RU2657688C1 - Device for experimental study of the erosion of earth dam models - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: device for experimental study of the erosion of earth dam models refers to measurement technique. Device comprises an erosion sensor, a power supply unit, a recording unit. Distinguishing feature of the invention is the use of sensors having an integral structure of two miniature copper electrodes isolated from each other and placed on a common dielectric substrate. Device includes a structure of vertically stretched metal strings passing through the dam model, on which the sensors are fixed, which prevents their displacement from the set installation coordinates. Device is multi-channel and has a start-up unit, which increases the accuracy of measurements and simulation.

EFFECT: technical result is the improvement of reliability and accuracy of measurements.

1 cl, 2 dwg

Description

The device for the experimental study of erosion of models of soil dams relates to the measurement technique and can be used for experimental studies of the dynamics of erosion, formation and development of the proran of models of soil dams.

The destruction of the pressure front (dams) of hydroelectric facilities is one of the most dangerous cases of accidents during the operation of hydraulic structures, leading to significant economic, environmental and social consequences. The most common case of a pressure front breakthrough is the formation of proran in a soil dam (up to 80% of accidents that have occurred). For an acceptable calculation of the breakthrough wave generated during the formation of proran in a soil dam, it is necessary to evaluate the development of proran in time [1]. The hydrograph of a spout through a hole in a soil dam depends on the development of the hole for a relatively long period of time. Thus, the question of the formation and development of the proranium under variable external factors (in particular, from the water levels in the upper and lower pools, the nature of the initial destruction) is a matter of paramount importance when studying the conditions that arise when a pressure front breaks through [1].

The process of erosion of soil dams consists in moving the soil from which they are built, a stream of water. Experimental studies on small-scale models of soil dams made of sand make it possible to study the spatio-temporal picture of the process of development of the penetration of soil dams depending on the conditions of its formation.

A device for monitoring the state of a soil dam, copyright certificate SU No. 1312135, class. ЕВВ 7/06, [2], containing a control and measuring sensor with a power supply unit, a casing of wells and recording equipment. The sensor and recording equipment are equipped with transmitting and receiving antennas, which serve for non-contact charging of the sensor power supply and non-contact transmission of the measured parameters through the use of a ground current channel. Using in sensors installed in the soil of the dam during its filling, various measuring transducers (density, humidity, threshold pressure, etc.), you can evaluate all the necessary properties of the soil. According to the characteristics of these properties, the state of the soil dam is estimated.

The control and measuring sensor is a hermetic design, which, in addition to the measuring transducer, power supply unit, receiving and transmitting antenna, includes more than 10 signal conversion devices, controlling the operation of the sensor itself and its synchronization with the recording equipment. The use of such a complex and cumbersome measuring complex, including for recording the erosion moment, is advisable in the construction and operation of real soil dams and is impossible in experimental studies on small-scale models of dams whose height does not exceed 0.8 meters. The installation of sensors commensurate in size with the dam model will unacceptably distort the simulated erosion processes.

A device is known for determining the moment of erosion of dam models, copyright certificate SU No. 720481, class. G09B 25/00 [3], comprising a soil displacement meter with a contact element and recording means.

The soil displacement meter is installed in the body of the dam model when it is dumped. It is made of two separate parts and consists of an electromagnet with a coil and a contact element with an anchor. The contact element is made of a material with a bulk density equal to the density of the water-saturated soil of the dam model. When the dam model is eroded, the soil moves and shifts the contact element from the magnetic core of the electromagnet, as a result of which a signal is generated that enters the recorder. During the construction of the dam layout, it is necessary to ensure reliable contact between the electromagnet and the contact element.

This device is the closest analogue (prototype) of the claimed invention. Coinciding essential features of the prototype and the claimed invention are the presence of a soil displacement meter (erosion sensor) and registration means.

The disadvantage of the prototype is the low reliability and accuracy of the measurements, which prevents the obtaining of the claimed technical result.

Firstly, the construction of the dam model provides for its layer-by-layer compaction to the required density. The soil displacement meter (erosion sensor) of the prototype consists of two miniature components (an electromagnet and a contact element). Therefore, it is not always possible to maintain reliable contact of these elements during tamping, which leads to loss of information from the installation point of the meter and reduces the reliability of the measurement.

Secondly, the accuracy of modeling the process of development of the proran is determined by the accuracy of the coordinates of the installation of erosion sensors in the body of the dam model and ensuring the invariability of these coordinates during the construction of the model. However, when tamping, an uncontrolled shift of the soil is possible together with the installed soil displacement meter (erosion sensor), which in this case will work at a point other than the specified installation site. The accuracy of measurements is reduced, which leads to a distortion of the spatio-temporal picture of the process of development of the proran

Thirdly, at significant speeds of movement of the soil by the water flow, a simultaneous joint start of the movement of the electromagnet and the contact element is possible, which leads to the operation of the meter at a point other than the installation site. This drawback reduces the accuracy of the measurement.

In addition, the disadvantages of the prototype should include a single channel and the lack of a trigger unit that provides the necessary accuracy of measurements.

A technical problem, the solution of which will be provided by the claimed invention, is obtaining experimental data on erosion of models of soil dams depending on changes in external factors. Using the prototype does not allow to solve this problem with the required accuracy and reliability.

The technical result of the claimed invention is to increase the reliability and accuracy of measurements.

The technical result is achieved by the fact that in the known device, as erosion sensors (soil displacement meters), instead of sensors consisting of two separate parts (an electromagnet and a contact element), sensors are used that have an integral structure, which is a common dielectric base with two applied to it miniature copper electrodes isolated from each other. The use of sensors of a one-piece design eliminates the possibility of their failure due to loss of contact between the electromagnet and the contact element during tampering, which increases the reliability of measurements.

In addition, the device implements not one but several erosion sensors installed at predetermined points of the dam model, which together with the measuring lines form several measurement channels. This allows you to most fully recreate the spatio-temporal pattern of erosion formation, which increases the accuracy of measurements and modeling. Introduction to the device of the launch unit allows simultaneous launch of all channels of the registration unit, which also improves the accuracy of measurements.

In FIG. 1 is a block diagram of a device containing N measurement channels. One of the plates of the erosion sensor 1 of the first measurement channel 2, which is installed in the body of the dam model, is connected to the positive terminal of the power supply 3, and the second through the load resistor 5 with the negative terminal of the power supply 3 and the first input of the recording unit 6. The construction of the remaining N measurement channels. To save space in FIG. 1 shows the first measurement channel 2 and the Nth measurement channel 7. The number of measurement channels N depends on the version of the experiment and lies within 12-32.

The simultaneous start of all registration channels is carried out automatically by supplying a start signal to the registration block 6 from the start block 8. The start signal is generated by the start block from the start sensor 4, which is triggered when the overflow wave passes through the crest of the dam layout. The moment of the start of the registration block means the beginning of the erosion process of the dam model and from it begins the countdown of the time when the water flow reaches each of the erosion sensors installed in it, the location of which is known. The sensor 1, placed in the saturated soil of the dam model, has a resistance R1, passing through which the current I1 creates on the resistor 5 connected in series with the sensor 1, the voltage drop U1 supplied to the input of the recording unit 6. When the water flow reaches the erosion sensor 1, its resistance abruptly drops to the value of R2, the passing current increases to the value of I2 and the voltage drop across the resistor 5 jumps to the value of U2. The registration unit records the time from the moment of start up to the moment of operation (appearance of a power surge) of each washout sensor installed in the body of the dam model.

In addition, prior to the construction of the dam model (Fig. 2), using well-known structures, vertical metal strings 2 are preliminarily stretched at the place of dumping, to which the erosion sensors 1 are rigidly fixed at the given points. FIG. Figure 2 shows an example of one of the cross sections of a dam model in which erosion sensors are installed. After the construction is completed, the strings dams pass through its body 3, and the erosion sensors remain fixed at the points with the given coordinates. This design does not distort the modeling process and eliminates the accidental shift of the erosion sensors from the given installation coordinates during layer-by-layer tamping of the dam model during its filling, and also prevents their joint movement with the soil at high rates of its displacement by the water flow. The result is a guaranteed triggering of the sensors at the given installation points, which increases the accuracy of the measurements.

The available data on the exact spatial position of the erosion sensors in the body of the dam model and the obtained experimental data on the response time allow us to experimentally study the dynamics of erosion of dam models depending on the changing modeling conditions.

The technical result is achieved by performing the entire set of essential features of the invention.

The implementation of the invention was tested during experimental studies of erosion of models of soil dams in the wave hydrohole FSUE "12 Central Research Institute" of the Ministry of Defense of Russia. Models of soil dams were poured from sand 40 cm high, 150 cm wide (width of a wave hydro-well) and a sole length of 260 cm.

The erosion sensors were made in the form of rectangular plates of double-sided foil-coated getinax 2 × 4 mm in size, to the copper pads of which the conclusions from the MGTF wire were soldered. A rechargeable battery was used as the power unit, and the Tektronix TDS-2014B 4-channel oscilloscope performed the function of the recorder unit.

The launch block was a channel similar to the measuring one. But at the same time, the start sensor 4 (Fig. 2), whose design is similar to the erosion sensor, was rigidly fixed on one of the vertical strings in the air at a distance of 3-4 mm from the crest of the dam model. The sensor was triggered by the overflow wave flow through the dam model. The signal from the sensor was applied to start all the channels of the registration unit.

The design of vertically stretched metal strings was implemented using metal corners 40 × 40 mm, laid before dumping the dam model on the bottom and over the sides of the wave hydrowell. At given points, steel strings were attached to the corners, to which erosion sensors were rigidly attached.

Literature

1. K.R. Ponomarchuk, A.M. Prudovsky, Experimental studies of the process of destruction of soil dams, JSC "Research Institute of Energy Structures", Moscow, 2010.

2. Device for monitoring the state of the soil dam, copyright certificate SU No. 1312135, class. EB02 7/06, 1985.

3. Device for determining the moment of erosion of dam models, copyright certificate SU No. 720481, class. G09B 25/00, 1979.

Claims (2)

1. A device for an experimental study of erosion of models of soil dams, including an erosion sensor, a power supply, a registration unit, characterized in that the erosion sensor has a solid structure, which is a dielectric base, on which miniature copper electrodes are placed, isolated from each other, and the device itself is multi-channel and contains a start block. 2. The device according to claim 1, characterized in that the device includes a structure of vertically stretched metal strings passing through the dam model, on which erosion sensors are fixedly fixed.

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