SU1046397A1 - Method for clearing open bed from bottom deposits - Google Patents

Abstract

A method for cleaning an open bed from bottom sediments, including supplying a stream of pressurized water from the nozzle, followed by sediment entrainment, has a flow of water from the stream, in order to increase efficiency by removing oozy fractions and shielding the surface with sand fractions, perpendicular to the channel surface, and the water supply from the nozzle is carried out at a rate which is determined from the following ratio — MSHR to de L do jet jet diameter, distance from nozzle to surface the thickness of the bed, the thickness of the sediment layer, the flow rate of the jet; 6 - acceleration of force of gravity.

Description

The invention relates to hydraulic engineering and can be used in cleaning reclamation canals, river beds, as well as cross-flow canals from contaminated bottom sediments, which are a mixture of sand and silt particles, on which highly developed surfaces adsorb impurities. purification of watercourses consists in lengthening precisely the clay fractions. - A method is known for cleaning river beds and canals from bottom sediments by removing them using suction dams. l. The disadvantage of this method is high energy costs associated with the transport of suction water-soil mixture through pipes for considerable distances to the places of storage of the soils removed from the channel. There is also known a method of cleaning an open channel from bottom sediments, which includes supplying a jet of water under pressure from the nozzle to the surface of the channel, followed by sedimentation of the channel 2 by the flow of water. The purpose of the invention is to increase the efficiency by removing the clay fractions and shielding the surface with sand fractions. This goal is achieved by the fact that the nozzles have a perpendicular to the surface of the channel, and the water is supplied from the nozzle at a speed that is determined from the following relation. JlL -lirlUora dd - diameter of the jet nozzle - distance from the nozzle to the surface of the channel - sediment thickness; - jet flow rate; -acceleration of body strength. FIG. 1 shows nozzles in the process of pumping onto the surface of sediments; in fig. 2 - sediment surface after jet action. The method is carried out as follows. Nozzles 1 for a nozzle system are set perpendicular to the ground surface at a distance that exceeds the size of the largest bottom irregularities by 15-20%. A jet of water 2 is pumped from the pump unit to the surface of the contaminated soil 3. The jet velocity is set in accordance with the proposed ratio and a suspended layer 4 is formed. After treating the contaminated soil 3 nozzles 1 are moved to a new position downstream. The sand fractions are precipitated and create a screen 5 of purified sand. The jet velocity is selected in such a way that only the oozy fractions of the soil are removed from the zone of the suspended layer. Example 1. Calculate the jet outflow rate required to create a suspended layer regime in order to remove contaminated sludge fractions from a soil layer with a thickness of 0.5 meters. Docket diameter is 0.05 meters, the distance from the nozzle to soil is Ij. .8-1Г / 0,5 -t 1 0.51 (- ,, lc. Example 2. For a soil layer hp 1 m, nozzle diameter 0.05 m and distance from the nozzle to the soil L 0.5 m. F (, ft.o, sr / 1 2 05 -1 1, ",) 2-0-sSiFsJ -S / Example 3. For a layer of soil Ng 0.25 m, nozzle diameter, l m and the distance from nozzle to soil L 1 , 5 m. T9.ei, 5r / 0 .1.5 0.25 -,. ffektivnost by removing the clay fraction and the sand fraction shielding surface E that accelerates the work and reduces the cost.

Claims (1)

METHOD FOR CLEANING AN OPEN CHANNEL FROM BOTTOM SEDIMENTS, including supplying a surface of a stream of water under pressure from a nozzle with subsequent ablation of sediments by a stream of river water, characterized in that, in order to increase efficiency by removing silt fractions and screening the surface with sand fractions, nozzles are placed perpendicular to the surface of the channel, and the water supply from the nozzle is carried out at a speed that is determined from the following relationship where is the diameter of the jet nozzle; L is the distance from the nozzle to the channel surface ”, h _r is the thickness of the sediment layer ', U is the velocity of the jet; - acceleration of gravity. 10.46397