Cementation product and use for cementing oil wells or the like

Compositions: coating or plastic – Coating or plastic compositions – Inorganic settable ingredient containing

Reexamination Certificate

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C106S705000, C106S724000, C106S820000, C106SDIG001

Reexamination Certificate

active

06656265

ABSTRACT:

The present invention relates to techniques for drilling oil, gas, water, or geothermal wells or the like. More precisely, the invention relates to cementing compositions, more particularly to those adapted to low temperatures.
After drilling an oil well or the like, a casing or liner is lowered into the hole and cemented over all or a part of its depth. Cementing is intended to fix the casing and also to prevent fluid being exchanged between the various formation layers traversed by the hole, to prevent gas from rising via the annular space surrounding the casing, and to limit the ingress of water into the production well. The cementing operation consists of injecting a cement slurry via the interior of the casing, and displacing it by means of another fluid, generally a drilling mud. When it reaches the bottom of the hole, the slurry is constrained to rise via the annular space between the wall of the hole and the casing. After positioning, the mechanical strength of the hardened cement increases to reach a maximum after about ten days. However, drilling can be resumed as soon as the compressive strength reaches 3.44 MPa (500 psi); in practice, then, it is desirable to have compositions with a short Waiting On Cement, i.e., a short period that elapses between pumping and the time by which the cement has developed sufficient strength to support the conductor pipe.
In the particular case of offshore drilling, special care must be taken with the first portion of the casing, known as the conductor pipe, which acts as a guide for subsequent drilling and as a result must be particularly precisely orientated. The conductor pipe is located a short distance beneath the sea bed, at a temperature typically of the order of 4° C., while the slurry is prepared on the surface, at a temperature which can be close to the temperature of the well (in the case of a North Sea well, for example), but it can also be much higher since deepwater wells are often located in tropical or equatorial zones (in particular the Gulf of Mexico and West Africa). This constitutes a very particular case since when cementing the vast majority of oil wells, the cement slurry heats up as it descends in the well.
A cement sets more slowly at lower temperatures. At a few degrees above zero, an ordinary cement will set only after several days have elapsed during which period the platform is immobilized and drilling cannot be resumed. Further, the conductor pipe is raised before the cementing operation and is held temporarily in a winch until the cement is sufficiently strong for it act as a support. The longer this stage, the more difficult it is to prevent the conductor pipe from deviating from its desired orientation.
Various additives aimed at accelerating setting are known, but such extreme conditions are beyond their capabilities and the quality of the cement slurry and the hardened cement is severely affected. Formulations have thus been developed which are based on specific cements. They are essentially divided into two classes: formulations based on plaster and formulations based on aluminous cements. Formulations based on plaster, or more exactly a plaster/Portland cement mixture, are generally intended particularly for logistical purposes; the performance of aluminous cements is severely affected when contaminated with Portland cements and they must therefore be stored in separate silos.
In addition, the sea bed is often sandy, with poor consolidation. Thus low density cement slurries must be used, with a density generally in the range 11 pounds per gallon (ppg) to 13 ppg, (i.e., 1.32 g/cm
3
to 1.56 g/cm
3
). In general, a cement slurry is lightened by increasing the quantity of water and—to avoid the liquid and solid phases separating—by adding compounds such as bentonite or sodium silicate to form gels. While the water/solids weight ratio for an ordinary cement is normally in the range 38% to 46%, that for a slurry of such low density is routinely greater than 50%, or even greater than 60%. Such quantities of water retard the development of compressive strength and thus prolong the Waiting On Cement.
A slurry can also be lightened by adding light materials such as silica dust (French patent FR-A-2 463 104) or hollow ceramic or glass beads (United States patents U.S. Pat. No. 3,804,058; U.S. Pat. No. 3,902,911 or U.S. Pat. No. 4,252,193). Such materials can reduce but not dispense with the quantity of additional water added to the cement slurry to lighten it such that the compressive strength development is less retarded. The quantity of water required remains high and after 24 hours, the compressive strength remains very low, generally not exceeding 600 psi (4136 kPa).
A slurry can also be lightened by injecting gas or air. T. Smith, R. Lukay and J. Delorey, in World Oil, May 1984, proposed the use of such foamed cements to cement conductor pipes in deep water holes. U.S. Pat. No. 5,484,019 also discloses the use, as a base for such foamed cements, of a slurry comprising 1% to 30% of micro-cement. The principal aim of U.S. Pat. No. 5,484,019 is to provide a slurry which is capable of rapidly forming a gel which is sufficiently strong to prevent the ingress of water, not to provide a rapid set slurry, in particular from the point of view of developing compressive strength.
In any comparison with existing systems, it is important to note that the temperature of sea beds depends both on their depth and on their location. Thus while the temperature off the Shetland Isles is no more than 5° C. from a depth of 500 meters, at the same depth off Malaysia it is about 10° C., and 5° C. is only reached at a depth of 1000 meters. Further, the temperature of the cement slurry depends on the temperature of the sea bottom and on the existence of submarine currents. In a warm region of the planet, with few currents, in practice the slurry temperature can be as much as 15° C. even when the sea bed is at 4° C. In contrast, in a cold region subjected to substantial currents, the slurry temperature can be almost identical to the water temperature. In the oil well industry, any operation at a temperature of less than 30° C. is a termed a low temperature application. The present invention is aimed at applications at temperatures which are more particularly in the range 4° C. to 10° C.
The present invention aims to provide novel low density and very low temperature cementing formulations which can develop compressive strength rapidly.
The invention provides cementing compositions with a porosity of less than 50% and with a solid phase constituted by 35% to 65% (by volume) of hollow microspheres, 20% to 45% of Class G Portland cement and 5% to 25% of Class G Portland micro-cement. The term “porosity” means the ratio of the volume of liquid in the slurry to the total slurry volume.
The micro-cement used for the compositions of the invention is an essentially pure micro-cement, i.e., constituted by more than 90% Class G Portland cement. Micro-cements with a maximum particle size in the range 6 &mgr;m to 12 &mgr;m, preferably 8 &mgr;m to 11 &mgr;m, are particularly preferred.
The microspheres used in the invention have low density, preferably less than 0.8. Silico-aluminate or cenospheres, a residue obtained from coal combustion, with an average diameter of the order of 150 &mgr;m, are particularly suitable. Hollow glass beads with an average diameter of 120 &mgr;m to 250 &mgr;m are also suitable.
In general, a dispersing agent is added to the composition as well as a cement-setting accelerator. Known dispersing agents generally have a retarding effect on cement setting which must be compensated for. Other conventional additives can be added, in particular anti-foaming agents, fluid loss control agents or gas migration control agents. The composition of the invention can also comprise a cement-setting accelerator, in particular calcium chloride, in an amount not exceeding 2%, preferably 1.5% (percentage by weight with respect to the weight of the solid cement/micro-cement/micro-sphere mixture); adding calcium chloride has a delete

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