RU2018563C1 - Method for protection from underflooding of built-up area under conditions of its composition of inhomogeneous rocks - Google Patents

Abstract

FIELD: construction. SUBSTANCE: method includes construction of vertical shaft, drilling of ray horizontal holes from the shaft, installation of filters in holes and withdrawal of drainage water. First, horizontal hole of largest length is drilled with simultaneous study of lithological, granulometric and water permeable characteristics of rocks and their location with reference to preset direction of hole. Parameters of each subsequent horizontal hole and the type of its filter are corrected with consideration of more accurately defined rock water permeability in holes drilled beforehand. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to construction and can be used to protect built-up areas, industrial sites of enterprises and cities from flooding by groundwater in conditions when the drained territory is composed of patches of heterogeneous rocks in terms of their lithological composition and water permeability.

 A known method of draining soil by drainage, including the construction of a vertical shaft shaft, drilling horizontal wells from it, installing filters in them, draining drainage water [1].

 The disadvantage of this method is that it does not provide effective protection against flooding of the built-up areas, since horizontal wells are drilled without taking into account the water permeability of the rocks occurring in the areas of the built-up territory and under conditions of addition of rocks that are heterogeneous in lithological composition and water permeability, does not provide the necessary reduction groundwater level and drainage efficiency.

 Closest to the invention is a method of constructing beam drains, including the construction of a vertical shaft shaft, drilling from it horizontal beam wells, installing filters therein, draining drainage water. The known method provides the efficiency of well construction in difficult hydrogeological conditions [2].

 The disadvantage of this method is that the construction of horizontal wells is carried out without specifying lithological, particle size and permeable characteristics of the rocks in the massif, composed of heterogeneous rocks, therefore, the known method does not provide drainage efficiency.

 The objective of the invention is to provide a method of protection against flooding of the built-up area under conditions when the drained rocks are folded heterogeneous in lithological composition and water permeability by adjusting the parameters of the wells during the sinking process taking into account the specified water permeability of the rocks in previously completed wells.

 The proposed invention solves this problem with the achievement of the technical result as follows.

 According to the proposed method of protection against flooding of the built-up area under conditions of its addition by heterogeneous rocks, including the construction of a vertical shaft shaft, drilling horizontal beam wells from it, installing filters in them and draining drainage water, initially drill the longest horizontal well with the simultaneous removal of lithological, particle size and permeable characteristics of the rocks and the binding of areas of their location to a given direction of the well, adjust the parameters of each last traveling horizontal wells and the type of filter taking into account the specified water permeability of rocks in previously completed wells.

 Thus, the proposed method will allow you to perform the necessary water reduction and to eliminate flooding of the built-up area in the conditions of addition of its heterogeneous rocks.

 In FIG. 1 shows the phase of the construction of the shaft shaft and the longest well; in FIG. 2 - section aa in figure 1; in FIG. 3 - phase of construction of subsequent wells; in FIG. 4 is a section BB in FIG. 3.

 The proposed method is as follows.

 In the conditions of tight development of territory 1 (Fig. 1), where the static level 2 (Fig. 2) of groundwater 3 is located, for example, above the base 4 of a buried building, a vertical shaft 5 is constructed. From a shaft 5, for example, a drill string is drilled horizontal borehole 6 of the longest length and at the mark of laying the rock extracted from the borehole 6, perform a characterization and judge its lithological and particle size distribution of the rocks, determine the water permeability of various sections 7 and 8. Bind, for example, contact 9, 10 of these sections of the rocks to the true length of the well 6. As a result, it is established that in section 7 there are rocks with good water permeability, and in section 8 there are, for example, clays that are characterized by low filtration properties and poor water loss, then the construction parameters of each the subsequent well and the type of its filter are adjusted taking into account the specified water permeability of the rocks in the previously completed well.

So carry out the sinking of the next beam drainage well 11 (Fig. 3), but not to the length l, as it was planned, but only until contact 9 with the rocks 8 of weak water loss to the length l ₁ , where l ₁ <l. Similarly, sinking of the beam drainage well 12 only over rocks with good permeability is performed. The sinking of the beam drainage wells 13 and 14 is performed to the length prescribed by the project, since they were located only in permeable rocks, for example, in loams.

 To ensure the necessary water reduction in the built-up area, i.e. reaching position 15 of the groundwater level 3 below the buried part 4 of the structure additionally passes a drainage well 16 (Fig. 4) in permeable rocks and place it above the bed of watertight rocks 8. All wells are equipped with filters, choosing the type of filter in accordance with the lithological composition of the rocks of each section .

 Thus, as a result of adjusting the parameters of the beam drainage wells during their penetration taking into account the clarification of the water permeability of the rocks under the conditions of the addition of heterogeneous rocks to the protected area, the rational placement of the constructed drainage wells is carried out only in permeable rocks and, accordingly, the filter type is selected and thereby the necessary water reduction is achieved.

Claims (1)

 METHOD OF PROTECTION AGAINST WATERING OF THE BUILT-IN TERRITORY UNDER CONDITIONS OF COMPOSITION BY ITS HETEROGENEOUS ROCKS, including the construction of a vertical shaft shaft, drilling horizontal beam wells from it, installing filters in them, draining drainage water, characterized in that it is initially drilled with a horizontal horizontal well with the longest granulometric and water-permeable characteristics of rocks, and by linking sections of their location to a given direction of the well, adjust the parameters of each leduyuschey horizontal well and its type filter with the refined water permeability of rocks in the wells previously passed.

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