Investigation of microbial souring mechanisms and test of natural antibiotics for MIC prevention

Tanmay Chaturvedi; Torben Lund Skovhus; Mette Hedegaard Thomsen

Investigation of microbial souring mechanisms and test of natural antibiotics for MIC prevention

Tanmay Chaturvedi, Torben Lund Skovhus, Mette Hedegaard Thomsen

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Abstract

Offshore oil production facilities are subjectable to internal piping corrosion, potentially leading to human and environmental risk, and significant economic losses. Microbiologically influenced corrosion (MIC) and souring (sulphide production by Sulfate-reducing prokaryotes) from bacteria (SRB) or archaea (SRA) occur due to water flooding during secondary oil recovery, where the seawater used can contain large amounts of sulfate (25-30 mM). MIC is often seen as localized pitting attack that is generally associated with the presence of microbial communities embedded in a matrix (often with bioinorganic matrixes) referred to as biofilms. Active phytochemicals including strong antimicrobials from halophytes will be applied in this study to combat MIC by inhibiting MIC microorganisms such as methanogens and SRP. A bioreactor system for biofilm production was setup and inoculated with Wadden Sea sediments to emulated onsite MIC.

Original language	English
Publication date	5 Nov 2018
Publication status	Published - 5 Nov 2018
Event	DHRTC Technology conference - Crowne Plaza Copenhagen Towers, Copenhagen, Denmark Duration: 12 Nov 2018 → 13 Nov 2018

Conference

Conference	DHRTC Technology conference
Location	Crowne Plaza Copenhagen Towers
Country/Territory	Denmark
City	Copenhagen
Period	12/11/2018 → 13/11/2018

Keywords

microbial souring mechanisms
MIC prevention
Microbiologically influenced corrosion

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abstract = "Offshore oil production facilities are subjectable to internal piping corrosion, potentially leading to human and environmental risk, and significant economic losses. Microbiologically influenced corrosion (MIC) and souring (sulphide production by Sulfate-reducing prokaryotes) from bacteria (SRB) or archaea (SRA) occur due to water flooding during secondary oil recovery, where the seawater used can contain large amounts of sulfate (25-30 mM). MIC is often seen as localized pitting attack that is generally associated with the presence of microbial communities embedded in a matrix (often with bioinorganic matrixes) referred to as biofilms. Active phytochemicals including strong antimicrobials from halophytes will be applied in this study to combat MIC by inhibiting MIC microorganisms such as methanogens and SRP. A bioreactor system for biofilm production was setup and inoculated with Wadden Sea sediments to emulated onsite MIC.",

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AU - Skovhus, Torben Lund

AU - Thomsen, Mette Hedegaard

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N2 - Offshore oil production facilities are subjectable to internal piping corrosion, potentially leading to human and environmental risk, and significant economic losses. Microbiologically influenced corrosion (MIC) and souring (sulphide production by Sulfate-reducing prokaryotes) from bacteria (SRB) or archaea (SRA) occur due to water flooding during secondary oil recovery, where the seawater used can contain large amounts of sulfate (25-30 mM). MIC is often seen as localized pitting attack that is generally associated with the presence of microbial communities embedded in a matrix (often with bioinorganic matrixes) referred to as biofilms. Active phytochemicals including strong antimicrobials from halophytes will be applied in this study to combat MIC by inhibiting MIC microorganisms such as methanogens and SRP. A bioreactor system for biofilm production was setup and inoculated with Wadden Sea sediments to emulated onsite MIC.

AB - Offshore oil production facilities are subjectable to internal piping corrosion, potentially leading to human and environmental risk, and significant economic losses. Microbiologically influenced corrosion (MIC) and souring (sulphide production by Sulfate-reducing prokaryotes) from bacteria (SRB) or archaea (SRA) occur due to water flooding during secondary oil recovery, where the seawater used can contain large amounts of sulfate (25-30 mM). MIC is often seen as localized pitting attack that is generally associated with the presence of microbial communities embedded in a matrix (often with bioinorganic matrixes) referred to as biofilms. Active phytochemicals including strong antimicrobials from halophytes will be applied in this study to combat MIC by inhibiting MIC microorganisms such as methanogens and SRP. A bioreactor system for biofilm production was setup and inoculated with Wadden Sea sediments to emulated onsite MIC.

KW - microbial souring mechanisms

KW - MIC prevention

KW - Microbiologically influenced corrosion

M3 - Poster

T2 - DHRTC Technology conference

Y2 - 12 November 2018 through 13 November 2018

ER -

Investigation of microbial souring mechanisms and test of natural antibiotics for MIC prevention

Abstract

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