SU1408160A1 - Device for checking operating conditions of thermal power plant - Google Patents

Abstract

The invention allows to increase the reliability of control. The generator (D) 1 is connected with p. P. lines 7, passing through the holes 8 in the chamber of the thermal power plant with the measuring arm 5. The meter 10 is connected to the support arm 6 located inside the chamber. Circulator 3 is installed between G 1 and the measuring and supporting arms. G 2 is connected to circulator 4 connected by Bo. i-nOBODI 7 to the shoulders 5 and 6 through additional holes in the chamber. Reliability counter,: 1 is achieved by positioning the reference arm under the same working conditions with the measuring arm and converting the output signal into frequency forms. 4 il. (About

Description

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The invention relates to a power system can be used in the systems of control and management of power plants.

I The purpose of the invention is to increase reliability.

FIG. 1 shows a block diagram of a device for controlling the mode of a thermal power plant; in fig. 2 - a flute rectangular waveguide with a dielectric one changing the concentration of electrons in a plasma. Similarly, the signal from oscillator 2 through waveguides 7 and apertures 8 is fed to the synchronization input of oscillator 1. Generators 1 and 2, frustrated with each other in frequency, enter mutual synchronization mode, in which the synchronization frequency is a function of the signal delay phases in both shoulders 5 and 6. Part of the microwave signal through directed otggricheskom filling; in fig. 3 - a groove rammer is fed to a meter (frequency-wound rectangular waveguide and closed meter) 10, the frequency of which is measured by the rectangular waveguide; in fig. 4 - gutter according to concentration change

semicircular waveguide.

The device contains the first 1 and second 2 generators, circulators 3 and 4, measuring 5 and supporting 6 arms connected to the circulators using waveguides 7. Waveguides are laid through apertures 8 in the thermal power plant chamber. To the waveguide connecting the support arm mounted on the wall of chamber 9, with a second 2o identical (at least in absolute magnitude circulator 4 using a coupler, sub base), the response to interference, but not

 The meter is on (frequency meter) 10.to the useful signal (otherwise

 The measuring and reference arms are compensated and the measured value is

The properties shown in FIG. 1 on different walls of the signal).

; chambers of thermal power plant. Measuring and supporting shoulders, prev: In FIG. Figures 2–4 show the variants that locate a flute and closed wave electrons in the near-wall layer of the chamber of the thermal power plant.

The location of the support arm inside the chamber, as well as the properties of the transmission line of this shoulder, inform the control device of the properties of balanced measurement circuits. In such schemes, the ideal compensator, which plays the role of the supporting arm, should have

Shoulder shoulders in such a way that the effect of a fur on both shoulders of the device is the same. I FIG. 2 shows a flute pr - {a mongular waveguide with a dielectric filling | 11 and asymmetrical strip

water (Fig. 3), clearly react differently to the signal, their response to thermal and vibration interference, on the contrary, is very similar, and if this interference prevails, then such a pair is successful. However, if in a given thermal power line 12, in FIG. 3 — a flute-type pronged installation is dominated by such a fringing waveguide 13 and a closed straight carbon waveguide 14; in FIG. 4 - groove semicircular waveguide 15 and semi-coaxial line 16.

The device works as follows.

The generator (microwave generator) 1 excites, through the circulator 3 in the measuring arm 5, oscillations of the traveling wave type. Phase electromagnetic propagation velocity

tori, as erosion of the surface or the deposition of soot, it is obvious that the design of the support arm is unsuccessful.

The measurement and reference shoulders shown in FIG. 2 and 4 are more appropriate in this regard. Indicate a successful pair of constructive combination of measuring and reference arms, satisfying any conditions for the whole variety of modes and for all classes of modern

is.

The waves in the measuring arm depend on 40 thermal power plants, not the real part of the plasma dielectric constant and, therefore, on the plasma frequency s „and the concentration of electrons in the plasma plasma Ne. The value of Ne reflects, in particular, the efficiency of the energy. The reliability of the control is achieved by placing the support arm under the same conditions of work with the measuring arm and preg, - j - I --- ---- | - - j ...

extraction, allows to judge the parameters of the formation of the output signal in the frequency of the combustion process and therefore relates to the diagnostic parameters of the thermal power plant.

Since the microwave field in the open transmission line of the measuring arm 5 partially closes through the plasma, a change in the electron concentration in the plasma leads to a change in the effective electrical length of the measuring arm, and therefore an additional phase shift associated directly with the change in the electron concentration in the plasma. Therefore, the synchronization input of generator 2 receives a signal with a phase shift, proportion. 1b is an identical (at least in absolute value) response to interference, but does not respond

electrons in the near-wall layer of the thermal power plant.

The location of the support arm inside the chamber, as well as the properties of the transmission line of this shoulder, inform the control device of the properties of balanced measurement circuits. In such schemes, the ideal compensator, which plays the role of the supporting arm, should have

The flute and closed waveguides (Fig. 3), obviously react differently to the signal, their response to thermal and vibrational interference, on the contrary, is very similar, and if this interference prevails, then such a pair is successful. However, if such factors as surface erosion or soot deposition prevail in this thermal power plant, it is obvious that the design of the support arm is unsuccessful.

The measurement and reference shoulders shown in FIG. 2 and 4 are more appropriate in this regard. Indicate a successful pair of constructive combination of measuring and reference arms, satisfying any conditions for the whole variety of modes and for all classes of modern

is.

heat

thermal power plants are not

The reliability of the control is achieved by positioning the support arm under the same working conditions with the measuring arm and ...

the formation of the output signal in the frequency

nyu form.

Claims (1)

Invention Formula The device for monitoring the thermal power plant, comprising a first generator connected by waveguides passing through the holes in the thermal power plant chamber, with a measuring arm, a supporting arm and a meter connected to it, in order to increase reliability, it is equipped with a second generator and two circulators, additional openings are made in the chamber, and a support arm is located inside the chamber, with one circulator mounted between the first generator, meter ny and supporting shoulders, and  J T //// / / / / 1 15 The second generator is connected to the second circulator connected by waveguides to the measuring and reference arms through additional holes in the chamber. Vli2.1 (Riga.Z Fig. (