RU2012130374A - METHOD OF OPERATION OF SELF-PRESSING GAS WELLS - Google Patents

Abstract

A method of operating self-priming gas wells, in which the gas well is provided with a main elevator column and a central elevator column concentrically placed therein, with the formation of an annular space between them, the end of the central elevator column is placed below the end of the main elevator column, and gas is taken simultaneously from the central elevator column and annular space, while the gas is taken from the central lift column with a flow rate that is one and a half times higher than the flow rate required for liquid removal from it, and the gas flow rate in the annular space is set so that it does not exceed the working flow rate, a flow meter is installed in the flow path from the central elevator column, an automatic gas flow control valve is installed in the flow path from the annular space, then the flows are combined and sent to a similar flow meter device, wherein the electrical signals from the flow meter of the center lift column flow and the flow meter device are combined the flow is directed to the controllers of the automatic control complex, which analyzes the data and sends a command to the automatic gas flow control valve, optimizing the total flow rate of the well taking into account the filtration resistances of the well and in accordance with the formula: where q is the working flow rate, thousand m / day; а - filtration coefficient characterizing the degree of bottomhole zone pollution, MP days / thousand m; b - filtration coefficient characterizing the degree of macro-roughness of rock, (MPa · day / thousand m); Θ -

Claims (1)

A method of operating self-priming gas wells, in which the gas well is provided with a main elevator column and a central elevator column concentrically placed therein, with the formation of an annular space between them, the end of the central elevator column is placed below the end of the main elevator column, and gas is taken simultaneously from the central elevator column and annular space, while the gas is taken from the central lift column with a flow rate that is one and a half times higher than the flow rate required for liquid removal from it, and the gas flow rate in the annular space is set so that it does not exceed the working flow rate, a flow meter is installed in the flow path from the central elevator column, an automatic gas flow control valve is installed in the flow path from the annular space, then the flows are combined and sent to a similar flow meter device, wherein the electrical signals from the flow meter of the center lift column flow and the flow meter device are combined th flow controllers directed to automatic control complex, which analyzes the data and instructs an automatic gas flow regulating valve, optimizing the total well production rate with the filtration wells resistances and in accordance with the formula:

where q is the working flow rate, thousand m ³ / day; a is a filtration coefficient characterizing the degree of contamination of the bottomhole zone, MPa ² days / thousand m ³ ; b is a filtration coefficient characterizing the degree of macro-roughness of a rock, (MPa · day / thousand m ³ ) ² ; Θ - filtration coefficient characterizing the hydraulic resistance of the gas flow depending on the well design (MPa · day) ^{2 /} thousand m ³ ; P _PL - reservoir pressure, MPa; P _y - pressure at the mouth, MPa; e is the base of the natural logarithm; s is the dimensionless conversion factor.