Laboratory Evidence of Microbial-Sediment-Gas Hydrate Synergistic Interactions in Ocean Sediments

Rudy E. Rogers; Guochang Zhang; Chandra Kothapalli; William T. French

Laboratory Evidence of Microbial-Sediment-Gas Hydrate Synergistic Interactions in Ocean Sediments

Rudy E. Rogers, Guochang Zhang, Chandra Kothapalli, William T. French

Dave C. Swalm School of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Both biogenic and thermogenic gases form seafloor gas hydrates. Prolific microbial activity and bacterial mats near gas hydrate mounds show at least an incidental association of the gas hydrates and microbes. Laboratory data indicates more than an incidental association: a synergistic relationship exists between microbes, sediments, and gas hydrates. Commercially available biosurfactants showed significant catalytic effects on hydrate induction times and formation rates. Since gas hydrate formation is an interfacial phenomenon, interactions of anionic biosurfactants and specific porous media surfaces influence hydrate location and form. Bacillus subtilis microbe identified around Gulf of Mexico hydrates was cultured, surfactant extracted, and effects on laboratory gas hydrates demonstrated interactions. Copyright © 2004 by The International Society of Offshore and Polar Engineers.

Original language	American English
Journal	Proceedings of the International Offshore and Polar Engineering Conference
State	Published - Dec 1 2004
Externally published	Yes

Keywords

Biosurfactants
Gas hydrates
Gas storage
Seafloor hydrates

Disciplines

Chemical Engineering

Cite this

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title = "Laboratory Evidence of Microbial-Sediment-Gas Hydrate Synergistic Interactions in Ocean Sediments",

abstract = " Both biogenic and thermogenic gases form seafloor gas hydrates. Prolific microbial activity and bacterial mats near gas hydrate mounds show at least an incidental association of the gas hydrates and microbes. Laboratory data indicates more than an incidental association: a synergistic relationship exists between microbes, sediments, and gas hydrates. Commercially available biosurfactants showed significant catalytic effects on hydrate induction times and formation rates. Since gas hydrate formation is an interfacial phenomenon, interactions of anionic biosurfactants and specific porous media surfaces influence hydrate location and form. Bacillus subtilis microbe identified around Gulf of Mexico hydrates was cultured, surfactant extracted, and effects on laboratory gas hydrates demonstrated interactions. Copyright {\textcopyright} 2004 by The International Society of Offshore and Polar Engineers.",

keywords = "Biosurfactants, Gas hydrates, Gas storage, Seafloor hydrates",

author = "Rogers, \{Rudy E.\} and Guochang Zhang and Chandra Kothapalli and French, \{William T.\}",

year = "2004",

month = dec,

day = "1",

language = "American English",

journal = "Proceedings of the International Offshore and Polar Engineering Conference",

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TY - JOUR

T1 - Laboratory Evidence of Microbial-Sediment-Gas Hydrate Synergistic Interactions in Ocean Sediments

AU - Rogers, Rudy E.

AU - Zhang, Guochang

AU - Kothapalli, Chandra

AU - French, William T.

PY - 2004/12/1

Y1 - 2004/12/1

N2 - Both biogenic and thermogenic gases form seafloor gas hydrates. Prolific microbial activity and bacterial mats near gas hydrate mounds show at least an incidental association of the gas hydrates and microbes. Laboratory data indicates more than an incidental association: a synergistic relationship exists between microbes, sediments, and gas hydrates. Commercially available biosurfactants showed significant catalytic effects on hydrate induction times and formation rates. Since gas hydrate formation is an interfacial phenomenon, interactions of anionic biosurfactants and specific porous media surfaces influence hydrate location and form. Bacillus subtilis microbe identified around Gulf of Mexico hydrates was cultured, surfactant extracted, and effects on laboratory gas hydrates demonstrated interactions. Copyright © 2004 by The International Society of Offshore and Polar Engineers.

AB - Both biogenic and thermogenic gases form seafloor gas hydrates. Prolific microbial activity and bacterial mats near gas hydrate mounds show at least an incidental association of the gas hydrates and microbes. Laboratory data indicates more than an incidental association: a synergistic relationship exists between microbes, sediments, and gas hydrates. Commercially available biosurfactants showed significant catalytic effects on hydrate induction times and formation rates. Since gas hydrate formation is an interfacial phenomenon, interactions of anionic biosurfactants and specific porous media surfaces influence hydrate location and form. Bacillus subtilis microbe identified around Gulf of Mexico hydrates was cultured, surfactant extracted, and effects on laboratory gas hydrates demonstrated interactions. Copyright © 2004 by The International Society of Offshore and Polar Engineers.

KW - Biosurfactants

KW - Gas hydrates

KW - Gas storage

KW - Seafloor hydrates

UR - https://engagedscholarship.csuohio.edu/encbe_facpub/211

M3 - Article

JO - Proceedings of the International Offshore and Polar Engineering Conference

JF - Proceedings of the International Offshore and Polar Engineering Conference

ER -

Laboratory Evidence of Microbial-Sediment-Gas Hydrate Synergistic Interactions in Ocean Sediments

Abstract

Keywords

Disciplines

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