SU1075080A1 - Correlation method of measuring consumption - Google Patents

Abstract

CORRELIBERATION METHOD OF MEASURING THE FLOW OF AN ELECTRO-CONDUCTING FLUID, including creating a stationary magnetic field that penetrates the flow, recording signals of interaction of the flow with the magnetic field in two cross-sections distant by a given distance the flow rate during transient processes, the transient process is repeatedly initiated under the same initial conditions, and the mutually correlation function of the interaction signals and the flux with the magnetic field is calculated from the obtained set of signal realizations. Q & J t 4j ate on CX) t .. Start

Description

The invention relates to a measurement technique and can be used to measure non-stationary flow rates of an electrically conductive fluid during transients in various industrial and research facilities, as well as to calibrate and periodically calibrate flow meters directly at their installation site.

A known correctional method for measuring the flow rate of an electrically conductive liquid is that a stationary magnetic field is created that penetrates the controllable flux measured in two cross sections of the flux signal with the magnetic field, caused by the turbulent 1-g pulses J and determined They use the mutually correlated function of the pulsation. By the position of the maximum of the function, the flow rate is judged. 1. A disadvantage of the known method is that during the collection of statistics for calculating the correlation functions, the flow rate is be constant. Thus, the known method does not provide the possibility of measuring a non-stationary flow rate.

The aim of the invention is to determine the unsteady flow rate npi; {transients in a hydraulic system caused by a change in system characteristics (e.g., pump start, load change) at a known point in time

This goal is achieved by the fact that, with the correlation method of measuring the flow rate of an electrically conductive fluid, including the creation of a stationary magnetic field, it penetrates the flow of registrated signals of interaction of the flow with the magnetic field in two cross sections that are remote for a given distance and the next correlation is 1. the dione function, the transient process is repeatedly initiated under the same initial conditions, and the cross-correlation function of the signals of interaction of the flux with the magnetic field is calculated by the field taught many signal realizations

The imp is a block diagram of a device that implements a method for measuring flow.

The correlation method for measuring the flow rate of electrically conductive liquids is as follows. A flux magnetic field is created, penetrating the stream. Many times they realize the process of changing the flow rate during the times of initiating the transient process (for example, switching on the pump). Potential fluctuations or a magnetic field caused by turbulent 1 and pulsating fluxes For a time t; since the beginning of the transition process, the cross-correlation function of the potential fluctuations or the field is calculated over a set of process realizations.

iHt ,, tv- 4 L (i Л,

(i, t;) - m2 (i, .ti,

where j is the sequence number implementation

process, j 1, .2,., m m is the number of implementations of the process X (Jot) —fluctuation of the signal in the first section of the flow at the jth registration at time t; ; Y (J t,: H) is the same in the second section

flow;

n ((t ,;) is the expectation of X at the moment, ™ ..2 (t) is the material of Y at the moment of t, „

The position of the maximum of the function H (, | 2) is determined and the values of the velocity and the flow rate at the moment t are determined,

The method can be implemented by the following device. Sensors 2 and 3 are installed on pipe 1 at a known distance from each other. Signals from sensors 2 and 3 are fed to an analog-to-digital converter (ADC) 4 o From the output of the ADC signals are sent to a buffer memory (BDU) 5 to the input of the correlator 6 o The operation of the LCP, the LPD and the correlator controls the control device 7, to which the Start signal corresponding to the beginning of the transient is applied. Sensors 2 and 3 are magnets that create a transverse magnetic field that penetrates the flow and electrodes cerned with fluid flow potentials in the interaction with the magnetic field flux "

Repeatedly implementing the process of changing the flow rate over time, initiating a transient process, while the signals from sensors 2 and 3 are recorded in the OVC 5 The position of the maximum 1a of the function R (t, L), depending on the time t, passed after the beginning of the transition process. By shear value

corresponding to the maximum of the function R (t, C

 ),

determine the dependence of flow rate on time t,

The correlation flow measurement method allows the measurement of the time-varying flow rate of liquids in various growth and research.

The user installations, as well as the provision of synthesis with liquid glass, calibrate and calibrate others, as well as various means of measuring the flow rate of direct installations simulating them efficiently at the place of their installation. One bot. Knowledge of the change in the consumption of military equipment from the promising areas of application time is especially important for developing a method of measuring measures to improve the safety of the liquid metal heat exchanger reactance when studying accident processes in reactors for fast neutron cooling of the reactor, in controlled firing installations stop circulating pumps.

Claims (1)

CORRELATION METHOD FOR MEASURING CONSUMPTION OF A CONDUCTIVE LIQUID, including the creation of a stationary magnetic field penetrating the flow, registration of the interaction signals of the flow with the magnetic field in two cross sections of the flow and subsequent calculation of the cross-correlation function, characterized in that, in order to determine the flow rate during transient processes, the transition process is repeatedly initiated under the same initial conditions, and the cross-correlation function of the interaction signals A magnetic field is calculated from a plurality of signal implementations. Ω SU, „. 1075080