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Oil wells additives

Unfortunately there is no universal elastomer that will handle all potential environments and the range of proprietary oil well additives is large. Furthermore, working practices in oil wells differ. [Pg.174]

EFFECT OF OIL WELL ADDITIVES ON ELASTOMERS (tHREE DAYS AT 150°C)... [Pg.176]

The foregoing data allow us to make some reasonable conclusions and recommendations concerning elastomer compatibility with oil well additives. These are presented in Table 12. [Pg.180]

Oil well additive, wax crystalliza- Methyl vinyl United States 3,879,177 1975 Mobil Oil... [Pg.643]

Oil well additives Methyl vinyl United States 4,169,818 1979 Celanese... [Pg.647]

Nitrile mbber finds broad application in industry because of its excellent resistance to oil and chemicals, its good flexibility at low temperatures, high abrasion and heat resistance (up to 120°C), and good mechanical properties. Nitrile mbber consists of butadiene—acrylonitrile copolymers with an acrylonitrile content ranging from 15 to 45% (see Elastomers, SYNTHETIC, NITRILE RUBBER). In addition to the traditional applications of nitrile mbber for hoses, gaskets, seals, and oil well equipment, new applications have emerged with the development of nitrile mbber blends with poly(vinyl chloride) (PVC). These blends combine the chemical resistance and low temperature flexibility characteristics of nitrile mbber with the stability and ozone resistance of PVC. This has greatly expanded the use of nitrile mbber in outdoor applications for hoses, belts, and cable jackets, where ozone resistance is necessary. [Pg.186]

Organophosphoms compounds, primarily phosphonic acids, are used as sequestrants, scale inhibitors, deflocculants, or ion-control agents in oil wells, cooling-tower waters, and boiler-feed waters. Organophosphates are also used as plasticizers and flame retardants in plastics and elastomers, which accounted for 22% of PCl consumed. Phosphites, in conjunction with Hquid mixed metals, such as calcium—zinc and barium—cadmium heat stabilizers, function as antioxidants and stabilizer adjutants. In 1992, such phosphoms-based chemicals amounted to slightly more than 6% of all such plastic additives and represented 8500 t of phosphoms. Because PVC production is expected to increase, the use of phosphoms additive should increase 3% aimually through 1999. [Pg.383]

Oil well cements are manufactured similarly to ordinary Portland cements except that the goal is usually sluggish reactivity. Eor this reason, levels of C A, C S, and alkafl sulfates are kept low. Hydration-retarding additives are also employed. [Pg.294]

Tn the last 30 years of the twentieth century, there were very damaging oil spills from the grounding of tankers filled with crude oil. In addition, there have been many smaller accidents, as well as routine operations, that have resulted in significant amounts of oil being released to the environment. [Pg.1046]

API Standard lOA API Specifications for Oil-Well Cements and Cement Additives, April 1969. [Pg.1381]

The raw materials for the manufacture of soap, the alkali salts of saturated and unsaturated C10-C20 carboxylic acids, are natural fats and fatty oils, especially tallow oil and other animal fats (lard), coconut oil, palm kernel oil, peanut oil, and even olive oil. In addition, the tall oil fatty acids, which are obtained in the kraft pulping process, are used for soap production. A typical formulation of fats for the manufacture of soap contains 80-90% tallow oil and 10-20% coconut oil [2]. For the manufacture of soft soaps, the potassium salts of fatty acids are used, as are linseed oil, soybean oil, and cottonseed oil acids. High-quality soap can only be produced by high-quality fats, independent of the soap being produced by saponification of the natural fat with caustic soda solution or by neutralization of distilled fatty acids, obtained by hydrolysis of fats, with soda or caustic soda solutions. Fatty acids produced by paraffin wax oxidation are of inferior quality due to a high content of unwanted byproducts. Therefore in industrially developed countries these fatty acids are not used for the manufacture of soap. This now seems to be true as well for the developing countries. [Pg.2]

Bisulfite Adduct. A bisulfite addition complex of an aldehyde or dialdehyde has been proposed for use as an antimicrobial agent [1858,1859]. The complex is less toxic than free glutaraldehyde. In oil wells, its digestion by the sulfate-reducing bacteria releases the free dialdehyde that controls the bacteria. In these ways, a more economic and environmentally safer use of antimicrobial additives is likely. [Pg.73]

Lignin amines with high nitrogen content are water soluble at both alkaline and acidic pH values. The lignin amines have various useful properties. For example, they are active as flocculants, filtration aids, scale inhibitors, fluid loss additives, oil well cement additives, and corrosion inhibitors among other potential uses. The nitrogen is introduced into the lignins with the Mannich reaction [1570]. [Pg.94]

Amine sulfide terminal moieties can be imparted into vinyl polymers by using aminethiols as chain transfer agents in aqueous radical polymerization [1182]. The polymers are useful as mineral dispersants. Other uses are as water-treatment additives for boiler waters, cooling towers, reverse osmosis applications, and geothermal processes and oil wells and as detergent additives... [Pg.313]

S. C. Crema, C. H. Kucera, G. Konrad, and H. Hartmann. Fluid loss control additives for oil well cementing compositions. Patent US 5025040, 1991. [Pg.375]

D. Dino and J. Thompson. Organophilic clay additives and oil well drilling fluids with less temperature dependent rheological properties containing said additives. Patent EP 1138740A, 2001. [Pg.380]

V. S. Ekshibarov and T. R. Khasanov. Oil well casing cement— containing 20 to 60 weight per cent of lightweight additive by-product from hydraulic washing of brown coal. Patent SU 1731939-A, 1992. [Pg.384]

S. Gopalkirshnan and M. Roznowski. Additive composition for oil well cementing formulations. Patent US 5258072, 1993. [Pg.397]

Corrosion of steel during oil well acidizing or acid pickling treatments can be controlled effectively and economically with organic corrosion inhibitors. These additives interact with the steel surface to form an adherent barrier, the nature of which depends on the additives physicochemical properties. Work to date has established that acetylenic alcohols chemisorb and subsequently polymerize on steel surfaces (1-5"). a,/MJnsaturated aldehydes and a-alkenyl-phenones appear to behave in a similar manner (6j7"). The nature of Current address Amoco Production Company, Tulsa, OK... [Pg.635]

Crawford, D.L., Earl, R.B., and Monroe, R.F. "Oil Well Fracturing Fluid Additive," GB Patent... [Pg.666]

Siegele, F.H. "Oil Well Fracturing Wax Emulsion Fluid Loss Additive," US Patent 3,477,512(1969). [Pg.675]

See other pages where Oil wells additives is mentioned: [Pg.174]    [Pg.180]    [Pg.174]    [Pg.180]    [Pg.79]    [Pg.132]    [Pg.180]    [Pg.174]    [Pg.188]    [Pg.240]    [Pg.282]    [Pg.528]    [Pg.418]    [Pg.389]    [Pg.134]    [Pg.149]    [Pg.166]    [Pg.247]    [Pg.284]    [Pg.418]    [Pg.121]    [Pg.107]    [Pg.176]    [Pg.817]    [Pg.28]    [Pg.674]   


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