DD256429A3 - METHOD AND MEDIUM FOR BLOCKING MINERALIZED AND / OR SAEFERING WATER INFLUENCES - Google Patents

Abstract

The invention relates to a method and a medium for blocking mineralized and / or acidic Wasserzufluessen from wasserfuehrenden layers, in particular from klueftigen or poroesen hard rocks to excavations or other Bergmaennischen ramparts. The object is to prevent the mineralized and / or acidic layer water inflow to mine workings or excavations by compressing suitable treatment media in the wasserfuehrenden layers. According to the invention, a treatment liquid is compressed in cohesively covered groundwater aquifers. The pressure is at least 0.2 MPa smaller than the pressure of the aquifer or the covering layer. Gas is injected to occlude the treatment fluid. The treatment liquid consists of a surface-active substance with optionally added stabilizers.

Description

Field of application of the invention

The invention relates to a method for blocking of mineralized and / or acidic water flows from water-bearing layers, in particular from fissured or porous bedrock to excavations or other mining advances.

Characteristic of the known technical solutions

As is known, water inflows from groundwater-bearing layers to mine construction or excavations are prevented by discharging the water from the relevant aquifers.

Such methods are Filterbrunnenentwässerungen, Streckenentwässerungen and combined line-Fallfiler- or stretch Steckfilterentwässerungen.

Other methods for preventing water inflows are known with the so-called sealing methods, such as the construction of sealing walls and the injection of sealing media into the pore space of aquifers.

By the methods mentioned essentially the water flows are kept to the mine peasants within the desired limits.

The disadvantages of these processes are above all the enormous material and technological expenditures. The drainage processes by means of filter wells or drainage processes through filter wells or drainage routes move large volumes of water to drain the mines, which at the same time influences large areas untouched by mining and thus is damaged by drainage.

In addition to the stationary water, the inflow from the catchment area, the dynamic water, must always be promoted. In the previously known Abriegelungsverfahren occur mainly high technological expenses or process limits in terms of blocking depths or large material costs for injecting blocking agents such as resins, polymers or other pore-blocking substances (DD-PS 21902, DE-PS 2544542). Sealing wall technology is deficient in limited embedment depth. Undercurrent, not all aquifers detected sealing walls have insufficient Biockierungswirkungen.

Object of the invention

The object of the invention is to reduce or block the mineralized and / or acidic Wasserzufluß from water-bearing layers, in particular from fissured or porous rocks to excavations or other mining collisions while avoiding the aforementioned procedural disadvantages or in reducing the material cost.

Explanation of the essence of the invention

The object of the invention is to provide a method to prevent the mineralized and / or acidic Schichtwasserzufluß to mine construction or excavations by compressing suitable treatment media in the water-bearing layers.

According to the invention, to block mineralized and / or acidic water inflows from water-bearing layers, in particular from fissured or porous bedrock to construction pits or other mining run-ups, a surfactant-containing treatment liquid is pressed into the soil alternately with gas at equal volume rates. After uniformly compressing the treatment liquid through the holes into aquifers covered by cohesive layers, a gas is injected to produce a blocking phase dispersion (foaming) in a pre-calculated volume.

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Technological variants that promote the foaming process consist of pre-compression and post-compression of gas during an intermediate solution injection or in a cyclic change of gas and solution injections. In this procedure, the blocking phase dispersion between gas and liquid is particularly strong.

The aqueous solution of surface-active substances, which in combination with gases form finely dispersed stable foams of relatively high density (p> 0.04 g / cm ³ ), are pressed into the water-bearing horizon as treatment liquid and deliberately converted into the foamed state with gas injections. According to precalculated concentrations, depending on the volume of treatment liquid, the subterranean foaming of the above-mentioned liquid builds up a blockage of the groundwater that is determinable in the expansion of temporary water.

The compositions of the treatment liquids are preferably chosen so that the solutions contain 0.5 to 5.0% of the surfactant, based on the treatment liquid. A non-ionic substance is used, such as oxethylated fatty alcohols, such as alkyl polyglycol ethers or a mixture of nonionic and ionic surface-active substances, such as fatty alcohol polyglycol ether sulfate, the ionogenic fraction of the mixture being not more than 5%.

To increase the blocking effect, stabilizers, such as polymers, clay minerals or higher alcohols of 0.01 to 0.5% by mass, based on the treatment liquid, are optionally added.

The barriers produced by the process according to the invention cause a reliable temporary blocking of the water in the aquifer.

In contrast to conventional methods in which large technological or high material expenses occur, according to the invention, the inflow of water through foam, which fills the pore space, shielded. The foam fulfills high quality requirements in terms of stability and resistance to the highly mirieralisierten groundwater.

Through the use of appropriate surface-active substances, treatment liquids can be prepared which form stable blocking foams in the pore space of the rocks under extreme pressure and temperature conditions and at high mineral and / or high acid concentrations in the solutions.

The introduction of the blocking fluid and the gas is possible with little technical effort. The method can be used as a stand-alone blocking method or in combination with known solutions, such as blocking deep areas at the foot of sealing walls.

embodiments

1. The treatment liquid, 5m ³ per 1m aquifers, admixed to a 5% solution of a nonionic alkyl polyglycol ether such as Alkylphenylpolyglykoläther with 11 annealed ethylene oxide molecules (Dispersator BO), the 5 parts by mass of a cationic active quaternary ammonium derivative, such as Alkylaminpolyglycolether with 3 attached ethylene oxide molecules (FCF 350 - Dabrozilan EG) is added in turns up to 5 equal volumes as a successive liquid and gas injection in aquifers with highly mineralized water to a depth of 250 m. The treatment liquid is added to increase the blocking effect of 0.1 mass% of a polymer (TBS-O) based on the treatment liquid. The injection pressure for the treatment liquid is 2.8 MPa, for the gas 2.8 to 3.5 MPa. The permeability of the aquifer was lowered by 10 ~ ³ m / s.

2. For the treatment of an aquifer with a thickness of 20 m at a depth of 180 m, 30 m ^{3 of} a 2.5% solution of the mixture of the nonionic alkyl polyglycol ether (fatty alcohol polyglycol ether with 9 ethylene oxide molecules - Präwozell W-OFK 100) and the anionic fatty alcohol polyglycol ether sulfate are injected into an injection well (Sodium alkylpolyglycol ether sulfate with CiO-Ci ₆ -Elropon KR 3), the 0.05 wt .-% of a higher fatty alcohol as a stabilizer, based on the treatment liquid, is added.

The injection of the solution and the air takes place alternately in six volumetric rates. The groundwater level is 80m deep at the beginning of the treatment, so that about 1 MPa is required to overcome the hydrostatic pressure in the liquid treatment. During gas injection, the injection pressure increases from 1.4MPa in the 1st gas injection cycle to 2.07MPa in the 6th cycle and indicates the build-up of a phase-dispersed region with blocking effects on water inflows.

3. At a depth of TOm a 3m powerful partial blockage of a low mineralized aquifer through the injection of a 2% igenTensidlösung 0.01% hexadecanol are added, achieved in that at least 10m from the injection bores respectively mit6m ³ surfactant solution in three installments be introduced in alternation with the air injection.

The 2% treatment liquid contains the anionic sodium alkyl polyglycol ether sulfate such as Elropon KR 3. The injection pressures under these conditions are <0.28 MPa.

4. Under similar conditions, but to block higher mineralized waters, as described in Example 3, 1.5 m ^{3 of} surfactant solution, mixed to a 2.5% solution of a nonionic Alkylpolyglykolethers, such as Alkylphenylpolyglycolether with 9 attached ethylene oxide molecules (Präwozell W-ON 100), alternating with air injections in 3 to 5 cycles at the same liquid and air rates injected. The inflow of water to a fountain 8m away decreases by 80%.

Surfactant characteristic example

12 3 4

non-ionic XX - X

anion-active - X - -

cation active X - X -

Claims (3)

1. A method for blocking of mineralized and / or acidic water flows from water-bearing layers, in particular from fissured or porous Festgesteineri to pits or other mining uprisings, characterized in that a surfactant-containing treatment liquid is pressed alternately with gas in the same volume rates in the ground. 2. A method according to claim 1, characterized in that the surfactant-containing treatment liquid 0.5-5 Ma .-% of an alkyl polyglycol ether (R-CH ₂ -O- (CH ₂ CH ₂ O) XH, where χ the number of applied ethylene oxide molecules of size 8-12) or a mixture of this and a quaternary ammonium derivative (Alkylaminpolyglycolether with 3 attached ethylene oxide molecules) contains, this proportion is not more than 5%. 3. The method according to claim 1 and 2, characterized in that to increase the blocking effect optionally per se known stabilizers, such as polymers, clay minerals or higher alcohols of 0.01-0.5 Ma .-% based on the treatment liquid, are added.