RU2435141C1 - Device for measuring flow rate of two-phase stream of free-flowing dielectric substances, moved by air in metal conduit - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: in the device for measuring flow rate of a two-phase stream of free-flowing dielectric materials moved by air in a metal conduit, having a microprocessor and an indicator connected in series, a measuring insert made from dielectric material is built into the conduit, on which there are plates of a measuring capacitor, connected in series with plates of a detecting capacitor with a dielectric insert of a voltage-polarisable crystal, where there is a light polariser and a laser emitter on one side of the detecting capacitor, and on the other side a light analyser and a photodetector, the output of which is connected to the input of an amplifier, whose output is connected to the input of the microprocessor, the output of which is connected to the indicator. The voltage-polarisable crystal used can be a lithium niobate crystal.

EFFECT: high measurement accuracy and simple design of the device.

2 cl, 1 dwg

Description

The invention relates to measuring equipment and can be used in systems for automatic control and measurement of volumetric and mass flow rates of bulk dielectric materials transported by air through a metal pipe.

A device for measuring the flow rate of bulk materials containing a microwave generator, transmitting and receiving antennas, a correlometer and a unit for indicating and recording information [Melik-Shakhnazarov A.M. et al. Digital measuring systems of correlation type. - M .: Energoatomizdat, 1985. - 128 p.].

The disadvantage of this device is the complexity of the algorithm for statistical processing of information in real time and, as a result, the high error of flow measurement, as well as the complexity of the technical implementation.

A device for measuring the mass flow rate of liquid and granular media according to the copyright certificate No. 896418, G01F 1/66. The device contains transmitting and receiving antennas located on the measuring section of the pipeline, a microwave generator connected to the transmitting antenna and the first input of the mixer, connected by its second input to the receiving antenna, and the output with the filter, two adders, a frequency modulator connected to the microwave generator a second filter connected to the output of the mixer and to the second inputs of the adders, a medium density calculator, a divider and a multiplier, the output of the first filter being connected to the first inputs of the second and first adder, the output which is connected to the first input of the divider and through the medium density calculator to the first input of the multiplier, and the output of the second adder is connected to the second input of the divider connected to the second input of the multiplier.

The disadvantage of this device is that for the formation of signals proportional to the density of the medium and flow rate, multiplying which receive the mass flow rate, the frequency shift of the signal of the receiving antenna (Doppler effect) is used. Since the two-phase flow has a relatively low speed (20-30 m / s), the Doppler frequency shift of the signal at the output of the meter with respect to the frequency of the signal at the input is negligible. Due to the small distance between the transmitting and receiving antennas, the component of the frequency shift of the output signal also decreases due to the delay of the output signal relative to the input. This complicates the technical implementation of devices such as filters and combiners. Ultimately, this complicates the implementation of the device and leads to a decrease in the accuracy of flow measurement.

Closest to the technical nature of the present invention is a parameter meter for a two-phase flow of bulk solids transported by air through a metal pipe (RF patent No. 2339914, class G01F 1/74, G01F 1/86, publ. 11/27/2008). This device is taken as a prototype of the invention.

The device comprises a pipe segment with two slotted dielectric windows, a microwave generator connected to two sensors incident on the power flow and a sensor reflected from the power flow, the sensor passing through the power flow, the primary line of the sensor passing through the power flow and secondary lines of the incident sensors the power flow and the sensor reflected from the power flow are connected to ballast loads, a mixer, the inputs of which are connected to the secondary line of the second sensor incident on the power stream and to the secondary line of the sensor reflected from the power stream, the directional input device and the device for the directional output of microwaves energy to / from the pipeline, two amplitude detectors connected in series by a microprocessor and an indicator, while the directional input device and the device for directional energy output microwaves to / from the pipeline are made according to the scheme of a directional coupler with full coupling, while slotted dielectric windows are communication holes in these x devices and are located on top along the straight pipe segment, the input of one of the amplitude detectors is connected to the secondary line of the sensor incident on the power stream, the input of the other amplitude detector is connected to the secondary line of the sensor passed through the power stream, to which the device for directing microwave energy output is connected, the sensor reflected from the flow of power is connected to a device for the directional input of microwave energy, the outputs of the detectors and mixer are connected to a microprocessor.

However, the prototype has several disadvantages.

Since the physical basis for measuring the flow velocity is the Doppler shift of the signal reflected from the flow with respect to the generator signal, then at real material-air flow velocities not exceeding 30 m / s and real linear dimensions of the measuring sections of the pipeline (several tens of centimeters), due to the permissible safe power of the generators, the Doppler shift of the signals is insignificant, which greatly complicates the task of its selection, the technical implementation of statistical processing devices information signals, which, ultimately, limits the accuracy and speed of the measuring system.

The objective of the invention is to improve the flow meter of a two-phase flow of bulk dielectric materials transported by air through a metal pipe.

The technical result from the use of the invention is to increase the accuracy of measurement and simplify the technical implementation of the device.

The specified technical result is achieved by the fact that in the flow meter of a two-phase flow of bulk dielectric materials transported by air through a metal pipeline containing a microprocessor and an indicator connected in series with each other, a measuring insert made of dielectric material is built into the metal pipe, on which are located the plates of the measuring capacitor, connected in series with plates of a recording capacitor with a dielectric insert from polarizable to maskers crystal, wherein one side of the polarizer has the condenser recording light and the laser emitter, and the other side light analyzer and a photodetector, whose output is connected to the input of an amplifier whose output is connected to an input of a microprocessor, whose output is connected to the indicator.

As a voltage polarized crystal, a lithium niobate crystal can be used.

The drawing shows a functional diagram of the meter.

The meter contains a measuring insert 1 of dielectric material embedded in a metal pipe, on which are located the plates of the measuring capacitor 2, connected in series with the plates of the recording capacitor 3 with a dielectric insert from a voltage-polarized lithium niobate crystal (LiNbO ₃ ).

On the one hand from the recording capacitor 3 there is a light polarizer 4 and a laser emitter 5, and on the other hand, a light analyzer 6 and a photodetector 7, the output of which is connected to an amplifier 8, the output of which is connected to a microprocessor 9, the output of which is connected to an indicator 10.

The meter works as follows.

A two-phase material-air flow, the material component of which is a loose dielectric material, when passing between the plates of the measuring capacitor 2 causes a change in capacitance proportional to the change in the concentration of the material in the volume of the measuring insert 1, which leads to a change in the electric field strength in the recording capacitor 3 connected in series. This causes amplitude modulation of the light flux generated by the laser emitter 5 and passing through the system eschennyh light polarizer 4 and analyzer 6 and the light polarizing cell of the crystal of lithium niobate (LiNbO _3), disposed between the polarizer and the analyzer of light (optical amplitude modulator of the light, based on the transverse Pockels effect). Amplitude-modulated depending on the concentration of the volume of substance passing through the measuring insert 1, the light flux is registered by a photodetector 7, from the output of which an electric signal is fed to amplifier 8, and after amplification, the signal is fed to the microprocessor 9 for processing according to the algorithm, from which information is sent to the indicator 10. The microprocessor creates an image of the representation of the flow measurement results, for example, in the form of numbers, graphs, histograms on indicator 10.

The mass flow rate Q _{m of the} flow created by this pneumatic conveying installation is determined through the product of the calibration mass coefficient K by S - the area bounded by the graphical curve of the sensor signal intensity versus time for the measurement period:

Q _m = K

The calibration coefficient K is integral, takes into account all parameters (speed, stationarity, filling of the pipeline) of a two-phase flow in a certain pneumatic transport system and should be experimentally determined when a standard calibration mass of the measured substance is passed through the measuring insert, m _st .

The coefficient is determined according to the dependence:

,

,

where S _cm is the area bounded by the curve of the graphical dependence of the intensity of the sensor signal for the control period of measurements.

Volumetric flow rate Q _v is determined according to the dependence:

,

,

where ρ is the density of the transported substance.

As the recording capacitor 3, we used a Pokels electro-optical cell representing a 6 × 6 × 30 mm lithium niobate crystal with deposited Cr + Au electrodes on the x-surface manufactured by Elan LLC (St. Petersburg). (It is also possible to use a crystal of lithium tantalate.). Glan laser prisms manufactured by Elan LLC (St. Petersburg) were used as polarizer 4 and light analyzer 6. As a laser emitter 5, a laser module with a KLM-D 650-5-5 power supply unit manufactured by the FTI-Optronic (St. Petersburg) was used.

As the photodetector 7, a photodetector based on silicon photodiodes of general use FUO - 138A manufactured by TsKB RITM (Chernivtsi, Ukraine) was used.

Precision amplifier 8 is made on the basis of the operational amplifier AD 548 (manufactured in the USA).

As microprocessor 9, the cFP-2020 microcontroller manufactured by Nationale Instruments (Hungary) was used.

As indicator 10, an Acer monitor, LSD Monitor V 193 A (China) was used.

Thus, the present invention improves the accuracy of flow measurement by increasing speed and increasing the resolution of the measuring system, based on the transverse effect of Pokelsa. In addition, the error in measuring the flow rate of a two-phase flow is reduced by calculating its current values by integral parameters. Simplification of the technical implementation of the device is achieved through the use of complete products commercially available from the industry.

The expected economic effect of using the meter will be 1.5% of the cost of bulk material transported through the pipeline and is achieved by reducing the non-production losses of bulk material as a result of organizing an objective accounting of its consumption at all stages of the technological process.

Claims (2)

1. A flow meter of a two-phase flow of bulk dielectric materials transported by air through a metal pipe, comprising a microprocessor connected in series with each other and an indicator, characterized in that a measuring insert made of dielectric material is integrated in the metal pipe, on which are located the plates of the measuring capacitor, connected in series with the plates a recording capacitor with a dielectric insert made of a voltage-polarized crystal, with a light polarizer and a laser emitter are placed on the one side of the recording capacitor, and on the other hand there is a light analyzer and a photodetector, the output of which is connected to the input of the amplifier, the output of which is connected to the input of the microprocessor, the output of which is connected to the indicator. 2. The meter according to claim 1, characterized in that a lithium niobate crystal is used as the voltage polarized crystal.