SU983269A1 - Method of lowering water level in open mines - Google Patents

Description

1 (54) METHOD OF AUDITING ON CAREERS

Claims (2)

The invention relates to mining and can be applied in a water-drying system of quarries. There is a method of drying of quarries, including drilling along the contour of the rishema pit from. water wells designed for long-term operation with a large water inflow. The wells are equipped with casing strings with filters and high flow pumps for pumping water 1. The disadvantage of this method is low well production due to the low permeability of the formation in the area of the action of the well, which decreases further with time as a result of the formation and filters in these. the well conditions do not fulfill their intended purpose and the system of dewatering does not ensure the drainage of the quarry. The closest technical solution is the method of dewatering the quarries, which includes the drilling of boreholes, their equipment with casing and filters, creating additional fracturing of the aquifer by exploding explosive charges. By exploding the charge, the rock is destroyed and a zone with increased fracturing is formed at a distance of 20 charge diameters, which leads to an intensification of the inflow Fluid in the wellbore 2}. The disadvantage of this method is the impossibility of its use in an already existing system of water-. lowering due to the complete destruction of the casing string and filters both in the explosion zone and at a considerable distance from the elevation point up and down the wellbore. The repair work that is required to restore the well bore after an explosion is lengthy and time consuming. The aim of the invention is to increase the efficiency of the well and preserve the casing and filters. This goal is achieved by the fact that, according to the method of water lowering, quarries 4 include the successful drilling of water wells, their equipment with a casing string and filters, the creation of additional fracturing of the aquifer, which are placed and blown up: the charge of the explosive, and on the cavity formed during the explosion, the perforated casing coloids are produced with a water-lowering. wells, and will delight the aquifer destruction zone by the size, along the vertical, the length of the filters and the extension of the dwelling to the zone of the fracture of the water-lowering well. The creation of the zone is governed by the distance between the wells and the magnitude of the charge. The drawing is a diagram for sleep and method. ; The water lowering well 1 includes, intermediate columns 2, casing 3, gravel backfill of the annulus 4 and filter oa 5. The well is drilled into the aquifer 6. In an additional well 7, the charge EB-8 is set, which, after exploding, creates a zone of destruction, rock and fracture zone 10. The method is carried out as follows. An additional well is drilled with an open hole, i.e. without casing, to the depth of dewatering. The explosive charge is lowered into this well and exploded. When the explosive charge explodes in the rock, a zone of destruction is formed in which a zone of strong destruction and a zone of fracture can be distinguished. The diameter of the additional well and the distance at which it is drilled from the dewatering well is chosen so that the explosive charge placed in it ensures that the fractured zone extends to the joining of the well. . A charge explosion produces a fractured cavity with a diameter of up to 10–20 m, which is connected to the main downhole well. The cavity plays the role of a water collector. In addition, the water well filters are in a zone of relatively intense loads directed out of the annulus, which results in cleaning the filters more intensively than in water purification using all other existing methods from the wellbore. . The use of the invention in the mining industry in quarries will increase the efficiency of the water lowering system and will have a beneficial effect on the performance and operating modes of the pumps. The invention of the method of water lowering in open pits, including drilling downhole wells, equipping them with casing and filters, creating additional fracturing of the aquifer by exploding explosive charges, characterized in that additional wells are drilled into the water downhole, into which the explosive charge is placed and blown up, and a cavity is produced on the cavity when it is formed. the formation of a casing column by a watering hole of a well, and forming an aquifer destruction zone of a size that vertically overlaps the length of the filters and extends to join with the fracture zone of the water lowering well. Sources of information taken into account for the examination of the fi-ges of 1. Depression of water at mineral deposits: 1x with complex hydrogeological conditions. M., Publishing House of the Academy of Sciences of the USSR, 1963, p. 16-18. 2. Lovl S.A. Blasting operations in water wells. M., Nedra, 1971; 102-104 prototype; f 3 10