EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...

We have developed a one-dimensional numerical computer model (simulator) to describe methane hydrate formation, decomposition, reformation, and distribution with depth below the seafloor in the marine environment. The simulator was used to model hydrate distributions at Blake Ridge (Site 997) and Hy...

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Bibliographic Details
Main Authors: Pritchett, John W., Garg, Sabodh K.
Format: Text
Language:English
Published: The University of British Columbia 2008
Subjects:
Methane hydrate
Online Access:https://dx.doi.org/10.14288/1.0040983
https://doi.library.ubc.ca/10.14288/1.0040983
id ftdatacite:10.14288/1.0040983
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spelling ftdatacite:10.14288/1.0040983 2024-04-28T08:28:21+00:00 EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ... Pritchett, John W. Garg, Sabodh K. 2008 https://dx.doi.org/10.14288/1.0040983 https://doi.library.ubc.ca/10.14288/1.0040983 en eng The University of British Columbia article-journal Text ScholarlyArticle 2008 ftdatacite https://doi.org/10.14288/1.0040983 2024-04-02T09:56:51Z We have developed a one-dimensional numerical computer model (simulator) to describe methane hydrate formation, decomposition, reformation, and distribution with depth below the seafloor in the marine environment. The simulator was used to model hydrate distributions at Blake Ridge (Site 997) and Hydrate Ridge (Site 1249). The numerical models for the two sites were conditioned by matching the sulfate, chlorinity, and hydrate distribution measurements. The constrained models were then used to investigate the effect of changes in seafloor temperature and sea-level on gas hydrate stability. For Blake Ridge (site 997), changes in hydrate concentration are small. Both the changes in seafloor temperature and sea-level lead to a substantial increase in gas venting at the seafloor for Hydrate Ridge (site 1249). ... Text Methane hydrate DataCite Metadata Store (German National Library of Science and Technology)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
description We have developed a one-dimensional numerical computer model (simulator) to describe methane hydrate formation, decomposition, reformation, and distribution with depth below the seafloor in the marine environment. The simulator was used to model hydrate distributions at Blake Ridge (Site 997) and Hydrate Ridge (Site 1249). The numerical models for the two sites were conditioned by matching the sulfate, chlorinity, and hydrate distribution measurements. The constrained models were then used to investigate the effect of changes in seafloor temperature and sea-level on gas hydrate stability. For Blake Ridge (site 997), changes in hydrate concentration are small. Both the changes in seafloor temperature and sea-level lead to a substantial increase in gas venting at the seafloor for Hydrate Ridge (site 1249). ...
format Text
author Pritchett, John W.
Garg, Sabodh K.
spellingShingle Pritchett, John W.
Garg, Sabodh K.
EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...
author_facet Pritchett, John W.
Garg, Sabodh K.
author_sort Pritchett, John W.
title EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...
title_short EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...
title_full EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...
title_fullStr EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...
title_full_unstemmed EFFECT OF CHANGES IN SEAFLOOR TEMPERATURE AND SEA-LEVEL ON GAS HYDRATE STABILITY ...
title_sort effect of changes in seafloor temperature and sea-level on gas hydrate stability ...
publisher The University of British Columbia
publishDate 2008
url https://dx.doi.org/10.14288/1.0040983
https://doi.library.ubc.ca/10.14288/1.0040983
genre Methane hydrate
genre_facet Methane hydrate
op_doi https://doi.org/10.14288/1.0040983
_version_ 1797586919498973184

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