236             Drilling Technology in Nontechnical Language Second Edition






                  Some of the routinely available coring systems include the following:
                         ▫ Sleeve coring. An outer steel barrel supports the core
                        system. Inside this is an inner sleeve, which may be made of
                        fiberglass, aluminium, or rubber. The inner sleeve supports

                        loose, fractured, or unconsolidated formations. Once at
                        the surface, the core may be kept in the inner sleeve for
                        transporting to the laboratory for analysis. Fiberglass or
                        aluminium sleeves are often sawn into convenient lengths
                        (still with the core inside), with end caps installed to seal the
                        ends, and then are boxed up for transport to the laboratory
                        for analysis.
                      ▫ Sponge coring. An aluminium inner sleeve has a sponge
                        sleeve inside the aluminium tube. The core sits inside the
                        sponge sleeve. When the core is recovered to the surface, any
                        formation fluids that bleed out of the core are absorbed by the

                        sponge where they can be later analyzed.
                      ▫ Orientated coring. A knife blade creates a scratch mark
                        along the core, showing orientation downhole. This can
                        be very important if permeability is highly directional or
                        if the bedding plane directions and inclinations need to be
                        accurately measured.
                      ▫ Pressure coring. After cutting the core, the core barrel is
                        sealed down hole so that when the core reaches the surface,
                        it is still kept at the pressure of its downhole environment.
                        Of course, as the core barrel cools down during recovery, the
                        internal pressures will reduce somewhat, which cannot be
                        avoided. However, if the core contains dissolved gases or very
                        light hydrocarbons, these are kept in solution during recovery.
                        Pressure coring is very expensive. The system is sent to the
                        wellsite inside a standard 40 ft oceangoing container.

                  Successful coring requires a lot of planning and coordination. The

              drilling fluid may have to have special physical or chemical attributes to
              help to avoid contamination of the core and to preserve it as it is pulled
              out of the well. Surface handling, preservation, and storage are extremely
              important to ensure that the core is in good condition by the time it arrives
              at the core analysis laboratory and to recognize and document important
              information with the core on the rig.






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