Wells – Processes – Separate steps of fracturing or attacking formation
Reexamination Certificate
2000-03-03
2002-04-09
Schoeppel, Roger (Department: 3672)
Wells
Processes
Separate steps of fracturing or attacking formation
C166S306000, C166S307000, C166S050000
Reexamination Certificate
active
06367548
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to methods and compositions for treating wells, and, more specifically to methods and compositions for stimulating multiple intervals in wells. In particular, this invention relates to methods and compositions for diverting well treatment fluids into multiple intervals by alternately displacing diverting agent from the annulus into a subterranean formation and displacing treatment fluid from a tubing string into the subterranean formation.
2. Description of Related Art
Well treatments, such as acid and fracture treatments of subterranean formations are routinely used to improve or stimulate the recovery of hydrocarbons. In many cases, a subterranean formation may include two or more intervals having varying permeability and/or injectivity. Some intervals may possess relatively low injectivity, or ability to accept injected fluids, due to relatively low permeability, high in-situ stress, and/or formation damage. Such intervals may be completed through preparations in a cased wellbore and/or may be completed open hole. In some cases, such formation intervals may be present in a highly deviated or horizontal section of a wellbore, for example, a lateral open hole section. In any case, when treating multiple intervals having variable injectivity it is often the case that most, if not all, of the introduced well treatment fluid will be displaced into one, or only a few, of the intervals having the highest injectivity.
In an effort to more evenly distribute displaced well treatment fluids into each of the multiple intervals being treated, methods and materials for diverting treatment fluids into intervals of lower permeability and/or injectivity have been developed. However, conventional diversion techniques may be costly and/or may achieve only limited success. In this regard, mechanical diversion techniques are typically complicated and costly. Furthermore, mechanical diversion methods are typically limited to cased hole environments and depend upon adequate cement and tool isolation for achieving diversion.
Alternatively, diversion agents such as polymers, suspended solid materials and/or foam have been employed when simultaneously treating multiple intervals of variable injectivity. Such diversion agents are typically pumped into a subterranean formation prior to a well treatment fluid in order to seal off intervals of higher permeability and divert the well treatment fluid to intervals of lower permeability. However, the diverting action of such diversion agents is often difficult to predict and monitor, and may not be successful in diverting treatment fluid into all desired intervals. These problems may be further aggravated in open hole completions, especially in highly deviated completions having large areas of a formation open to the wellbore. The presence of natural fractures may also make diversion more difficult.
SUMMARY OF THE INVENTION
Compositions and methods are provided for diverting well treatment fluids into multiple intervals of a subterranean formation having varying permeability and/or injectivity. The disclosed methods and compositions are suitable for use in vertical and horizontal wellbores, as well as for treating cased or open-hole completions in production or injection wells. Surprisingly, superior diversion of well treatment fluids into multiple intervals may be performed and monitored by utilizing both the tubing string and tubing/wellbore annulus as dual treating strings in combination with focused tubing placement during introduction of the treatment fluid.
Advantageously, by spotting a volume of diverting agent in the tubing/wellbore annulus across a desired treatment area of subterranean formation, the diversion agent may be squeezed or displaced into the desired treatment area of the subterranean formation prior to introduction of the treatment fluid through the tubing. Utilizing annular displacement of diversion agent into the formation in combination with displacement of well treatment fluid down the tubing allows focused placement of the treatment fluid by placing and repositioning the tubing in the wellbore, while at the same time monitoring the treating pressure to determine effectiveness of diversion. Advantageously, this allows real time modification of treating procedure in order to match the treatment to the response of the formation.
Further advantageously, maintaining a volume of diversion agent in the annulus above and adjacent to the formation being treated allows displacement of additional diversion agent into the formation when needed and almost instantaneously, without requiring displacement of a tubing volume of fluid.
In one embodiment, several intervals in the open hole section may be treated with the preferred acid formulation without communicating or interfering with other intervals. This procedure is designed to take advantage of dual treating strings, tubing placement, existing near wellbore blockage and a diverting agent, such as an oil soluble diverter system, to create a preferred flow path for a treatment such as an acid stimulation treatment. Examples of suitable diverting agents include, but are not to, those agents found in U.S. Pat. No. 2,803,306, which is incorporated herein by reference in its entirety. A static annular column facilitates real time analysis of down hole pressures. Confining the acid stimulation to a short interval tends to allow greater control of fracture dimensions or matrix penetration.
By combining the introduction of diversion agent stages from the annulus with well treatment fluid stages from the tubing, significant improvements in diversion may be obtained. In one embodiment, by starting a treatment with a tubing string positioned at the lowermost interval to be treated and by pulling the tubing string up the hole successively following diversion and treatment of multiple intervals, the probability of stimulating the most promising or desired intervals of a subterranean formation may be increased. Diverting agent suspended in, for example, a weighted brine is pumped down the annulus with acid pumped down the tubing or drill pipe. The end of tubing is first located at or below the identified stimulation candidate closest to the toe of the well. Diverting agent is pumped to plug leak off zones, natural and created fractures, etc. Treatment fluid such as acid is then pumped at a low rate to create a preferred flow path (or path of least resistance) by etching and worm-holing the formation of the target interval at the end of tubing. This preferred flow path is for the following treatment fluid that will typically be pumped at higher rates and pressures, possibly frac pressures if so desired. The rate is then increased and the fracture or matrix stimulation initiated following etching and worm-holing of the formation face. Tubing is then moved uphole to the next identified interval and the process repeated as many times as needed.
In one disclosed embodiment individual intervals of a subterranean formation may be stimulated with a treatment fluid (including, but not limited to, acid, gelled oil and water systems, solvent, surfactant systems, proppant-laden fluid systems, etc.) while greatly minimizing or eliminating communication and/or interference with other intervals. By utilizing the dual treating string combination of the annular space and tubing, and by focusing placement of the tubing in relation to the desired treating intervals, existing wellbore blockage and a neutrally buoyant diverter system may be employed to create a preferred flow path for the treatment fluid. Advantageously, maintaining a static annular column enables real time analysis of down hole pressures. Furthermore, confining a stimulation to a short interval allows greater control of fracture dimensions or matrix penetration, depending on the type of treatment performed. The disclosed method is particularly advantageous in stimulating high-angle or horizontal wellbores, such as the performance of acid stimulations on oil producing reser
Cramer David D.
Purvis Donald L.
Smith David D.
Walton Douglas L.
BJ Services Company
O'Keefe, Egan & Peterman
Schoeppel Roger
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