SU1041438A1 - Method for forming underground gas-holding storage in water-bearing bed - Google Patents

Abstract

-one. A METHOD OF CREATING THE UNDERGROUND GAS STORAGE IN A WATER PLATE A heterogeneous lithological structure, including gas injection into the reservoir and gas extraction to the consumer, characterized in that, in order to increase the use of pore volume and reduce the cost of compression, a more permeable layer is allocated in the aquifer. carried out into the separated interlayers sequentially, starting from the top, while gas injection into each interlayer is carried out until a gas appears at the border of the trap. 2. A method according to claim 1, characterized in that, in order to increase the volume of gas to be extracted, the gas is withdrawn from the separated interlayers sequentially, starting from the lower interlayer. (LCOS 00

Description

The invention relates to the gas industry and is intended for use in the construction and operation of underground gas storage facilities in aquifers, which are predominantly heterogeneous in their lithological structure.

There is a known method of creating an underground gas storage facility created in an aquifer, connected through semi-permeable zones with a lower reservoir, according to which gas is injected into a lower aquifer through injection wells drilled on this reservoir 1.

The disadvantages of this method are limited gas injection into the lower-lying aquifer, performed only to prevent water from entering the main gas-rich formation, under-utilization of the threshold volume of the communicating formations, and also carrying out gas injection into the lower-lying formation simultaneously with the injection into the main gas-saturated formation. The latter causes the backpressure of the gas injected into the storage facility and the need to increase the capacity of the CS.

The closest in technical essence and the achieved result to the proposed is a method of creating an underground gas storage facility in an aquifer, including a non-uniform structure, including the injection of gas into the reservoir and its selection to the consumer. It does not take into account the heterogeneous lithological structure of the reservoir 2.

However, the known method is characterized by insufficient use of porous volume and high cost of compression.

The aim of the invention is to increase the use of pore volume and reduce the cost of compression.

The goal is achieved in that according to the method of creating an underground gas storage facility in an aquifer of heterogeneous lithological structure, including gas injection into the reservoir and gas extraction to the consumer, more permeable streams are produced in the aquifer, and gas is injected into the separated streams sequentially, starting from the upper at the same time, gas injection into each interlayer is carried out until the appearance of gas at the border of the trap. .

In addition, in order to increase the volume of gas withdrawn, the gas is extracted from the separated interlayers sequentially, starting from the lower interlayer.

The drawing shows a lithologically heterogeneous reservoir, section.

The reservoir consists of conditionally separated layers 1,2 and 3, separated by less permeable screens. Every layer

opened by a group of wells 4, 5 and 6, connected to the compressor units through the gas distribution point.

Gas injection starts through wells

4 and continue filling the seam 1 until the gas 7 approaches the structural catch of the cheek. Then, wells 5 are connected and the interlayer 2 is also filled before the gas 7 approaches the trap lock. Then likewise

through the wells 6, the interlayer 3 is filled. The gas is withdrawn from the storage in reverse order, i.e. at the beginning of the interlayer 3 through wells 6, then from the interlayer 2 through wells 5, etc. Filling seams control

5 through piezometric wells 8 located along the design gas saturation circuit.

As a result of the above sequence of filling the reservoir with gas, there is no need to increase the capacity of the compressor station in comparison with the known method of gas injection and the pore volume of the reservoir is more fully utilized. Sequential gas extraction from the bottom up, starting with the lower interlayer 3, in certain

5 geological conditions prevents premature irrigation of the repository and increases the amount. bleed gas.

Example. The reservoir lies at a depth of 800 and has a thickness of 50 m. The projected gas storage volume is 4 billion m. The reservoir is filled with gas through a group of wells that have opened the upper part of the reservoir. With a pumping volume of 1.3 billion m, the gas reaches the structural trap along the top of the castle

marks). The gas content step in this case is 12 m. A further increase in gas-saturated power is inhibited by lithologically inhomogeneous inclusions in the formation. In order to increase the use of the pore volume of the trap, a gas pump is transferred through a special group of wells to the middle part of the reservoir, which is below the gas contact. After the injection of 1.5 billion m of gas into this interlayer, the gas again reaches the trap lock, and the stage of lawn5 saturation increases to 25 m.

Continuing with the development of the threshold volume of the structural trap, the gas is pumped into the underlying interlayer through the next group of wells. Thus, having carried out gas injection to the next approach to the trap lock, the pore volume of the reservoir within the selected lift is filled with gas to the maximum.

The control of the gas approach to the structural trap lock and the project boundary of the gas zone is carried out by regular

5 measurements of pressure and gas presence in water piezometric wells located along a specified project gas saturation contour.

During the operation of the storage facility, in order to increase the active gas volume, selection under certain geological conditions is carried out first, from the lower part of the reservoir, to the invasion of produced water into it. As the reservoir is depleted, gas is subsequently withdrawn from the middle and upper parts of the reservoir through the respective wells.

The economic efficiency of the proposed method of creating an underground gas storage facility can be expressed in terms of an increase in the active gas volume minus the costs of dredging project wells and

drilling new wells on seams 2 and 3.

The proposed method, when used in a number of depots, characterized by the presence of alternating permeable and semipermeable interlayers in the section of the aquifer-collector, increases the use of pore volume and reduces the cost of compression. In addition, the selection of gas from the gas-saturated interlayers in the sequence, the reverse injection of gas, prevents premature flooding of the storage.

Claims (2)

1. A METHOD FOR CREATING AN UNDERGROUND GAS STORAGE IN A HYDROGEN PLASTIC of a heterogeneous lithological structure, which includes injecting gas into a formation and taking gas to a consumer, characterized in that, in order to increase the use of pore volume and reduce the cost of compression, more permeable layers are emitted in the aquifer, and injection gas is carried out in the selected interlayers sequentially, starting from the top, while gas is injected into each interlayer until gas appears at the boundary of the trap. 2. The method according to π. 1, characterized in that, in order to increase the volume of sampled gas, the selection of gas is carried out from the selected layers in series, starting from the bottom layer. J 041438