Chemical apparatus and process disinfecting – deodorizing – preser – Process disinfecting – preserving – deodorizing – or sterilizing – Maintaining environment nondestructive to metal
Reexamination Certificate
1999-08-09
2003-05-06
McKane, Elizabeth (Department: 1744)
Chemical apparatus and process disinfecting, deodorizing, preser
Process disinfecting, preserving, deodorizing, or sterilizing
Maintaining environment nondestructive to metal
C252S181000, C252S389200, C252S389210
Reexamination Certificate
active
06558619
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to phosphorus-containing corrosion inhibitors which are both effective to prevent corrosion by drilling system fluids and which do not adversely affect rheology and stability of the fluids.
BACKGROUND OF THE INVENTION
Two predominant methods are used to drill gas, oil, and subterranean exploration holes in the earth's surface using a rotating bit that grinds away at the subterranean formations. In a first method, a liquid or a mud slurry is used as a vehicle to bring the cuttings from these subterranean formations to the surface and out of the path of the rotating bit. The rotating bit is forced downward by the weight of a drilling pipe. A drilling apparatus is placed over the drilling location; a hole is drilled to a depth; and, a casing of steel is cemented into position to serve as a conduit for lowering the rotating bit and drilling pipe. Various safety devices are attached to the cement casing to direct the flow of any gas, oil, or water encountered during drilling away from the drilling rig.
A second method is “mist” or air drilling, which is described in U.S. Pat. No. 3,130,798, incorporated herein by reference. In “mist” or “air” drilling, air is blown down the hollow drilling tube where the air exits through the drill bit, blowing away the cuttings produced by the drilling. During the course of air drilling, as during any type of drilling, subterranean water may be encountered. When this happens, the subterranean water flows up the drilled hole and out a pipe that is attached to steel casing set at the surface of the hole. This pipe, called a “blooey” line, allows the drill cuttings to travel up the drilled vertical hole where they exit at the surface beneath the rotary drilling table and out a horizontally mounted tube. The tube directs the cuttings, formation water, gas, oil, etc., into a pit dug for safety some thirty or forty feet from the drilling apparatus.
Unless the exiting water is gushing sufficiently to flow from the hole, the subterranean water tends to plug the drill bit and stop the normal flow of solids from the hole. Because of this, the water and/or oil is removed from the hole in order to maintain the normal flow of solids from the hole. During intrusions of water and/or oil, a chemical “foaming” agent typically is injected into the hole. If the formation has a tendency to collapse while being drilled, as in the case of shale, a “conditioner” may be added to prevent collapse of the formation. A common conditioner is a KCI solution (3-10%), which retards swelling of the sensitive formation. The air passing through the foaming agent creates a lathery, multifunctional foam in the hole which helps to remove the subterranean water, rock bits, and cuttings during drilling. The use of water and/or a foaming agent is called “mist” drilling-the chips, etc. exit the hole blown from the depth as a “foamy mist.”
Air drilling presents a very corrosive environment for the drilling pipe as it travels up the outside of the tubing with an abundance of air. Although water and air alone are immensely corrosive, the presence of the foaming agent and brine or salts dissolving from the formation as well as the presence of produced gases CO
2
and H
2
S, create an environment that—if left unchecked—may quickly destroy a very expensive drill string of 5-20,000 feet.
Certain phosphorus-containing materials are known to prevent corrosion of the drill string in such an environment. U. S. Pat. No. 4,311,662, incorporated herein by reference, describes phosphorylated oxyalkylated polyols that are very effective as corrosion inhibitors in highly oxygenated systems, such as air drilling systems. These corrosion inhibitors not only inhibit general or overall corrosion but also inhibit localized corrosion of the pitting type.
In order to be useful, a phosphorus-containing inhibitor should be soluble in the fluid, and should not impair properties of the fluid which are important to effective functioning of the fluid. Unfortunately, phosphorus-containing corrosion inhibitors tend to adsorb onto the surface of the drill solids. This has an adverse impact on the rheology and stability of the fluid. Attempts to prevent adsorption of the phosphorus-containing inhibitors onto the drill solids have led to a reduction in corrosion inhibition properties.
Phosphorus-containing corrosion inhibitors are needed which are both effective as corrosion inhibitors and which do not adversely impact the properties of the drilling fluid
SUMMARY OF THE INVENTION
The present invention provides a corrosion inhibitor comprising a quantity of a phosphorylated oxyalkylated polyol at a pH of 5.0 or higher the quantity being effective to produce a first level of corrosion loss from ferrous alloys in contact with an oxygenated corrosive system under given conditions. The corrosion inhibitor also comprises an amount of a passivating agent which is effective to decrease the level of corrosion loss from the ferrous alloys in contact with the oxygenated corrosive system under the given conditions to a second, reduced level of corrosion loss.
DETAILED DESCRIPTION OF THE INVENTION
The present invention provides phosphorus-containing corrosion inhibitors, preferably phosphorylated oxyalkylated polyols, which contain a passivating agent which both enhances the effectiveness of the polyols as corrosion inhibitors, and which does not adversely impact the properties of the drilling fluids in which the inhibitors are used. In a preferred embodiment, the corrosion inhibitor also contains an organophosphate, which further enhances corrosion inhibition.
The phosphorylated oxyalkylated polyols of a preferred embodiment of the invention (described in U.S. Pat. No. 4,311,662, incorporated herein by reference) have the following general structure:
R[O(AO)
n
H]
x
wherein R is an organic moeity, preferably a hydrocarbon moiety, most preferably an alkyl group having from about 2 to about 6 carbon atoms, AO is an oxyalkylene moiety derived from an alkylene oxide, wherein the alkylene preferably has from about 2 to about 6 carbon atoms, n is the number of oxyalkylene units, and x represents the total number of units containing OH groups. Suitable oxyalkylene moieties (AO) include but are not necessarily limited to ethylene oxide, propylene oxide, butylene oxide, etc., and mixtures or block units thereof Preferred polyols include, but are not necessarily limited to glycerol, polyglycerol, trimethanolethane, pentaerythritol, dipentaerithrytol, etc., mannitol, 1, 2, 3 hexanetriol, and similar plyols.
A number of processes are known in the art for preparing phosphorylated polyols. A preferred process is to react a polyphosphoric acid with a polyol. The polyphosphoric acid has a P
2
O
5
(phosphorus pentoxide) content of at least about 72%, preferably from about 82% to about 84%. A residue of orthophosphoric acid and polyphosphoric acid remains on completion of the reaction. This residue may be as high as about 25% to about 40% of the total weight of the phosphorylated polyol. The residue either may be removed or left mixed with the phosphorylated polyol. Preferably the phosphorylated polyols are prepared employing amounts of a polyphosphoric acid having about 0.5 to about 1 molar equivalents of P
2
O
5
for each equivalent of the polyol used. Larger amounts of polyphosphoric acid can be used, if desired.
By “equivalent of the polyol” is meant the hydroxyl equivalents of the polyol. For example, one mole of glycerol is three “equivalents” of the polyol, one mole of pentaerythritol is four “equivalents” of the polyol, and so forth. The phosphorylated polyols (acid esters) can be partially or completely converted to their corresponding alkali metal salts or ammonium salts by reacting with appropriate basic material.
The compositions are polyfunctional acid phosphate esters of polyhydric alcohols, said esters having the formula R(OPO
3
H
2
)
x
wherein R is the hydrocarbyl group of a polyhydric alcohol (i.e., R is any remaining organic residue of a polyhydric alcohol used as th
Martin Rich Lloyd
Poelker David J.
Walker Michael L.
Baker Hughes Incorporated
Madan Mossman & Sriram P.C.
McKane Elizabeth
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