Method and apparatus for analyzing casing wear and retrieval...

Measuring and testing – Borehole or drilling – Fluid flow measuring or fluid analysis

Reexamination Certificate

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Details

C073S061420, C073S061720, C073S152550, C073S152570, C210S222000, C210S695000, C324S204000, C166S265000, C175S046000

Reexamination Certificate

active

06453738

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to an apparatus and method for removing magnetic materials from fluids discharged from a well, and more particularly to an apparatus and method for removing casing fragments from drilling and workover fluids which are circulated in oil and gas wells to ascertain the metal loss from the casing lining the bore of the well. In the drilling of oil and gas wells, drilling fluid, commonly referred to as “mud,” is used for a variety of purposes, including: (1) maintaining hydrostatic pressure on the zones being drilled to maintain control over high pressure zones; (2) removing drill cuttings from the well and the face of the bit; and (3) to assist in drilling by the jetting action of the drilling fluid through the nozzles of the bit. Drilling fluid is commonly circulated down the string of drill pipe, pumped through the nozzles of the bit, and circulated out of the well through the annulus between the drill pipe and the casing and/or open hole. Once the drilling fluid returns to the surface, the fluid is circulated through various pieces of equipment to remove cuttings and solids so that the drilling fluid may be recirculated back into the wellbore.
As a well is drilled, steel casing is commonly inserted and cemented in the well to line those portions of the well already drilled. The casing protects the well from collapse, cave-in, and provides control over pressurized zones. In the course of drilling a well, multiple strings of casing may be inserted into the well, each subsequently installed casing string a smaller diameter than the previously installed casing string. Once a casing string is cemented in place, drilling operations may continue by drilling out through the casing “shoe.” In some cases, such as when the lower portion of a well is lost, or if a well is being redrilled, the casing wall will be intentionally drilled through or milled in order to side-track the well, and drill in a different direction. However, at other times the casing wall is penetrated unintentionally.
It is known that when drilling, and when completion and workover tools are run through or operated inside of the casing, casing damage may occur. Often, the tolerances between the inside diameter of the casing and the outside diameter of the drill bit, drilling assembly, or other tools are tight, causing casing wear or puncture. Casing may also be damaged from continued rotation of the drilling assembly or drill pipe inside the casing, repeated trips of tools, the drilling assembly and drill pipe through the casing, or down hole conditions which result in the drill bit penetrating the wall of the casing rather than drilling through the casing shoe or formation. Because the casing protects the integrity of an oil and gas well, and protects the surrounding environment from releases of hydrocarbons from the well bore, it is important and useful to monitor the condition of the casing strings, particularly during drilling and workover operations.
Various means are known for monitoring casing integrity. Various downhole tools, such as mechanical calipers or electronic evaluation tools may be run through the casing to determine remaining wall thickness or to identify places where the casing wall has been damaged. However, running these tools is expensive, and generally requires removing the drill pipe, drilling assembly and bit from the well. Because of the expense, downhole evaluation tools are generally not run until there is reason to believe the casing may have been damaged, or where it is desirable to acquire a baseline analysis of the casing condition.
It is therefore desirable to have a cost-effective method of monitoring casing wear during drilling operations. One such method is to collect casing fragments contained within the drilling fluid, and weigh and record the weight of the fragments to estimate the total weight of casing loss and compare the amount of loss to the initial weight of the casing. Visual examination of the recovered fragments or more detailed analysis may also provide important information regarding the location or extent of the casing damage. If this method indicates an abnormal degree of metal loss from the casing, downhole tools may be run to determine the location and extent of damage.
Solids and cuttings are generally removed from drilling fluids at the surface by solids control equipment such as shale shakers and hydrocyclones, which dump solids into collection bins. In order to efficiently and accurately recover casing fragments, any device used to recover the fragments must be placed between the point of fluid discharge from the well and the solids control equipment. It is known to place a “ditch magnet” into the drilling fluid system to collect casing fragments from the drilling fluids. The typical ditch magnet is heavy, and requires at least two persons to lower it into the drilling fluid stream. As metal fragments adhere to the ditch magnet, the device becomes even heavier and difficult for personnel to remove. Removal of the metal particles from the ditch magnet is difficult because of the strong magnetic field. Drilling personnel usually run their hands over the surface of the ditch magnet in an effort to strip the magnetic materials from the magnet. This process is slow, laborious, and potentially dangerous to personnel because the metal fragments can be sharp enough to penetrate gloves and clothing. Removal and retrieval of all magnetic particles is therefore difficult, leading to injury and mistakes in determining the actual amount of metal loss from the casing. There is a need for an apparatus for inexpensive removal of casing fragments from drilling fluids without the disadvantages of the known devices.
SUMMARY OF THE INVENTION
The present invention is directed to a method and apparatus for removing casing fragments from drilling and workover fluids circulated in oil and gas wells which meets the need identified above.
The disclosed apparatus is a shrouded magnet for retrieving metal fragments from oil and gas well fluids comprising three basic components, a container composed of non-magnetic material, a source of magnetic field disposed within the container, and a cap for sealing the container. The container has an opening, an outer surface, an inner peripheral surface and a base opposite the opening. The magnetic source is disposed within the container adjacent to the inner peripheral surface so that a magnetic field exists at the outer surface. Flow vanes may be attached to the outer surface; a handle may be attached to the cap; and an extension may be attached to the base to increase the stability of the device as it stands in the fluid stream.
An alternative embodiment of the device includes a plurality of magnets disposed within the container. The plurality of magnets may be assembled in three groups comprising a top group, a middle group and a bottom group in relative sequence from the opening of the container to the base, each group comprising a plurality of magnets in facing relation, the plurality of magnets in each group having the same magnetic pole orientation. Each group may be separated from the adjacent group with a non-magnetic spacer. The polarity of each group may be adjusted to increase the effectiveness of the device, such as orienting the north magnetic pole of the top group to face the cap and the south pole of the top group to face the base, orienting the south magnetic pole of the middle group to face the cap and the north pole to face the base, and orienting the north pole of the bottom group to face the cap and the south pole oriented face the base.
In another embodiment of the device, each magnet has a bore such that the bores of adjacent magnets are aligned along the vertical axis of the container and the magnets are disposed within the container adjacent to the inner peripheral surface so that a magnetic field exists at the outer surface. In this embodiment, a retention rod, having a top and a bottom, is inserted through the bore of each magnet and the bottom of the rod received

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