RU2429491C2 - Method of measuring stream flow speed along river - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: hydrometric gates are marked along river. Stream flow speed, river width, maximum river depth and stream flow slope are measured.

EFFECT: expanded performances.

5 cl

Description

The invention relates to hydrometry and hydrology of the level regime of a river and can be used in environmental monitoring of rivers and their coastal landscapes, in particular when studying the dynamics of the surface velocity of a river’s watercourse depending on its width, maximum depth and slope of the river along hydrometric gauges.

A known method of measuring the speed of a watercourse with floats (see book: Dilov V.D., Vasiliev A.V. Hydrometry. - M .: Gidometeoizdat, 1977. - P.148-151).

The disadvantage of this method is the low accuracy of measuring the speed of the watercourse. In addition, the disadvantage of this method is that it does not allow to take into account the change in speed on the surface of the watercourse depending on the width of the river, its maximum depth and the slope of the water surface in the place of measuring the speed of the watercourse.

There is also a method of measuring the speed of a watercourse (US Pat. 2257589, Russian Federation, IPC ⁷ G01P 3/40. A method of measuring the speed of a watercourse / Mazurkin P.M., Veretelnik D.A., Kozhina S.A. (RF); applicant and patentee Mari State Technical University - No. 2004102546/28; claimed Jan. 28, 04; published July 27, 05, Bulletin No. 21), which includes the use of the ruler with divisions, moreover, the ruler with divisions is floating, and during A floating ruler is released along the stream.

The disadvantage of this method is that it does not allow to take into account the change in speed on the surface of the watercourse depending on the width of the river, its maximum depth and the slope of the water surface in the place of measuring the speed of the watercourse.

The technical result is the expansion of the functionality of the method for determining changes in the speed of water on the surface of a watercourse along a river using several gauging gauges.

This technical result is achieved in that a method of measuring the speed of a watercourse along a river, including the use of a floating ruler with divisions, and during the measurements, a floating ruler is released along the course of a watercourse, differs in that a section with hydrometric gauges is planned along the river, and the average gauge is measured in each hydrometric gauge the speed of the watercourse, as well as the width of the river, its maximum depth and slope of the watercourse, after which statistical modeling reveals a three-factor regularity in the dynamics of the average speed of the watercourse along the stretch of river.

At least five hydrometric sections are planned on the selected section of the river.

The average flow rate is measured using floats of at least 10 measurements.

To improve the accuracy of the picture of changes in the watercourse velocity along the river section, the measurement moments of each value of the watercourse speed are synchronized in time, and for this purpose, measurements at all hydrometric sections of the river section are carried out simultaneously.

The essence of the technical solution lies in the fact that along the river to determine the variability of speed at the watercourse, measurements are carried out at least five gauging stations.

The essence also lies in the fact that at the same time measure the width of the river, the maximum depth and slope of the water surface at each gauging site. And then the statistical patterns of changes in the watercourse velocity from three factors (the width of the river, its maximum depth and slope of the water surface) are revealed for all measured hydrometric gauges.

A positive effect is achieved by the fact that it is not necessary to measure depths over the entire width of the river, and also in the subsequent hydraulic and hydrological calculations, for example, the flow rate of water in the river, the revealed three-factor statistical regularity is applied.

The novelty of the technical solution lies in the fact that for the first time the speed of a watercourse is measured not in one gauge, but in a section along the river in at least five gauging gauges.

The proposed technical solution has significant features that expand practical applicability, novelty and a significant positive effect. No materials discrediting the novelty of the technical solution were found.

A method for measuring the flow velocity on the surface of a watercourse along a river includes the following steps.

A section with hydrometric gauges is planned along the river, in each hydrometric gauge the average watercourse speed, as well as the width of the river, its maximum depth and slope of the watercourse are measured. Then, statistical modeling reveals a three-factor regularity in the dynamics of the average watercourse velocity along the river section.

At least five hydrometric sections are planned on the selected section of the river. The average flow rate is measured using floats of at least 10 measurements.

To improve the accuracy of the picture of changes in the watercourse velocity along the river section, the measurement moments of each value of the watercourse velocity are synchronized in time, and for this purpose, measurements are performed at all hydrometric sections of the river section simultaneously.

A method of measuring the flow velocity along a river is implemented, for example, on the surface of a small river, for example, to study meandering as follows.

First, a section of the river is chosen to study meandering processes with one bend or with several bends.

Then, a section with hydrometric gauges is planned along the river, in each hydrometric gauge the average speed of the watercourse is measured, as well as the width of the river, its maximum depth and slope of the watercourse. Then, statistical modeling reveals a three-factor regularity in the dynamics of the average watercourse velocity along the river section.

At least five hydrometric sections are planned on the selected section of the river. The average flow rate is measured using floats of at least 10 measurements.

To improve the accuracy of the picture of changes in the watercourse velocity along the river section, the measurement moments of each value of the watercourse speed are synchronized in time, and for this purpose, measurements at all hydrometric sections of the river section are carried out simultaneously.

The proposed technical solution allows with high accuracy to measure the dynamics along the river values of the average speed of the watercourse, measured at least 10 times using floats.

Claims (5)

1. A method for measuring the speed of a watercourse along a river section, including the use of a device for measuring the value of watercourse speed at several points of a river section, characterized in that a section with hydrometric gauges is planned along the river, the watercourse speed and the width of the river are repeatedly measured in each gauge gauge, its maximum depth and slope of the watercourse. 2. The method of measuring the flow velocity along a river section according to claim 1, characterized in that at least five hydrometric sections are planned on the selected river section. 3. The method of measuring the flow velocity along a river section according to claim 1, characterized in that the flow velocity is measured at least 10 times on the same gauge gauge. 4. The method for measuring the flow velocity along a river section according to claim 1, characterized in that, to improve the accuracy of the pattern of changes in the water stream velocity along the river section, the measurement moments of each value of the water flow velocity are synchronized in time, and for this measurement is carried out simultaneously on all hydrometric sections of the river section . 5. The method for measuring the flow velocity along a river section according to claim 1, characterized in that according to the measured data by statistical modeling, a three-factor regularity of the dynamics of the flow velocity along the river section is revealed.