SU1264045A1 - Method of determining density of mud-laden torrent flow - Google Patents

Abstract

The invention relates to the field of measurement technology and can be used in hydrology and hydraulic engineering. The purpose of the invention is to improve the reliability and accuracy of determining the density of the mud mixture by. elimination of the influence on the measurement result of the dynamic error arising from the uneven movement of the mudflow. The method consists in synchronous measurement of the mass, volume and velocity of the mudflow mass, which is disproportionately and directly linearly moved along the salometric tray. The telemetry tray is fixed by its hinged fastener on a fixed support with its upper face, and the lower one is supported by a mass measuring device. When moving the debris mixture, the flow is continuous (L continuous monitoring of the absence of longitudinal flow acceleration.. located on the salimeter tray, for the amount of its volume. 2 ill. 05 05; about 4 SP

Description

The invention relates to hydrology and hydraulic engineering and can be used in observation systems of mudflows (mudflow flows) in forecasting mudflows, in carrying out anti-mudflow measures, as well as in research work in the field of mudflowing. The purpose of the invention is to increase the reliability and accuracy of determining the density of the mudslide by eliminating the effect on the measurement result of the dynamic error that occurs when an uneven displacement of the mudflow. FIG. 1 is a diagram of the device; in fig. 2 - Dist: Indion Doppler Radar Speed Gauge. The device contains a satellite tray 1, a level gauge 2, a remote dozler dozler radar equipment: Speed watch (DIS) 3 and a mass measuring device 4. The satellite tray is fixed by its hinge 5 on a fixed support with its upper edge. The bottom edge of the tray rests on the sensor 6 of the mass measuring device 4, the output of which is connected to the input channel of the secondary device 7. The secondary device and communication cables of the mass measuring device are placed at the influence of villages. To organize the measurements. I select a section of the mudflow bed with a uniform width and bottom slope sufficient to transport all the solid components of the mixture. Selemetry tray set at the end of the specified section. The slope of the bottom of the tray should be equal to the slope of the bottom of the channel, but not less than 20®. The width and cross-section of the tray should be approximately equal to those of the channel. To reduce the duration of the measured part of the flow on the tray, the length of the latter should be small. The surface of the tray should be smooth. The measurement of the flow characteristics of the ce I left mixture and the calculation of the dynamic values of the density of the mixture are carried out as follows. During the movement of the mixture in the salimetric tray at short (2-3 s) time intervals, all devices simultaneously perform the following operations to measure the required l to calculate the density of the flow characteristics: the DIS device 3 measures the flow rate of the debris mixture; reading on the level gauge 2 - measurement of the depth of the mixture flow in tray 1; Mass measurement device 4 device - measurement of the mass of the flow of debris mixture located on the tray. The current values of speed establish the fact of the absence or presence of acceleration (in the direction of motion) of the mixture flow. Due to the short tray length, the duration of the period of the measured portion of the mixture flow is less than the time interval between the measurement points and therefore a smooth change in speed, depth and mass indicates a quasi-uniform mixture movement across the tray. A sign that there is no longitudinal flow acceleration is also a free, without delay, movement of the mixture along the tray. Under these conditions, the mass measuring device registers only the mass flow rate of the mixture, since there is no longitudinal dynamic effect on the tray and sensor of the mass measuring device. After these measurements, the volume of the part of the mudflow mixture on the chute is calculated as the product (taking into account the cross-sectional shape of the chute) the flow depth by the bottom tray area. According to the data obtained, the calculation of the flux density. The mudflow is produced by dividing the mass of a part of the stream by its volume. Similar measurements and calculations are also made for other time elements, thus providing an almost continuous dynamic determination of the flow density of the mud mixture. Thus, it is possible to reliably and accurately measure the mass of the flowing mixture while monitoring the absence of a dynamic effect of the flow on the readings of the mass meter, thus ensuring the achievement of the goal. This method of dynamic determination of the mudflow flux density was successfully applied on one of the mudflows. the basin of the river Prut (Soviet Carpathians) with artificial reproduction of villages. The telemetry tray was installed on the site rus

Claims (1)

(Claim A method for determining the density of the mudflow mixture, including measuring the mass and volume of the mudflow, characterized in that, in order to increase the reliability and accuracy of determining the density of the mudflow by eliminating the influence on the measurement result of the dynamic error that occurs when the mudflow is unevenly moved, 'mass measurement and volume produced synchronously with the measurement of the velocity of the mudflow along the seleometric Tray, while monitoring the absence of longitudinal flow acceleration, and the characteristics are calculated during the indicated period remained unchanged, which indicates the absence of longitudinal flow acceleration). The volume of the part of the stream that was at the time of changing the value of the mudflow density by dividing the mass of the mudflow ’stream located on the seletometric tray by its volume