SU1055231A1 - Method of metrologic diagnosis of flowmeter installed in branched pipelines - Google Patents

Abstract

METHOD METROLOgaChESKOY flowmeter diagnostics, USTAYUVLENNYH The manifold, zshslyuchayuschiys in measuring the flow rate in the lead-in branch flow measurement in parallel branches x, comparing the meter readings in the lead-in branch with the sum of indications races sodomerov parallel legs of and determining flowmeter with increased error (failure ) by the presence of the inequality .t «J y.rv, bt v;, -. ::. ilJ .; ; .y ;; - ;; --Vg- -v Hi V / - vt i 1.g: GE - gm 1 2 consumption of 1. (one branch and sum of costs in parallel branches x, which differs. In order to simplify the method, if the above inequality is present, the flow in each of the parallel branches is successively discontinued; the total flow is redistributed over the remaining parallel branches; after each redistribution of the flow, the expenditures in Cp (the remaining branches, the flow rate in the downstream branch is compared with the sum of expenses in the remaining branch x, while the equality is Neither the flow rate in the supply branch and the sum of the flow values in the remaining branches x corresponds to the presence of gelled error (from (L kaza) flow meter of the disconnected branch), the inequality of the flow values in the feed branch and the sum of the flow values in the remaining branches for all flow redistributions the extent of the increased error (failure) of the flow meter in the downstream branch.

Description

The invention relates to a measuring technique and can be used dp metrological diagnostics of liquid or gas flow meters in branched pipelines without dismantling flow meters.

The known method of metrological diagnostics of flow meters in pipelines is based on the fact that the error of each flow meter is determined by measuring the flow through each branch of the pipeline by workers and more accurate (exemplary flow meters and comparing the readings of working and model flow meters. The disadvantage of this method is the need to install each branch of exemplary flowmeters, which leads to substantial costs.In addition, the use of exemplary flowmeters dp measuring the flow of the working environment It is not always possible because of the small life of the systems and the conditions of use of standard flow meters. 310 A method of calibrating flow meters is also known, which allows metrological diagnostics of flow rates in branched pipelines. The method is based on sequential switching of flows in parallel branches to an exemplary flow meter. (measuring device, located on the scales) and comparing costs, measured in paraplelnye x with the help of working flow meters and exemplary tools. The disadvantages of the method are layer; nosti, high cost and large dimensions of diagnostic tools, based on the use of exemplary tools and a large number of shut-off valves. In addition, in the process of detecting openings: the call changes the total flow rate, as part of the working medium enters the storage capacity of the model means, which can affect the technological process in the installation consuming the product transported through the pipeline. The closest in technical essence to the intended one is. The method of flow measurement in branched pipelines, through which metrological diagnostics is provided without the use of standard flow meters. The method is based on the introduction of a branched pipeline into each branch, in addition to the main, additional (redundant) working flow meters, and measuring the flow in each branch, in addition to the flow through which the total flow flows through the flow meter. The readings of the flow meter, which measures the total flow, are compared with the sum of readings taken with different combinations of main and duplicate flow meters. A flow meter with an increased error is determined by the inequality of the flow values measured in the supply branch and the sum of the flow values measured in the rest of the branches, in all combinations of these sums, which include its readings. The disadvantage of this method is the need to significantly increase the number of flow meters by using additional flow meters, the number of which is n-j, where n is the number of branches in the pipeline, as well as a large number of computational operations due to the large number of flow meters. The aim of the invention is to simplify the method. This goal is achieved by the fact that if there are inequalities in series one by one, stop the flow in each of the parallel branches, redistribute the total flow by the remaining parallel branches, after each flow redistribution the costs in the remaining branches are measured the common branch is compared with the sum of expenses in the remaining branches x, while there is no inequality in the value of the expense in the downstream branch and the sum of the values of expenses in the remaining branch x corresponds to the presence of increased The second error (failure) of the flow meter in the disconnected branch, the lack of equality of the flow rate in the supply branch and the sum of the flow values in the remaining branches for all flow redistributions corresponds to the presence of an increased error (failure) of the flow meter in the input branch. The drawing shows the branched pipeline diagram with a flow meter in the supply branch 1 and flow meters. 2, 3, 4 and valves 5,6, 7 in parallel branches x. Dp of determining the flow meter with increased error, measure the costs in all branches with flowmeters 1-4. After that, the difference between the readings of flow meter I and the sum of readings of flow meters 2-4 -G, + G4, U ,, (1) where G | (is the flow meter readings. at the 1st cost distribution in the pipeline; D is the difference between the readings of the flow meter 1 and the sum of readings of the flow meters 2-4 at the 1st distribution (costs). is determined, for example, as the rms value of the total error ( eometricheska amount errors) of all flowmeters by sequentially one locking valves 5-7 manufac t redistribution remaining streams in the parallel legs of. Each perera.spredelenii

Claims (2)

METHOD FOR METROLOGICAL DIAGNOSTICS OF FLOW METERS INSTALLED IN BRANCHED PIPELINES, which consists in measuring the flow rate in the supply branch, measuring flow rates in the parallel branches, comparing the flow meter readings in the supply branch with the sum of the flow meter readings in the parallel branches and determining the flow meter with increased error (failure) due to the inequality 2 values of the flow rate in the supply branch and the sum of the value of the flow rate in the parallel branches, differing in that, in order to simplify the method, in the presence of the mentioned inequality, the flow in each of the parallel branches is stopped one by one, redistributing the total flow over the remaining parallel branches , after each redistribution of the flow, the flow rates in the drained branches are measured, the flow rate in the supply branch is compared with the sum. costs in the remaining branches, with equal flow rates in the feed branch and the amount _of strokes distribution of values in the remaining branches corresponding ® is an enlarged-presence of error (failure) raskhodomera'v disconnected branch flow value inequality podvodnitsey branch and sum values flow in the remaining branches for all redistribution of the flow corresponds to the presence of an increased error (failure) of the flow meter in the supply branch. more accurate (exemplary) flow meters and comparison of the readings of working \ and standard flow meters. The disadvantage of this method is the need for installation in each branch of exemplary flow meters, which leads to significant costs. In addition, the use of exemplary flowmeters to measure the flow rate of the working medium is not always possible due to the low resource systems and the conditions of use of exemplary flowmeters. 1Jo1 ^{,, in} ns