PL407743A1 - Method for carrying out the four-cycle test of gas flow to the gas borehole - Google Patents

Abstract

The four-cycle test of gas flow to a gas well, using standard orifices and a special orifice is characterized by the fact that using standard orifices, two flow cycles are performed at the lowest flow rate and at the highest gas flow rate adapted to the production capacity of the well and stabilized bottom pressures are recorded motor corresponding to the above gas flow rates for conventional tests, and motor bottom pressures for isochronous tests are recorded, and the dependence of the gas flow rate on the size of the depression is assessed by the equation: p2 PLN - p2dri = aQi + bQni with three unknowns a, b, n, followed by two intermediate gas flow cycles with flow rates equal to Q2 and Q3, respectively, using a regulated venturi and the corresponding stabilized bottom, moving pressure pdr2stab and pd r3stab in the case of conventional tests, and in the case of isochronous tests, bottom, motor pressures pdr2 and pdr3 are recorded, after the tide times equal to the preceding pressure recovery times, then the factor a is calculated based on the recorded Qi and pdri values from the formula (1), and knowing the factor a points are plotted in a rectangular coordinate system with the coordinates log (C1 - a), logQi, whose course is approximated by a straight line, found by the method of least squares, and from the slope of the equal line (n-1) the value of the exponent n is calculated, and then based on the knowledge of the coordinates of the point of intersection of this straight line with the ordinate axis m = lgb for Q = 1, the value of the coefficient b is calculated, and the size of the potential gas flow rate Qabs of the tested well is calculated, preferably by the graphical method, by constructing the a, bin coefficients calculated above in rectangular coordinates, plot of p2 PLN, - p2dr versus aQ + bQn and finding a point with coordinates Qabs, pdr = 1 at.