Stability zone of natural gas hydrates in a permafrost-bearing region of the Beaufort-Mackenzie basin: Study of a feasible energy source
Analysis of geological and geophysical data from 150 wells in the Beaufort-Mackenzie region(study area between 68 deg. 30'-70 deg. 00'N and 131 deg. -39 deg. W) led to reinterpretation of the depth of methane hydrate stability and construction of the first contour maps displaying thickness...
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| Veröffentlicht in: | Natural resources research (New York, N.Y.) N.Y.), 2000-03, Vol.9 (1), p.3-25 |
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| description | Analysis of geological and geophysical data from 150 wells in the Beaufort-Mackenzie region(study area between 68 deg. 30'-70 deg. 00'N and 131 deg. -39 deg. W) led to reinterpretation of the depth of methane hydrate stability and construction of the first contour maps displaying thickness of hydrate stability zones as well as hydrate stability zone thicknesses below permafrost. Calculations were based on construction of temperature-depth profiles incorporating regional heat-flow values, temperature at the base of ice-bearing permafrost, and models relating thermal conductivity with depth. Data analysis indicates the presence and extent of the methane hydrate stability zone is related mainly to the history of permafrost development and less so by the relatively small regional variations of temperature gradients. Analysis of well logs and other indicators in conjunction with knowledge of the hydrate stability zone allows reevaluation of the location of possible gas hydrate occurrences. Log analysis indicates that in the onshore and shallow sea area of the Beaufort-Mackenzie Basin, methane hydrate occurs in 27 wells. Fifteen of these locations coincides with underlying conventional hydrocarbon occurrences. Previous analyses place some of the hydrate occurrences at greater depths than proposed for the methane hydrate stability zone described in this study. Interpretation of geological cross sections reveals that hydrates are related mainly to sandy deltaic and delta-plain deposits in Iperk, Kugmallit, and Reindeer sequences although additional hydrate picks have been inferred in other sequences, such as Richards. Overlying permafrost may act as seal for hydrate accumulations; however, the thickness of permafrost and its related hydrate stability zone fluctuated during geological time. It is interpreted that only in the last tens of thousand of years (i.e., Sangamonian to Holocene), conditions for hydrates changed from nonstable to stable. During Early and Late Wisconsinan and Holocene time, conditions were favorable for generation and trapping of hydrates. However, previously during Sangamonian time,less favorable conditions existed for hydrate stability. Gas release from hydrates may have occurred during times when hydrate stability was non existent because of permafrost melting episodes. It is interpreted that entrapment of gas in hydrate molecular structures is related to the existence of conventional structural traps as well as less permeable sediments su |
| doi_str_mv | 10.1023/a:1010105628952 |
| format | Article |
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A ; HANNIGAN, P. K</creator><creatorcontrib>MAJOROWICZ, J. A ; HANNIGAN, P. K</creatorcontrib><description>Analysis of geological and geophysical data from 150 wells in the Beaufort-Mackenzie region(study area between 68 deg. 30'-70 deg. 00'N and 131 deg. -39 deg. W) led to reinterpretation of the depth of methane hydrate stability and construction of the first contour maps displaying thickness of hydrate stability zones as well as hydrate stability zone thicknesses below permafrost. Calculations were based on construction of temperature-depth profiles incorporating regional heat-flow values, temperature at the base of ice-bearing permafrost, and models relating thermal conductivity with depth. Data analysis indicates the presence and extent of the methane hydrate stability zone is related mainly to the history of permafrost development and less so by the relatively small regional variations of temperature gradients. Analysis of well logs and other indicators in conjunction with knowledge of the hydrate stability zone allows reevaluation of the location of possible gas hydrate occurrences. Log analysis indicates that in the onshore and shallow sea area of the Beaufort-Mackenzie Basin, methane hydrate occurs in 27 wells. Fifteen of these locations coincides with underlying conventional hydrocarbon occurrences. Previous analyses place some of the hydrate occurrences at greater depths than proposed for the methane hydrate stability zone described in this study. Interpretation of geological cross sections reveals that hydrates are related mainly to sandy deltaic and delta-plain deposits in Iperk, Kugmallit, and Reindeer sequences although additional hydrate picks have been inferred in other sequences, such as Richards. Overlying permafrost may act as seal for hydrate accumulations; however, the thickness of permafrost and its related hydrate stability zone fluctuated during geological time. It is interpreted that only in the last tens of thousand of years (i.e., Sangamonian to Holocene), conditions for hydrates changed from nonstable to stable. During Early and Late Wisconsinan and Holocene time, conditions were favorable for generation and trapping of hydrates. However, previously during Sangamonian time,less favorable conditions existed for hydrate stability. Gas release from hydrates may have occurred during times when hydrate stability was non existent because of permafrost melting episodes. 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A</creatorcontrib><creatorcontrib>HANNIGAN, P. K</creatorcontrib><title>Stability zone of natural gas hydrates in a permafrost-bearing region of the Beaufort-Mackenzie basin: Study of a feasible energy source</title><title>Natural resources research (New York, N.Y.)</title><description>Analysis of geological and geophysical data from 150 wells in the Beaufort-Mackenzie region(study area between 68 deg. 30'-70 deg. 00'N and 131 deg. -39 deg. W) led to reinterpretation of the depth of methane hydrate stability and construction of the first contour maps displaying thickness of hydrate stability zones as well as hydrate stability zone thicknesses below permafrost. Calculations were based on construction of temperature-depth profiles incorporating regional heat-flow values, temperature at the base of ice-bearing permafrost, and models relating thermal conductivity with depth. Data analysis indicates the presence and extent of the methane hydrate stability zone is related mainly to the history of permafrost development and less so by the relatively small regional variations of temperature gradients. Analysis of well logs and other indicators in conjunction with knowledge of the hydrate stability zone allows reevaluation of the location of possible gas hydrate occurrences. Log analysis indicates that in the onshore and shallow sea area of the Beaufort-Mackenzie Basin, methane hydrate occurs in 27 wells. Fifteen of these locations coincides with underlying conventional hydrocarbon occurrences. Previous analyses place some of the hydrate occurrences at greater depths than proposed for the methane hydrate stability zone described in this study. Interpretation of geological cross sections reveals that hydrates are related mainly to sandy deltaic and delta-plain deposits in Iperk, Kugmallit, and Reindeer sequences although additional hydrate picks have been inferred in other sequences, such as Richards. Overlying permafrost may act as seal for hydrate accumulations; however, the thickness of permafrost and its related hydrate stability zone fluctuated during geological time. It is interpreted that only in the last tens of thousand of years (i.e., Sangamonian to Holocene), conditions for hydrates changed from nonstable to stable. During Early and Late Wisconsinan and Holocene time, conditions were favorable for generation and trapping of hydrates. However, previously during Sangamonian time,less favorable conditions existed for hydrate stability. Gas release from hydrates may have occurred during times when hydrate stability was non existent because of permafrost melting episodes. It is interpreted that entrapment of gas in hydrate molecular structures is related to the existence of conventional structural traps as well as less permeable sediments such as the Mackenzie Bay Formation, which act as seal.</description><subject>BEARINGS</subject><subject>CANADA</subject><subject>CROSS SECTIONS</subject><subject>DATA ANALYSIS</subject><subject>Earth sciences</subject><subject>Earth, ocean, space</subject><subject>Exact sciences and technology</subject><subject>GAS HYDRATES</subject><subject>GEOLOGIC SURVEYS</subject><subject>GEOSCIENCES</subject><subject>HEAT FLUX</subject><subject>HYDROCARBONS</subject><subject>ICE</subject><subject>Metallic and non-metallic deposits</subject><subject>MOLECULAR STRUCTURE</subject><subject>NATURAL GAS</subject><subject>PERMAFROST</subject><subject>Sedimentary rocks</subject><subject>SEDIMENTS</subject><subject>TEMPERATURE GRADIENTS</subject><subject>THERMAL CONDUCTIVITY</subject><subject>Useful material except metal geology</subject><issn>1520-7439</issn><issn>1573-8981</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><recordid>eNotkEtPwzAQhC0EEqVw5moJcQz4kcROb1Dxkoo4FM7Rxlm3htSpbPeQ_gJ-NqmK5rCr0ewn7RByzdkdZ0Lew4yzg4pS6KoQJ2TCCyUzXWl-etgFy1Quq3NyEeM3Y0xJXUzI7zJB4zqXBrrvPdLeUg9pF6CjK4h0PbQBEkbqPAW6xbABG_qYsgYhOL-iAVeu94eztEb6iLCzfUjZO5gf9HuHtIHo_Iwu064dDjGgFker6ZCix7AaaOx3weAlObPQRbz6n1Py9fz0OX_NFh8vb_OHRQY8r1KmhDAGm1ZwxoRq2lw3ssRWWwmFtlyhKU1elVbmUrWNAgSTK6a5UpVuCyHklNwcueMXro7GJTRr03uPJtUjtczlWM2U3B5TW4gGOhvAGxfrbXAbCEPNZVWNVCb_AFBecm4</recordid><startdate>20000315</startdate><enddate>20000315</enddate><creator>MAJOROWICZ, J. A</creator><creator>HANNIGAN, P. K</creator><general>Springer</general><scope>IQODW</scope><scope>OTOTI</scope></search><sort><creationdate>20000315</creationdate><title>Stability zone of natural gas hydrates in a permafrost-bearing region of the Beaufort-Mackenzie basin: Study of a feasible energy source</title><author>MAJOROWICZ, J. A ; HANNIGAN, P. K</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a149t-722ccebd210027bd48b36ed8f3a58f17ec6c496f3437db7aeac470817798d5223</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2000</creationdate><topic>BEARINGS</topic><topic>CANADA</topic><topic>CROSS SECTIONS</topic><topic>DATA ANALYSIS</topic><topic>Earth sciences</topic><topic>Earth, ocean, space</topic><topic>Exact sciences and technology</topic><topic>GAS HYDRATES</topic><topic>GEOLOGIC SURVEYS</topic><topic>GEOSCIENCES</topic><topic>HEAT FLUX</topic><topic>HYDROCARBONS</topic><topic>ICE</topic><topic>Metallic and non-metallic deposits</topic><topic>MOLECULAR STRUCTURE</topic><topic>NATURAL GAS</topic><topic>PERMAFROST</topic><topic>Sedimentary rocks</topic><topic>SEDIMENTS</topic><topic>TEMPERATURE GRADIENTS</topic><topic>THERMAL CONDUCTIVITY</topic><topic>Useful material except metal geology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>MAJOROWICZ, J. A</creatorcontrib><creatorcontrib>HANNIGAN, P. K</creatorcontrib><collection>Pascal-Francis</collection><collection>OSTI.GOV</collection><jtitle>Natural resources research (New York, N.Y.)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>MAJOROWICZ, J. A</au><au>HANNIGAN, P. K</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Stability zone of natural gas hydrates in a permafrost-bearing region of the Beaufort-Mackenzie basin: Study of a feasible energy source</atitle><jtitle>Natural resources research (New York, N.Y.)</jtitle><date>2000-03-15</date><risdate>2000</risdate><volume>9</volume><issue>1</issue><spage>3</spage><epage>25</epage><pages>3-25</pages><issn>1520-7439</issn><eissn>1573-8981</eissn><coden>NRREFQ</coden><abstract>Analysis of geological and geophysical data from 150 wells in the Beaufort-Mackenzie region(study area between 68 deg. 30'-70 deg. 00'N and 131 deg. -39 deg. W) led to reinterpretation of the depth of methane hydrate stability and construction of the first contour maps displaying thickness of hydrate stability zones as well as hydrate stability zone thicknesses below permafrost. Calculations were based on construction of temperature-depth profiles incorporating regional heat-flow values, temperature at the base of ice-bearing permafrost, and models relating thermal conductivity with depth. Data analysis indicates the presence and extent of the methane hydrate stability zone is related mainly to the history of permafrost development and less so by the relatively small regional variations of temperature gradients. Analysis of well logs and other indicators in conjunction with knowledge of the hydrate stability zone allows reevaluation of the location of possible gas hydrate occurrences. Log analysis indicates that in the onshore and shallow sea area of the Beaufort-Mackenzie Basin, methane hydrate occurs in 27 wells. Fifteen of these locations coincides with underlying conventional hydrocarbon occurrences. Previous analyses place some of the hydrate occurrences at greater depths than proposed for the methane hydrate stability zone described in this study. Interpretation of geological cross sections reveals that hydrates are related mainly to sandy deltaic and delta-plain deposits in Iperk, Kugmallit, and Reindeer sequences although additional hydrate picks have been inferred in other sequences, such as Richards. Overlying permafrost may act as seal for hydrate accumulations; however, the thickness of permafrost and its related hydrate stability zone fluctuated during geological time. It is interpreted that only in the last tens of thousand of years (i.e., Sangamonian to Holocene), conditions for hydrates changed from nonstable to stable. During Early and Late Wisconsinan and Holocene time, conditions were favorable for generation and trapping of hydrates. However, previously during Sangamonian time,less favorable conditions existed for hydrate stability. Gas release from hydrates may have occurred during times when hydrate stability was non existent because of permafrost melting episodes. It is interpreted that entrapment of gas in hydrate molecular structures is related to the existence of conventional structural traps as well as less permeable sediments such as the Mackenzie Bay Formation, which act as seal.</abstract><cop>Heidelberg</cop><pub>Springer</pub><doi>10.1023/a:1010105628952</doi><tpages>23</tpages></addata></record> |
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| subjects | BEARINGS CANADA CROSS SECTIONS DATA ANALYSIS Earth sciences Earth, ocean, space Exact sciences and technology GAS HYDRATES GEOLOGIC SURVEYS GEOSCIENCES HEAT FLUX HYDROCARBONS ICE Metallic and non-metallic deposits MOLECULAR STRUCTURE NATURAL GAS PERMAFROST Sedimentary rocks SEDIMENTS TEMPERATURE GRADIENTS THERMAL CONDUCTIVITY Useful material except metal geology |
| title | Stability zone of natural gas hydrates in a permafrost-bearing region of the Beaufort-Mackenzie basin: Study of a feasible energy source |
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