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51317--9615-MIC Prevention in Oxidizer Treated Water Systems: A Study on Relative Reaction Rates

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In this paper, we will present a study that is aimed at understanding the relative rates of reactions between oxidizers and bacteria, iron sulfide, H2S, other oxidizable compounds present in produced waters and the overall impact on metal corrosion.

Product Number: 51317--9615-SG

ISBN: 9615 2017 CP

Author: Ramakrishnan Balasubramanian

Publication Date: 2017

Industry: Science of Corrosion

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The use of oxidizers as in the oil and gas industry has been increasing in recent years. Peracetic acid in particular has been gaining acceptance as a very cost effective and superior biocide for water treatment applications. Though primarily used as biocides; oxidizers in general are multi-functional chemistries. Some of the other functionalities include iron sulfide and H2S control as well as water clarification. Although very effective in controlling MIC If not properly dosed the acid and/ or oxygen from oxidizers can cause corrosion. In this paper we will present a study that is aimed at understanding the relative rates of reactions between oxidizers and bacteria iron sulfide H2S other oxidizable compounds present in produced waters and the overall impact on metal corrosion. The results will aide in defining a corrosion control program for water treatment systems where oxidizers are used for preventing microbial influenced corrosion.

Key words: water treatment, MIC, peracetic acid, iron sulfide, H2S, carbon steel, corrosion, multi-functional chemistry

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Key words: water treatment, MIC, peracetic acid, iron sulfide, H2S, carbon steel, corrosion, multi-functional chemistry

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2017 Conference Papers (552)
,
Conference Papers (10927)
,
mic (75)
,
h2s (103)
,
carbon steel (155)
,
water treatment (28)
,
corrosion (452)
,
iron sulfide (28)
,
peracetic acid (1)
,
multi-functional chemistry (1)

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51317--9615-MIC Prevention in Oxidizer Treated Water Systems: A Study on Relative Reaction Rates

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51317--9615-MIC Prevention in Oxidizer Treated Water Systems: A Study on Relative Reaction Rates

51316-7347-Quantifying the Risk of MIC

51317--9604-Mitigation of Severe Pitting Corrosion Caused by MIC in a CDC Biofilm Reactor

10213 Demystifying Mic Mechanisms

Association for Materials Protection and Performance