7      Determination of S from mini-fracs and
                                            3
              extended leak-off tests and constraining the
              magnitude of S          Hmax    from wellbore failures

              in vertical wells





              As mentioned at the outset of this book, arriving at practical solutions to many prob-
              lems in geomechanics requires knowledge of the magnitude and orientation of all three
              principal stresses. This is well illustrated by the range of geomechanical topics and
              case studies presented in Chapters 10–12. The first subject discussed in this chapter
              is the magnitude of the least principal stress, S 3 ,as obtained by hydraulic fracturing,
              specifically mini-frac (or micro-frac) tests done specifically for the purpose of measur-
              ing stress. As discussed at length below, because hydraulic fracturing frequently occurs
              during leak-off tests (LOT’s) and especially extended leak-off tests (XLOT’s), these
              tests also can be used to determine S 3 .In normal and strike-slip faulting environments,S 3
              is equivalent to S hmin .Inreverse faulting environments, S 3 is equivalent to S v . Methods
              for determination of S hmin from Poisson’s ratio (obtained from P- and S-wave sonic
              logs) are based on questionable physical and geologic assumptions. These methods
              will be discussed briefly in Chapter 9. Suffice it to say at this point that direct measure-
              ment of the least principal stress through some form of hydraulic fracturing is the only
              reliable method known that is practical to use in wells and boreholes at any appreciable
              depth.
                One can determine the magnitude of the least principal stress from a micro-frac,a
              very small-scale hydraulic fracture induced only to measure stress at a particular depth,
              usually at a specific depth through perforations in cemented casing. One could also
              determine the least principal stress from a mini-frac,or the relatively small-scale frac
              made at the beginning of a larger hydrofrac operation intended to stimulate production
              in a low-permeability formation. It can also be determined at the beginning of frac-
              pack operations, where a hydrofrac is made through some sort of gravel-pack screen
              set in a well in weak sands, principally to spread out the depletion cone around the
              well to reduce the likelihood of sand production. One can also determine the least
              principal stress from a leak-off test: after the casing has been cemented in place at a
              given depth and the well is drilled a short distance (usually 10–20 ft) the open section
              of the well is pressurized to the point that a hydraulic fracture is created, and the
              magnitude of the least principal stress can be determined. When leak-off tests are
              carried out fully (as described below), they are referred to as extended leak-off tests.


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