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Divalent Ion Removal From Monoethylene Glycol-Water Streams

a technology of divalent ions and monoethylene glycol, which is applied in the direction of quarries, waste water treatment, separation processes, etc., can solve the problems of reducing the efficiency of flow through pipelines, failure of downstream treatment processes, and raising the ph does not remove sulfate ions, so as to reduce the amount of process equipment and minimize the formation of scale

Inactive Publication Date: 2020-10-01
CAMERON SOLUTIONS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The patent aims to provide a more efficient way to remove uncharged ions from a MEG-water stream. It also aims to remove both uncharged and sulfate ions from the same treatment process. Additionally, it aims to reduce the formation of scale in pipelines and treatment processes, reduce the need for clean-in-place systems and scale inhibitors, and minimize the time it takes to clean the process equipment.

Problems solved by technology

Scaling may reduce the efficiency of flow through the pipelines and cause the failure of downstream treatment processes.
However, raising the pH does not remove the sulfate ions.

Method used

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  • Divalent Ion Removal From Monoethylene Glycol-Water Streams
  • Divalent Ion Removal From Monoethylene Glycol-Water Streams
  • Divalent Ion Removal From Monoethylene Glycol-Water Streams

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Embodiment Construction

[0034]A system and process made and practiced according to this invention treats MEG-water streams so that the MEG can be re-used in the gas production pipeline system. More particularly, the system and process are designed for the simultaneous removal of divalent cations and sulfate from MEG-water streams through the addition of alkalinity and barium ions. Divalent cations may include, but are not limited to, calcium, magnesium, iron, strontium, and barium. Depending upon the concentration of divalent ions in the MEG-water stream, its pH, and other factors, the alkalinity may be a sodium carbonate solution, a sodium hydroxide solution, a potassium carbonate solution, a potassium hydroxide solution, or a combination of the above.

[0035]Referring to FIG. 1, a system for removing divalent ions from a MEG-water stream includes a chemical treatment tank 5 to receive the incoming MEG-water stream 10, which contains calcium, magnesium, and sulfate ions. The chemical treatment tank 5 also r...

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Abstract

A system and process for the removal of divalent ions from a MEG-water stream are presented. The system includes a chemical treatment tank that receives the MEG-water stream, means for precipitating the calcium, magnesium, and hydroxide ions that are contained in the MEG-water stream, means for discharging the MEG-water stream from the chemical treatment tank, and means for recycling the discharged MEG-water stream back to the chemical treatment tank or routing it to a solids removal system. The means for precipitating the calcium, magnesium, and sulfate ions may be employed simultaneously or sequentially.

Description

BACKGROUND[0001]This invention relates to systems and processes designed to treat monoethylene glycol (MEG) used in the oil and gas industry, especially in offshore locations, to control the formation of hydrates. More particularly, the invention relates to systems and processes that are designed for the simultaneous removal of divalent cations and sulfate from MEG-water streams through the addition of alkalinity and barium ions.[0002]In the oil and gas industry, MEG is widely used in wellheads and pipelines as a hydrate suppressor to prevent hydrate formation at pipeline conditions. On offshore gas production facilities, where the exposure to lower temperatures in subsea pipelines is significant, MEG is in prevalent use for hydrate inhibition. The lean (dry) MEG is injected in the subsea gas pipeline at or near the wellhead and mixes readily with the produced water. The inhibition process is straightforward, with the MEG decreasing the hydrate formation temperature below the operat...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C02F1/52C10L3/10C07C29/76B01D9/00
CPCC07C29/76B01D9/0054C02F2101/10C02F2103/10C10L3/107C02F1/5245C02F2101/101C07C31/202
Inventor MESSENGER, BRIAN E.
Owner CAMERON SOLUTIONS
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