cylindrical electrode 9, and a corona needle J-0 of a pulsed unipolar corona and

respectively the second induction electrode

11.At the end of the flue duct installed fan

12. The electrode and the needle are connected to the high voltage source 13 of constant voltage, and the electrode 9 and the needle 10 to the high voltage source 14 of pulsed unipolar voltage. The measuring circuit of the device consists of a pulse amplifier 15 of a narrow-band amplifier 16, an integrator 17, an amplitude analyzer 18 with a filter indication unit

19 low frequencies and subtraction cascade 20 with indicator 21.

The device works as follows. Investigated dust-air mixture is sucked into the duct / through short tubes 2,

arranged in a circle with a constant

step by step. To preserve the radial coordinate of the aerosol jet, a coaxial cylinder system 5 and a laminarizing cone 3 are used. Through the cylindrical slit 4 with filter material, clean air is sucked into the flue I into the flue I, which reduces the suspended particles in the dust-air mixture, and thereby increases the resolution of the device when determining the counting concentration and serves to form an aerosol jet. Suspended particles pass through a zone of a constant unipolar corona along identical trajectories, where particles of the same size acquire charges of the same size. Next, the dust-air mixture passes through the flue with a gradually decreasing diameter the induction electrode 8 and through the flue with a gradually increasing diameter enters the zone of the impulse corona. Placing the first induction ring in the constricted part of the duct increases the resolution of the device when counting individual particles. The signals from the first induction electrode 8, proportional to the surface of the charged particles, after the pulse amplifier 15 arrive at the inputs of the integrator 17 and the amplitude analyzer with the display unit 18. Thus, the signals from particles of a certain fraction will be recorded by a counter of a specific amplitude analyzer channel. At the output of the integrator 17, a voltage is created that is proportional to the total charge of the large particles. On the needle 10, with the help of the source 14, a pulse of the opposite mark is applied to the unipolar crown with respect to the first crown. After passing through the impulse corona zone, spatially separated packets of positively charged particles and packets of negatively charged particles appear in the aerosol. The passage through the measuring electrode And, they create at the input of the narrowband amplifier 16 a variable signal with an amplitude proportional to the concentration of particles. At the output of the rectifier with a low-pass filter 19, a constant voltage is created, which is proportional to the concentration of the transmitted aerosol. The signals from the outputs of the integrator 17 and the filter 19 are fed to the subtractive cascade 20, at the output of which the indicator 21 registers a signal proportional to the concentration of the fine fraction. When the integrator 17 is switched off, the indicator 21 registers a signal proportional to the concentration of the entire aerosol fraction passing through the second induction electrode //.

Subject invention

Claims (2)

1. A device for determining the concentration and dispersion composition of an aerosol consisting of a flue, corona and induction electrodes and a measuring circuit, characterized in that, in order to simultaneously determine the concentration and dispersion composition of particles, the flue is made in the form of a variable cross-section cylinder, in which laminarizing cone, coaxial cylinder system, DC crown electrodes, first induction electrode, pulsed unipolar crown electrodes There is a different mark than the DC crown, and a second induction electrode, and the measurement circuit consists of a subtraction cascade with the first and second inputs and an indicator, an amplifier and an integrator connected in series between the first induction electrode and the first input of the subtraction cascade, a low-pass filter connected in series between the second induction electrode and the second input of the subtracting stage and the analyzer connected to the signal amplifier of the first induction electrode. 2. The device according to claim 1, characterized in that the first induction electrode is made in the form of a ring with a diameter smaller than the diameter of the electrodes of the first corona, and is located in the narrowing of the flue. Lfj