UA40544U - Method for underground gas storage operation - Google Patents

Abstract

A method for underground gas storage operation, in accordance with which a buffer gas volume is injected into the reservoir bed and active gas volume is cyclically injected and extracted. After extraction/injection of the active gas volume the current strata pressure in the underground storage is determined and, if its value is smaller as compared with the value of minimum/maximum rated pressure, inert gas is additionally injected into the reservoir bed, moreover in such a volume, which provides for increase of the value of current strata pressure to the value of minimum/maximum rated pressure.

Description

7 Okgs/cm?, including the active volume of gas - bbOmln. m3, gas buffer volume - bbOmln. m3 at a minimum design reservoir pressure of 40 kgf/cmg. The total fund of PSG wells includes 60 wells, including 50 operational wells.

The geological structure of the reservoir reservoir and the implemented system of placement of production wells determine the following main gas-hydrodynamic features of PSG operation. The gas reservoir has two gas areas with independent groups of wells - the western and eastern parts, which have a complicated gas-dynamic connection and operate in different modes. The eastern part is characterized by high capacity properties of the reservoir, is an actively drained zone and contains the main number of production wells (45 wells). The poorly drained zone is limited to the western part of the POH with low geological-lithological and reservoir properties and contains a small number of production wells (5 wells). The formation of an artificial gas deposit and gas-saturated pore space has been completed, and the active volume of gas is about 40 mln. m, which migrated during the entire period of cyclic operation of the PSG to the poorly drained western part, actually does not participate in drainage and acts as a buffer volume of gas. During the last years of operation of PSG, the active volume of gas has been withdrawn at the level of 5 bOmln. m3 within the design range of reservoir pressures.

Given the existing gas dynamic conditions in the reservoir reservoir and the implemented system of placement of production wells, the extraction of the active volume of gas in the design volume is possible only if the range of design reservoir pressure values is changed: the minimum - up to 38 kgf/cm?, the maximum - up to 8 kgf/cm7. But, at the same time, there are difficulties associated, firstly, with the work in unusual modes of the technological equipment of the gas preparation system, the compressor station and the impossibility of supplying natural gas to the gas connection pipeline, and secondly, with the violation of the technological modes of operation of the PSG and the discrepancy in the value of the current minimum/maximum reservoir pressure to the design parameters approved by the technological project of cyclic operation of the wells, thirdly - with a decrease in the productivity of wells and wells in general. The way out of this situation may be to increase the value of the current reservoir pressure, fixed at the end of the withdrawal/injection season, to the value of the minimum or maximum design reservoir pressure by increasing the gas buffer volume in the collector reservoir.

Increasing the buffer volume of gas in the gas storage facility is carried out by injecting inert gas, for example, nitrogen into the eastern actively drained part in a volume that corresponds to the undrained active volume of natural gas in the western part of the gas storage, i.e. in the volume of 40 million m3. At the same time, the cyclic operation of PSG takes place within the following adjusted design parameters: total storage volume of 1,240 mln. m of gas at the maximum design reservoir pressure of 7 Okgs/cm?, including the active volume of gas - bbOmln. m, buffer volume of gas - b40 million. m3 at a minimum design formation pressure of 4 Okgs/cm.

For one year of additional injection of nitrogen into the reservoir according to the proposed method, the expected profit from the implementation of the method at the price of natural gas of USD 179.5 per 1000 m3 will reach 3.3 million. dollars

USA. A significant economic effect from the use of nitrogen is obtained due to its lower cost compared to natural gas.

Thus, the use of the proposed method at the PSG of Ukraine will make it possible to ensure the selection of the active volume of gas in the design volumes, and thereby improve the technological and technical and economic indicators of the operation of the gas station.