UA63085A - Method for estimation of condition of a water-pipe - Google Patents

Abstract

Method for estimating condition of water-pipe comprises determining its actual friction resistance coefficient Ù via the transformed Darsi-Veisbah formula through the measured by pressure indicators pressure loss HL at distance L for the segment and the measured by flow-meter tare of water motion V in it. Actual friction resistance coefficient Ù is determined as well through the actual measured at given time, by measuring devices, inner diameter of the pipe, with account of its overgrowing, by formula , where Ù û coefficient of friction resistance HL û loss of pressure at the length of the segment of the water-pipe, this is determined as difference of piezometric pressures at the ends; Dgr and L û inner diameter with account of overgrowing and length of the segment of the water-pipe; V û rate of motion of water in the pipe being estimated; g û gravitational acceleration.

Description

Description of the invention

The invention relates to water supply, in particular to water supply networks for drinking water and economic 2 needs, urban or similar water supply networks and their control technology and can be used to assess their condition during operation and be foreseen during design.

There is a well-known method of assessing the state of a water pipe during its operation, which consists in determining and using for its assessment its coefficient of friction resistance x on the transformed formula of Darcy-Weisbach xn a 29 - scrap due to the actual pressure loss H, measured by pressure sensors, on the length of GI. segment, its inner diameter a and the speed of water movement M in it measured by the flow meter is 11.

The disadvantage of the known method is its inaccuracy, which is due to the fact that when determining the resistance coefficient, the value of the internal diameter of a new standard pipe is substituted into the above formula without taking into account its overgrowth, which actually occurs in the pipes, but its value is unknown. Therefore, if necessary, it is determined by direct measurement on short sections of the pipe, which are cut from it after its disconnection and then inserted back and brewed, if the pipe does not need to be replaced.

The basis of the invention is the task of assessing the condition of a water pipe by determining and taking into account the overgrowth of the pipe to obtain a reliable value of the resistance coefficient xx and based on it, as well as more reliably assess the condition and the need to replace the water pipe based on the thickness of the overgrowth.

The specified goal is achieved by the fact that in the method of assessing the condition of a water pipe, which consists in determining and using to estimate its coefficient of friction resistance X according to the transformed Durst-Weisbach formula x-H a 29 - movement due to the pressure loss H measured by pressure sensors, along the length of GI segment, and the speed of water movement M in it measured by the flow meter, the inner diameter of the pipe a is determined taking into account its overgrowth (a zar) due to the water flow О measured by the flow meter in the segment of the auxiliary pipe, which for this purpose is connected in parallel with the pipe, which is evaluated, assuming on it is the place of connection, and water is passed through it, and the speed of water movement M in the pipe, which is estimated, according to the formula About 1, the thickness of the layer of overgrowth is determined from it, and together with y, yu

The inspectors assess the condition and necessity of replacing the water pipe or cleaning it. at

This set of new essential features, consisting in the determination and consideration in the calculation of water pipe overgrowth x, together with the known feature, consisting in the calculation of x by the actually measured o

Due to the loss of pressure and speed of movement of water in the pipe, it provides a determination of the amount of overgrowth of the pipe without disconnecting it and cutting the segment and a more accurate determination of x.

The diagram of the method is shown in the figure. On the water pipe 1 already during the design and laying of the network or during its operation in the well 2, a valve З and places 4 and 5 of the connection of the auxiliary pipe segment 6 with valves or valves 7 and 8 are provided. The pipe segment 6 can be permanently located in the well and -o c then before measurements it should be removed and cleaned, or it is better to put it before measurements, keeping it constantly clean inside. Valve C is always open during operation of pipe 1, and valves 4 and 5 are closed. When implementing the method, a section of the water pipe, length Y, is selected, pressure sensors 9 and 10 are mounted on its ends (if they were not mounted when the pipe was put into operation), and in well 2 - a flow meter 11 with overhead sensors, for example, ultrasonic, and measure the pressure flow Well along the length of the segment | and b the speed of movement of water M in the pipe. After that, close valve C and open valves 4 and 5 and measure the speed of water movement in pipe 1 again with flowmeter 11, and with the same flowmeter 12 - water flow in the section of removable and new or cleaned permanent auxiliary pipe 6. Proceeding from the equality of water flow in water supply 1 and about auxiliary b pipes according to the formula n calculate the actual diameter of the water pipe with bo 20 bar - sp taking into account its overgrowth, and substituting the actually obtained values into the known formula of the coefficient X, calculate the exact actual value of this coefficient. Knowing the initial standard diameter of the water pipe a and its calculated diameter taking into account the overgrowth of 4 zars, determine the average thickness of the Overgrowth and evaluate the condition of the pipe and the need for its replacement based on it and the coefficient x. If all this is foreseen during the design and laying of the network, then it is possible to constantly observe the change in the condition of the pipes without disconnecting them and optimally plan their replacement or cleaning, if possible. in

Claims (5)

Formula of the invention The invention relates to water supply, in particular to water supply networks for drinking water and economic needs, urban or similar water supply networks and their control techniques and can be used to assess their condition during operation and be foreseen during design. 65 A known method of assessing the condition of a water pipe, which consists in determining the actual coefficient of friction resistance characterizing it during operation according to the converted formula Darcy-Weisbach X-NI ha/ hgd/m 2 according to the measured actual values of pressure losses Well and the speed of water movement in the water pipe M. (11. The disadvantage of this well-known method is its inaccuracy, which is due to the fact that the value of the internal diameter is substituted into the formula of a new pipe without taking into account its reduction due to its overgrowth, which actually occurs during operation and is of significant importance for pipes of small diameter. There is also a known method of determining the inner diameter of a water pipe taking into account its overgrowth, which consists in directly measuring its inner diameter with a measuring tool on cut out from it to segments or wall elements. (21. 70 The disadvantage of this well-known method is its complexity, which is due to the need to disconnect the water pipe, drain water from it, cut out its segments or wall elements, measure them, install them back or replace them with new ones, and brew. The basis of the invention is the task of assessing the state of the water supply system cut by the actual coefficient of friction resistance by determining it also by the actual inner diameter of the water pipe with 75 taking into account its overgrowth, determining it indirectly and by additional assessment of the condition by the thickness of the overgrowth layer to make it more accurate and simpler. The specified goal is achieved by the fact that in the method of assessing the state of the water pipe, which consists in determining for its evaluation its actual coefficient of friction resistance /;, according to the transformed formula of Darcy-Weisbach X-H, ha/ xha/m2 through the pressure flow measured by pressure sensors H , on the length GI of the segment and the speed of movement of water M in it measured by the flow meter, the actual resistance coefficient y, are also determined by the actual internal diameter of the pipe currently measured by the measuring devices, taking into account its overgrowth according to the formula Х-Н. Khdzar/i-kh29/M 27, where: y, coefficient of friction resistance; NO - pressure loss along the length of a water pipe segment, which is defined as the difference in piezometric pressures at its ends; " dzar and I-- internal diameter, taking into account overgrowth and the length of the segment of the water pipe; M - speed of water movement in the pipe, which is evaluated; d - acceleration of free fall. In order to prevent disconnection of the water pipe and the cutting of sections of the wall elements from it, for measuring its inner diameter, taking into account overgrowth and the size, it is determined through the water flow measured by flow meters C) in the section of the auxiliary pipe that is not overgrown, which for this purpose is connected in parallel with the pipe being evaluated , predicting the connection points on it and passing the entire flow of water through it, and the speed of movement of water M in the pipe, which is estimated by the formula Azar - 24012, Where: so dzar - the inner diameter of the water pipe, taking into account its overgrowth; (Se) O - water consumption in the auxiliary section of the pipe; M - speed of water movement in the pipe being evaluated; zk is a mathematical constant of the ratio of the length of a circle to its diameter, which is equal to 3.14. "To increase the reliable assessment of the state of the water pipe by the diameter of the new pipe a and by the diameter, taking into account its overgrowth at the moment dzar, determine the thickness of the overgrowth layer bzar7(9-Zzar)/2 and based on it - c in addition to 7, evaluate its condition. "» This set of new essential features, consisting in the determination of the actual coefficient of frictional resistance also according to "the currently measured diameter of the water pipe, taking into account its overgrowth, which is determined indirectly, and in the determination of the actual thickness of the layer of its overgrowth in interaction with a known feature, which consists in determining the actual coefficient of frictional resistance by measuring the values of head losses and the speed of water movement in a water pipe) increases the reliability of the method of assessing the condition and significantly simplifies its implementation, as well as allows you to constantly monitor it without disconnecting the water pipe and plan its replacement in a timely manner. The diagram of the method is shown in the figure. On the water pipe 1 already during the design and laying of the network or during its operation in the well 2, a valve З and places 4 and 5 of the connection of the auxiliary pipe 20 of the pipe segment 6 with valves or valves 7 and 8 are provided. The section of pipe 6 can be permanently in the well, and then before measurements it should be removed and cleaned, or it is better to put it before measurements, keeping the liquid inside constantly clean. During the operation of pipe 1, valve C is constantly open, and valves 4 and 5 are closed. When implementing the method, a section of the water pipe is selected, with a length of GI, sensors 9 and 10 are mounted on its ends (if they were not mounted when the pipe was put into operation), and in well 2 - a flow meter 11 with 22 overhead sensors, for example, ultrasonic, and the flow is measured pressure Well, on the length of the segment | and » speed of movement of water M in the pipe. After that, the valves 4 and 5 are closed and the speed of water movement in the pipe 1 is measured again with the flow meter 11 and the water flow rate in the segment of the removable new or cleaned permanent auxiliary pipe 6 with the same flow meter 12. Based on the equality of water consumption in water supply 1 and auxiliary 6 pipes according to the formula Azar - ZLE YAM. calculate the actual internal diameter of the water pipe taking into account its overgrowth and, substituting it into the known transformed Darcy-Weisbach formula, obtain a more accurate value ), and evaluate the condition of the pipe based on it. To increase the reliability of assessing the condition of the water pipe based on the diameter of the new pipe and the diameter, taking into account its overgrowth, the thickness of the overgrowth layer is determined and the condition of the pipe is additionally more accurately assessed based on it. 65 Sources of information: 1. Patent of Ukraine for the invention Mo46376А, class 161 7/02, E1705/02, 15.05.2002. 2. V.A. Petrosov Changes in the hydraulic resistance of main water pipes over time. Abstract for obtaining the degree of Candidate of Technical Sciences, Kharkiv. 1971. p. 5. K " I Z ; i yur zpdscho a av i GU ta t t tro u SHY OA this ti v i oyi X me A i 29, i 2 I d /iE, knowledge of other Fig. " IS) so "c) so (Se) shi s ;" (22) (95) («c) o 50 sl 60 b5