Methods for design and analysis of subterranean fractures using net pressures
First Claim
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1. A method for determining the geometry of a fracture created in a subterranean formation comprising the steps of:
- (a) injecting fluid into said subterranean formation;
(b) monitoring the net fracturing pressure as a function of the fluid injection rate over time;
(c) determining the fluid volume injected for a fixed time period from the injection rate of fluid;
(d) adding the volume determined from step (c) to the volume of fluid injected into said subterranean formation prior to said fixed time period;
(e) determining the volume of fluid lost into said subterranean formation from previously created fracture area;
(f) calculating an upper bound on fracture length according to the equations;
##EQU11## (g) estimating a first fracture length based upon previous bounds of fracture length;
(h) determining volume of fluid loss using said first fracture length;
(i) calculating a second fracture length according to step (f);
(j) comparing the first fracture length determined in step (g) to the second fracture length determined in step (i) to determine whether the difference between the two is within acceptable tolerance;
(k) repeating steps (g) through (i) until an acceptable tolerance is achieved;
(l) determining fracture width; and
(m) using said net fracturing pressure behavior to design a fracture treatment.
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Abstract
A method for determining the geometry of a fracture in a subterranean formation is provided in which the geometry is determined using net fracturing pressure. The method can be used for both fracture design and on-site or post treatment fracture analysis. The method in accordance with the present invention takes into account net pressures throughout the fracturing treatment and compensates for friction pressure in the fracture.
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3 Claims
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1. A method for determining the geometry of a fracture created in a subterranean formation comprising the steps of:
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(a) injecting fluid into said subterranean formation; (b) monitoring the net fracturing pressure as a function of the fluid injection rate over time; (c) determining the fluid volume injected for a fixed time period from the injection rate of fluid; (d) adding the volume determined from step (c) to the volume of fluid injected into said subterranean formation prior to said fixed time period; (e) determining the volume of fluid lost into said subterranean formation from previously created fracture area; (f) calculating an upper bound on fracture length according to the equations;
##EQU11## (g) estimating a first fracture length based upon previous bounds of fracture length;(h) determining volume of fluid loss using said first fracture length; (i) calculating a second fracture length according to step (f); (j) comparing the first fracture length determined in step (g) to the second fracture length determined in step (i) to determine whether the difference between the two is within acceptable tolerance; (k) repeating steps (g) through (i) until an acceptable tolerance is achieved; (l) determining fracture width; and (m) using said net fracturing pressure behavior to design a fracture treatment. - View Dependent Claims (2)
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3. A method for determining the geometry of a fracture created in a subterranean formation comprising the steps of:
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(a) estimating the net fracturing pressure as a function of the fluid injection rate over time; (b) determining the fluid volume injected for a fixed time period from the injection rate of fluid; (c) adding the volume determined from step (b) to the volume of fluid injected into said subterranean formation from previously created fracture area; (e) calculating an upper bound on fracture length according to the equations;
##EQU12## (f) estimating a first fracture length based upon previous bounds of fracture length;(g) determining volume of fluid loss using said first fracture length; (h) calculating a second fracture length according to step (f); (i) comparing the first fracture length determined in step (f) to the second fracture length determined in step (h) to determined whether the difference between the two is within acceptable tolerance; (j) repeating steps (f) through (i) until acceptable tolerance is achieved; (k) determining fracture width; (l) performing logarithmic least squares fit on said fracture lengths versus time and said fracture widths versus time to provide a means for rapidly determining said fracture length and fracture width in subsequent steps; and (m) using said net fracturing pressure behavior to design a fracture treatment.
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Specification