Wells – Processes – Producing the well
Reexamination Certificate
1999-05-19
2001-04-24
Neuder, William (Department: 3672)
Wells
Processes
Producing the well
C166S068500
Reexamination Certificate
active
06220358
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to a system for pumping fluid from a well. More specifically, this invention relates to a system in which a subsurface pump is driven by axial motion of the tubing through which the fluid is produced.
2. Description of Related Art
Two types of tubing are popular in oil wells: threaded tubing and coiled tubing. Threaded tubing consists of fixed lengths of pipe with threaded ends that allow the threaded tubing to be coupled together to form the tubing string. On the other hand, coiled tubing is a long, continuous pipe which is unwound from a spool as it is fed into the well. While each tubing type has its advantages, coiled tubing is generally regarded as more economical. Also, coiled tubing can be used in smaller diameters than threaded tubing.
A significant portion of the oil and gas produced every year is extracted from shallow, low-volume “stripper” wells. Such wells may employ a pump system configuration such as that shown in FIG.
1
A. In pump system
400
, a wellbore casing
401
extends downward from the surface to various production formations
405
. Casing
401
has perforations
410
in the region of the various production formations
405
that allow fluids from these formations to enter the wellbore. A tubing string
402
is situated within casing
401
and also extends downward from a well-head (not shown) to approximately the level of the production formations
405
. Located at the terminal end of tubing string
402
is a plunger
404
which resides in a pump chamber
406
. The plunger
404
is connected to a solid “sucker rod” string
403
, which is in turn connected to a beam pumping unit
408
at the surface. Beam pumping unit
408
raises and lowers the sucker rod
403
to move the plunger
404
in relation to the pump chamber
406
. The plunger motion, in conjunction with the operation of check valves
407
, causes the transfer of fluids from below the plunger
404
to the annulus between the sucker rod
403
and tubing
402
. Repeated raising and lowering of plunger
404
eventually transfers sufficient fluid to fill tubing
402
and to thereafter force fluid to flow from well at the surface, creating a producing well.
FIG. 1B
shows an enlarged cross-sectional view of the subsurface pump.
The hole that is initially drilled for a well must have a sufficiently large diameter to accommodate at least casing
401
, tubing
402
, and sucker rod
403
, along with any additional clearances required by their couplings. Often additional, larger-diameter casings may also be provided near the surface. Since larger holes require larger drilling equipment, longer drilling times, and higher pipe costs, it is desirable to minimize hole diameters as much as possible without reducing the production rate of the well.
SUMMARY OF THE INVENTION
Accordingly, an improved pumping system is herein disclosed that provides for the elimination of the solid sucker rod, thereby allowing for reduced well diameters and consequently reduced costs. In one embodiment, the pumping system includes a subsurface pump, a tubing string, and a surface pumping unit. The subsurface pump is anchored downhole and driven by repeated upward and downward motion of the tubing string. The subsurface pump pumps fluids to the surface via the tubing string. The upward and downward motion of the tubing string is imparted by any suitable surface pumping unit such as, e.g. a beam pumping unit or a hydraulic pumping unit. This pumping system advantageously provides for a minimal number of strings downhole, requiring at most only (1) casing and (2) the production tubing. Accordingly, the well may be drilled using a very slender hole, thereby allowing for sharply reduced drilling and production costs.
Also disclosed herein is a method for producing fluids from a well. The method includes: (i) attaching a subsurface pump to one end of a reel of continuous tubing; (ii) installing the subsurface pump into a well; (iii) driving the continuous tubing in an up and down axial motion to move a plunger in the subsurface pump accordingly; (iv) transferring fluids from below the plunger to the interior of the continuous tubing; and (v) passing fluids through the continuous tubing to a storage tank above ground. The installation step (ii) includes: (a) unwinding the continuous tubing from the working reel; (b) injecting the continuous tubing into the well; (c) anchoring the subsurface pump near the bottom of the well; and (d) coupling the upper end of the continuous tubing to a pumping unit above ground.
REFERENCES:
patent: 4476923 (1984-10-01), Walling
patent: 4863991 (1989-09-01), Poppe et al.
patent: 5180014 (1993-01-01), Cox
patent: 5511619 (1996-04-01), Jackson
patent: 5667369 (1997-09-01), Cholet
patent: 5692562 (1997-12-01), Squires
patent: 5785500 (1998-07-01), Leniek
patent: 5941311 (1999-08-01), Newton
Use Of Small Diameter Casing Reduces Well Costs, M. H. Stekoll et al., World Oil, Feb. 1, 1959, pp. 70-74.
Conley & Rose & Tayon P.C.
Neuder William
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