Earth boring – well treating – and oil field chemistry – Well treating – Contains organic component
Reexamination Certificate
2001-07-13
2003-06-24
Anthony, Joseph D. (Department: 1714)
Earth boring, well treating, and oil field chemistry
Well treating
Contains organic component
C507S263000, C507S267000, C507S939000, C252S395000, C252S406000, C106S014270, C106S014290, C166S242400, C166S902000, C422S012000, C422S017000, C427S435000
Reexamination Certificate
active
06583091
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a process for inhibiting the high temperature corrosivity of petroleum oils.
BACKGROUND OF THE INVENTION
Whole crudes and crude fractions with acid, including high organic acid content such as those containing carboxylic acids, (e.g., naphthenic acids), are corrosive to the equipment used to distill, extract, transport and process the crudes. Solutions to this problem have included use of corrosion-resistant alloys for equipment, addition of corrosion inhibitors, or neutralization of the organic acids with various bases.
The installation of corrosion-resistant alloys is capital intensive, as alloys such as 304 and 316 stainless steels are several times the cost of carbon steel. The corrosion inhibitors solution is less capital intensive; however, costs can become an issue.
The effectiveness of phosphorus compounds against corrosion was discovered in 1906 (Coslett, British Patent 8,667 for phosphoric acid), and the use of these compounds is known for aqueous systems.
Additionally, organic polysulfides (Babaian-Kibala, U.S. Pat. No. 5,552,085), organic phosphites (Zetlmeisl, U.S. Pat. No. 4,941,994), and phosphate/phosphite esters (Babaian-Kibala, U.S. Pat. No. 5,630,964) have been to be effective in a hydrocarbon-rich phase against naphthenic acid corrosion. However, high oil solubility incurs the risk of distillate sidestream contamination by phosphorus. Furthermore, there is also concern for potential downstream impact of phosphorus such as the possibility of catalyst poisoning by phosphorus-containing compounds, and concerns for downstream units. These concerns preclude addition of such inhibitors to sidestreams subjected to catalytic processing. Also, since phosphorus can concentrate in the residuum, processing or product options for the latter may become limited.
There remains a continuing need to develop additional options for mitigating the corrosivity of acidic crudes that use phosphorus-free compounds. Applicants' invention addresses these needs.
SUMMARY OF THE INVENTION
An embodiment of the present invention is a method for inhibiting high temperature corrosion of corrosion prone metal surfaces caused by organic, typically naphthenic acids in petroleum streams by providing the metal surface with an effective corrosion-inhibiting amount of 4-sulfophthalic acid.
Another embodiment of the invention is a method to inhibit the high temperature corrosivity of an organic acid-containing petroleum stream or oil by providing a corrosion prone metal-containing surface to be exposed to the acid-containing petroleum stream with an effective, corrosion-inhibiting amount of 4-sulfophthalic acid at a temperature and under conditions sufficient to inhibit corrosion of the metal surface. The providing of the 4-sulfophthalic acid may be carried out in the presence of an acid containing petroleum stream and/or as a pretreatment of the corrosion prone metal surface before exposure to the organic acid-containing petroleum stream. Corrosion prone metal surfaces include iron and iron-containing metals such as iron alloys.
Another embodiment includes the products produced by the processes herein.
The present invention may suitably comprise, consist or consist essentially of the elements or steps disclosed and may be practiced in the absence of an element or step not disclosed.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Some petroleum streams, contain acids, including organic acids such as naphthenic acids that contribute to high temperature corrosion of internal surfaces of refinery equipment. Organic acids generally fall within the category of naphthenic and other organic acids. Naphthenic acid is a generic term used to identify a mixture of organic carboxylic acids present in petroleum stocks. Naphthenic acids may be present either alone or in combination with other organic acids, such as phenols. Naphthenic acids alone or in combination with other organic acids can cause corrosion at high temperatures in non-aqueous or essentially non-aqueous (hydrocarbon) environments, i.e. at temperatures ranging from about 200° C. (392° F.) to 420° C. (790° F.). Inorganic acids also may be present. Inhibition of corrosion due to the organic acid content of such petroleum streams, is desirable in order to increase the corrosion resistance, and thus, useful life of internal (i.e., tube-side surfaces of reactors and other equipment having an external or shell side and an internal or tube side) metal surfaces of refinery equipment that are high temperature corrosion prone and are to be exposed to organic acid-containing petroleum streams at process conditions that result in corrosion of such internal surfaces. It is particularly desirable to provide for mitigation options that use phosphorus-free compounds as additives or inhibitors, since phosphorus can affect downstream catalysts and/or product quality. Examples of such equipment include heat exchanger surfaces, pipestill vessels, transfer lines and piping, and pumps. Examples of metal surfaces that may benefit from treatment are ferrous metals such as carbon steel and iron alloys.
The petroleum streams that can be treated herein are any organic acid-containing petroleum streams, including whole crudes and crude oil fractions. As used herein, the term whole crudes means unrefined, non-distilled crudes.
The 4-sulfophthalic acid is introduced in either a batch or continuous process to untreated (unadditized) petroleum oil. Additionally, or separately, the metal surface may also be preconditioned by adding to a low acidity petroleum feed an amount of 4-sulfophthalic acid effective to inhibit corrosion in the organic acid-containing petroleum oil to be treated before combination with the petroleum stream containing organic acids and blending them by techniques known in the industry. Additional effective amounts may be introduced into the organic acid-containing petroleum stream itself as needed to maintain corrosion inhibition. Desirably, a continuous dosing of 4-sulfophthalic acid to achieve and maintain the effective level of corrosion inhibition is delivered. Typically, a reduction corresponding to at least a fifty (50) percent corrosion rate reduction can be achieved. Thus, the additive/inhibitor acid may be introduced to the hydrocarbon-rich environment or phase and/or to the metal surface itself.
The 4-sulfophthalic acid is added in effective amounts, typically up to a total of 1000 wppm, more typically an effective amount of from about 10-100 wppm.
The effectiveness of corrosion inhibition is typically estimated in the laboratory by weight loss of metal coupons exposed to organic acids with and without 4-sulfophthalic acid present. The relative decrease in metal weight loss due to the presence of the corrosion inhibitor is a measure of the effectiveness of corrosion inhibition.
Naphthenic acid concentration in crude oil is determined by titration of the oil with KOH, until all acids have been neutralized. The concentration is reported in Total Acid Number (TAN) unit, i.e. mg of KOH needed to neutralize 1 gram of oil. It may be determined by titration according to ASTM D-664. Any acidic petroleum oil may be treated according to the present invention, for example, oils having an acid neutralization of about 0.5 mg. KOH/g. or greater.
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Knutsson, Trans. Inst. Met. Finish (1976) 54, Part 1,
Blum Saul Charles
Dalrymple David Craig
Monette Liza Marie
Sartori Guido
Vogel Andreas
Anthony Joseph D.
ExxonMobil Research and Engineering Company
Scuorzo Linda M.
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