Wells – Processes – Cementing – plugging or consolidating
Reexamination Certificate
2000-10-25
2002-04-09
Suchfield, George (Department: 3672)
Wells
Processes
Cementing, plugging or consolidating
C166S309000, C106S646000, C106S677000, C507S202000
Reexamination Certificate
active
06367550
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to foamed well cement slurries, additives for foaming the cement slurries and methods of using the slurries.
2. Description of the Prior Art
Hydraulic cement slurries are commonly utilized in subterranean well completion and remedial operations. For example, hydraulic cement slurries are used in primary cementing operations whereby strings of pipe such as casings and liners are cemented in well bores. In performing primary cementing, a hydraulic cement slurry is pumped into the annular space between the walls of a well bore and the exterior surfaces of a pipe string disposed therein. The cement slurry is permitted to set in the annular space thereby forming an annular sheath of hardened substantially impermeable cement therein. The cement sheath physically supports and positions the pipe in the well bore and bonds the exterior surfaces of the pipe to the walls of the well bore whereby the undesirable migration of fluids between zones or formations penetrated by the well bore is prevented.
In carrying out primary cementing as well as remedial cementing operations in well bores, the cement slurries utilized must often be light weight to prevent excessive hydrostatic pressure from being exerted on subterranean formations penetrated by the well bore. As a result, a variety of light weight cement slurries have heretofore been developed and used including foamed cement slurries.
In addition to being light weight, a foamed cement slurry contains compressed gas which improves the ability of the slurry to maintain pressure and prevent the flow of formation fluids into and through the slurry during its transition time, i.e., the time during which the cement slurry changes from a true fluid to a hard set mass. Foamed cement slurries are also advantageous because they have low fluid loss properties.
While foamed cement slurries have included various surfactants known as foaming and foam stabilizing agents or additives for facilitating the foaming and stabilizing of cement slurries when a gas is mixed therewith, the heretofore used foaming and stabilizing additives have not met complete environmental requirements. That is, when the foaming and stabilizing additives find their way into water in the environment, they do not fully degrade which can result in interference with aquatic life cycles.
Thus, there are needs for improved foamed well cement slurries, improved cement slurry foaming and stabilizing additives which degrade completely in the environment and are totally harmless thereto and improved methods of utilizing the foamed well cement slurries.
SUMMARY OF THE INVENTION
The present invention provides improved foamed well cement slurries, improved foaming additives for foaming and stabilizing the cement slurries which are totally harmless to the environment and methods of using the improved foamed well cement slurries which meet the needs described above and overcome the deficiencies of the prior art. The improved foamed cement slurries are basically comprised of a hydraulic cement, sufficient water to form a pumpable slurry, sufficient gas to form a foam and an effective amount of an environment harmless additive for foaming and stabilizing the slurry comprised of hydrolyzed keratin.
The cement slurry foaming and stabilizing additive which is harmless to the environment is keratin which has been base hydrolyzed to form a protein powder. The additive is preferably pre-dissolved in water to form an aqueous solution which is added to the cement slurry along with a gas for foaming the slurry.
The methods of the present invention comprise the steps of forming a foamed cement slurry of the present invention comprised of hydraulic cement, sufficient water to form a pumpable slurry, sufficient gas to form a foam and an effective amount of the above described environmentally safe additive for foaming and stabilizing the cement slurry, placing the foamed cement slurry into a subterranean zone by way of a well bore penetrating the zone and then allowing the foamed cement slurry to set into a hard impermeable mass therein.
It is, therefore, a general object of the present invention to provide improved foamed well cement slurries, additives and methods.
Other and further objects, features and advantages of the present invention will be readily apparent to those skilled in the art upon a reading of the description of preferred embodiments which follows.
DESCRIPTION OF PREFERRED EMBODIMENTS
The improved foamed cement slurries of this invention are useful for performing a variety of completion and remedial procedures in subterranean formations. The foamed cement slurries are basically comprised of a hydraulic cement, sufficient water to form a pumpable slurry, sufficient gas to form a foam and an effective amount of the improved foaming additive of this invention for foaming and stabilizing the slurry comprised of hydrolyzed keratin.
A variety of hydraulic cements can be utilized in accordance with the present invention including those comprised of calcium, aluminum, silicon, oxygen and/or sulphur which set and harden by reaction with water. Such hydraulic cements include Portland cements, pozzolana cements, gypsum cements, high aluminum content cements, silica cements, high alkalinity cements and slag cements. The cements can be of conventional particle sizes or they can be of ultra-fine particle sizes. Portland cements are generally preferred for use in accordance with this invention. Portland cements of the types defined and described in
API Specification For Materials And Testing For Well Cements
, API Specification 10, 5
th
Edition, dated Jul. 1, 1990 of the American Petroleum Institute are particularly suitable. Preferred such API Portland cements include classes A, B, C, G and H, with API classes G and H being more preferred and class G being the most preferred.
The water in a foamed cement slurry of this invention can be fresh water or saltwater. The term “saltwater” is used herein to mean unsaturated salt solutions and saturated salt solutions including brines and seawater. The water is present in the cement slurry in an amount sufficient to form a pumpable slurry, generally an amount in the range of from about 38% to about 56% by weight of cement in the slurry.
The gas utilized for forming a foamed cement slurry of this invention can be air or nitrogen, with nitrogen being preferred. The gas is present in an amount sufficient to foam the cement slurry, generally in an amount in the range of from about 10% to about 40% by volume of the cement slurries.
Keratin
1
is the structural protein of epithellal cells in the outermost layers of skin. Hydrolyzed keratin is manufactured by the base hydrolysis of hoof and horn meal. That is, the hoof and horn meal is heated with lime in an autoclave to produce a hydrolyzed protein. The amino acid content, i.e., the number of gram molecules of amino acid per 1000 grams of protein, is as follows: Lysine-6.2; Histidine-19.7; Arginine-56.9; Aspartic Acid
2
-51.5; Threonine-55.9; Serine-79.5; Glutamic acid
2
-99; Proline-58.3; Glycine-78; Alanine-43.8; Half cystine-105; Valine-46.6; Methionine-4; Isoleucine-29; Leucine-59.9; Tryosine-28.7; Phenylalanine-22.4; Hydroxyproline- 12.2; Hydroxylsine-1.2; Total-863; Average residual weight-117. The protein is commercially available as a free flowing powder that contains about 85% protein. The non-protein portion of the powder consists of about 0.58% insoluble material with the remainder being soluble non-protein materials primarily made up of calcium sulfate, magnesium sulfate and potassium sulfate.
The hydrolyzed keratin protein powder is preferably predissolved in fresh water in an amount of about 50% by weight of the solution. In addition to water for dissolving the hydrolyzed keratin, the additive can include other components such as one or more freezing and pour point depressants to prevent it from freezing during storage or handling in cold weather and lower its pour point. Preferably, such depressants are selected from t
Brenneis Chad R.
Chatterji Jiten
Cromwell Roger S.
Gray Dennis W.
King Bobby J.
Dougherty, Jr. C. Clark
Halliburton Energy Service, Inc.
Roddy Craig W.
Suchfield George
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