Calcium tolerant deflocculant for drilling fluids

Abstract

A high calcium containing drilling fluid having a 0.1-10 pounds per barrel of a deflocculant which is a water-soluble acrylic polymer which contains from 5-50 mole percent of one or more of the following:Sulfoethyl acrylamide; orAcrylamide and Sulfoethyl acrylamide; orEthyl acrylate and Sulfoethyl acrylamide; orAcrylamide and Sulfophenyl acrylamide; orAcrylamide and Sulfomethyl acrylamide.

Description

INTRODUCTION

The invention relates to a method of preventing the flocculation of drilling fluids which contain high amounts of calcium.

In the drilling of oil wells and other deep weels by rotary drilling processes, it is now the practice to recirculate an aqueous fluid called "drilling mud" down through the hollow drill pipe, acrossthe face of the drill bit, and upward through the drill hole. The drilling mud serves to cool and lubricate the drill bit, to raise the drilling cuttings to the surface of the ground, and to seal the sides of the well to prevent loss of water and drilling fluids into the formation through which the drill hole is being bored. After each passage through the well, the mud is passed through a settling tank or trough wherein the sand and drill cuttings are separated, with or without screening. The fluid is then again pumped into the drill pipe by a mud pump.

In the formulation of drilling fluids, it is common to add a material known as a deflocculant. These deflocculants are usually materials capable of neutralizing positive edge charges of clay particles. Interparticle attractions due to positive edge charges are considered to be the cause of the flocculation of the active components of the fluid.

Common deflocculants used to treat drilling fluids are low molecular weight polyacrylic acids. These polymers are good as deflocculants when the amount of calcium in the drilling flid is relatively low. When the amount of calcium exceeds 100 ppm, polyacrylic acid or other deflocculants such as sodium acid pyrophosphate (SAPP) are not too successful in preventing flocculation.

The invention, therefore, is directed to a method of preventing the flocculation of drilling fluids which contain high amounts of calcium, e.g. greater than 100 ppm.

THE INVENTION

The invention comprises an improved high calcium containing drilling fluid which contains a major portion of drilling fluid and a deflocculating amount of a water-soluble copolymer or terpolymer of acrylic acid which contains from 5-50 mole percent of:

Sulfoethyl acrylamide; or Acrylamide and Sulfoethyl acrylamide; or Ethyl acrylate and Sulfoethyl acrylamide; or Acrylamide and Sulfophenyl acrylamide; or Acrylamide and Sulfomethyl acrylamide, or a mixture thereof. In a preferred embodiment of the invention, the copolymer or terpolymer of acrylic acid contains from 5-20 mole percent of one of the above.

Generally, 0.1-2 pounds of polymer per barrel of drilling fluid is sufficient to prevent flocculation of the additives in the drilling fluid, although 0.1-10 pounds per barrel may be needed. The amount of polymer needed is generally related to the solids content of the drilling fluid, so that increases in the solids content of the drilling fluid generally increase the polymer requirements. The dosage may also be regulated so as to provide between 0.1--up to about 2 ppm of polymer per each part of calcium present in the fluid.

The molecular weight of the polymers can vary between as little as 1000 up to as much as 50,000. A preferred molecular weight range is about 4,000 to 20,000.

The polymers of the invention are useful in preventing flocculation of a variety of drilling fluids. These include:

(1) lime muds; (2) gypsum muds of "gyp muds"; (3) sea water muds; (4) fresh water muds contaminated with cement or other sources of soluble calcium.

The following table lists polymers actually used by sample number, composition, percent actives and weight average molecular weight:

______________________________________SAM- %**PLE AC-NO. POLYMER COMPOSITION TIVES MW*______________________________________1 Acrylic Acid/Acrylamide/ 31.9 4,530 Sulfoethylacrylamide2 Acrylic Acid/Acrylamide/ 31.9 10,600 Sulfoethylacrylamide3 Acrylic Acid/Acrylamide/ 31.9 15,700 Sulfoethylacrylamide4 Acrylic Acid/Acrylamide/ 35.8 25,000 Sulfomethylacrylamide5 Acrylic Acid/Acrylamide/ 30.3 4,500 Sulfomethylacrylamide6 Acrylic Acid/Acrylamide/ 35.8 18,900 Sulfomethylacrylamide7 Acrylic acid/Sulfoethyl acrylamide 17.8 30,9008 Acrylic acid/Acrylamide/Sulfoethyl 30.8 14,000 Acrylamide9 Acrylic acid/Ethyl acrylate/ 26.4 3,680 Sulfoethyl acrylamide10 Acrylic acid/Acrylamide/Sulfophenyl 24.3 11,500 Acrylamide11 Acrylic acid/Acrylamide/Sulfomethyl 24.2 16,400 Acrylamide12 Acrylic acid/Acrylamide/Sulfomethyl 35.5 10,300 Acrylamide13 Acrylic acid/Acrylamide/Sulfomethyl 26.7 2,900 Acrylamide______________________________________ *Weight average molecular weight determined via GPC using polystyrene sulfonate standard. **% Actives as the acid

EXAMPLE 1

To illustrate the invention, the following is presented by way of example:

A representative mud system was used for testing these polymers. The composition of the base fluid of Example I was as follows:

300 pounds per barrel (ppb) tap water 20 ppb bentonite clay 30 ppb Kaolinite 276 ppb barite (weighting agent) pH 10 with sodium hydroxide 1.25 ppb gypsum

The compositions of all the examples were prepared in a standard 350 milliliter laboratory barrel. The examples provided were actually performed on a laboratory scale. All compositions specified are presented on the basis of a real barrel (42 gallons). The calculations were made assuming 1 gram per milliliter of water, 1 ppb=1 gram per 350 milliliter in a laboratory barrel.

Initial Rheology--Before Aging

The base fluids of each of the examples was dosed with sample polymer to provide the number of pounds of sample per barrel of drilling fluid indicated in the Tables. With no aging, the following results were obtained with the base fluid of Example I:

______________________________________ Conc 10 Sec. 10 Min.Sample No. (lb/bbl) YP Gel- Gel______________________________________11 .25 18 16 20(Acrylic acid/Acrylamide/Sulfomethyl Acrylamide)11 .5 16 15 35(Acryllc acid/AcrylamideSulfomethyl Acrylamide)13 .25 22 18 22(Acrylic acid/AcrylamideSulfomethyl Acrylamide)13 .5 18 12 40(Acrylic acid/AcrylamideSulfomethyl Acrylamide)12 .25 18 13 40(Acrylic acid/AcrylamideSulfomethyl Acrylamide)12 .5 11 5 16(Acrylic acid/AcrylamideSulfomethyl Acrylamide)______________________________________ *YP = Yield Point. An effective deflocculant reduces the numerical value of the YP. Yield point, 10 second gel and 10 minute gel tests were determined according to the American Petroleum Institute document, API RP 13B, Section 2.

EXAMPLE 2

The composition of the base fluid of Example 1 was aged at 250.degree. F. for sixteen hours. The following results were obtained:

______________________________________ Conc 10 Sec. 10 Min.Sample No. (lb/bbl) YP Gel Gel______________________________________11 .25 15 24 45(Acrylic acid/Acrylamide/Sulfomethyl Acrylamide)11 .5 13 18 60(Acrylic acid/AcrylamideSulfomethyl Acrylamide)13 .25 18 22 60Acrylic acid/AcrylamideSulfomethyl Acrylamide13 .5 18 16 65(Acrylic acid/AcrylamideSulfomethyl Acrylamide)12 .25 14 20 70(Acrylic acid/AcrylamideSulfomethyl Acrylamide)12 .5 9 4 30(Acrylic acid/AcrylamideSulfomethyl Acrylamide)______________________________________ *YP = Yield Point. An effective deflocculant reduces the numerical value of the YP. Yield point, 10 second gel and 10 minute gel tests were determined according to the American Petroleum Institute document, API RP 13B, Section 2.

EXAMPLE 3

The following mud system was used for testing these polymers. The composition of the base fluid was as follows:

299 pounds per barrel (ppb) tap water 20 ppb bentonite clay 30 ppb Kaolinite 276 ppb barite (weighting agent) pH 10 with sodium hydroxide 1.25 ppb gysum After aging at 250.degree. F. for 16 hours, the following results were obtained: ______________________________________ Conc 10 Sec. 10 Min.Sample No. YP lb/bbl Gel Gel______________________________________7 27 0.2 13 56(Acrylic acid/Sulfoethylacrylamide)8 21 0.2 14 42(Acrylic acid/acrylamide/Sulfoethyl acrylamide)9 21 0.2 13 41(Acrylic acid/Ethyl acrylate/Sulfoethyl acrylamide)10 25 0.2 14 45(Acrylic acid/Acrylamide/Sulfophenyl acrylamide)______________________________________ *YP = Yield Point. An effective deflocculant reduces the numerical value of the YP. Yield point, 10 second gel and 10 minute gel tests were determined according to the American Petroleum Institute document, API RP 13B, Section 2.

EXAMPLE 4

In this example, the composition of the base fluid was as follows:

299 pounds per barrel (ppb) tap water 20 ppb bentonite clay 30 ppb Kaolinite 276 ppb barite (weighting agent) pH 10 with sodium hydroxide 1.5 ppb gypsum Without aging, the following results were obtained:

Initial Rheology--No Aging

______________________________________ Conc 10 Sec. 10 Min.Sample No. (lb/bbl) YP Gel Gel______________________________________Blank 76 60 801 0.5 28 33 76(Acrylic Acid/AcrylamideSulfoethylacrylamide)2 0.5 22 27 100(Acrylic Acid/Acrylamide/Sulfoethylacrylamide)3 0.5 22 22 93(Acrylic Acid/AcrylamideSulfoethylacrylamide)4 0.5 24 25 86(Acrylic Acid/Acrylamide/Sulfomethylacrylamide)5 0.5 36 40 53Acrylic Acid/Acrylamide/Sulfomethylacrylamide)6 0.5 16 15 70(Acrylic Acid/Acrylamide/Sulfomethylacrylamide)______________________________________ *YP = Yield Point. An effective deflocculant reduces the numerical value of the YP. Yield point, 10 second gel and 10 minute gel tests were determined according to the American Petroleum Institute document, API RP 13B, Section 2.

Aged at 150.degree. F. Overnight

______________________________________ Conc 10 Sec. 10 Min.Sample No. (lb/bbl) YP Gel Gel______________________________________Blank 265 172 2201 0.5 79 68 96(Acrylic Acid/AcrylamideSulfoethylacrylamide)2 0.5 61 58 110(Acrylic Acid/Acrylamide/Sulfoethylacrylamide)3 0.5 36 50 100(Acrylic Acid/Acrylamide/Sulfoethylacrylamide)4 0.5 59 63 132(Acrylic Acid/Acrylamide/Sulfomethylacrylamide)5 0.5 135 125 205(Acrylic Acid/Acrylamide/Sulfomethylacrylamide6 0.5 42 45 70(Acrylic Acid/Acrylamide/Sulfomethylacrylamide)______________________________________ *YP = Yield Point. An effective deflocculant reduces the numerical value of the YP. Yield point, 10 second gel and 10 minute gel tests were determined according to the American Petroleum Institute document, API RP 13B, Section 2.

Claims

1. An improved high calcium containing aqueous drilling fluid containing clay particles and from 0.1-10 pounds per barrel of an acrylic acid/acrylamide/sulfophenyl acrylamide deflocculant terpolymer which has a molecular weight within the range of from 1,000 to 50,000, wherein the acrylamide and sulfophenyl acrylamide components are present in a total amount of 5-50 mole percent.

2. The drilling fluid of claim 1 wherein the terpolymer has a molecular weight within the range of 4,000 to 20,000.