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1

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Book review (1990)

Malin, Stuart R. ; Gibowicz, S. J. ; Domański, Bogusław ; [et al.]

Springer

Pure and applied geophysics 132 (1990), S. 811-824

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ISSN: 1420-9136

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00876822

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2

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Book review (1988)

Gubbins, David ; Okal, Emile A. ; Scarpa, Roberto ; [et al.]

Springer

Pure and applied geophysics 127 (1988), S. 695-752

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ISSN: 1420-9136

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00881752

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3

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The geothermal regime of the northern Yukon and Mackenzie delta regions of northwest Canada — studies of two regional profiles (1988)

Jones, F. W. ; Majorowicz, J. A. ; Dietrich, J.

Springer

Pure and applied geophysics 127 (1988), S. 641-658

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ISSN: 1420-9136

Keywords: Geothermics ; heat flow ; Northwest Canada ; basin studies ; heat flow variations

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Temperature data from deep petroleum exploration wells and thermal conductivity estimates based on net rock analysis data have been used to make terrestrial heat flow estimates along two profiles across the sedimentary strata of the Mackenzie Delta, northern Yukon, and offshore Beaufort Sea regions. Both profiles exhibit low heat flow values that range from 34 mWm−2 to 58 mWm−2, and little change occurs over large distances in the continental part of the area. Low heat flow values (〈40 mWm−2) occur in the Beaufort-Mackenzie Basin and Rapid Depression, both of which are areas of thick successions of Cretacecus and Tertiary clastic sedimentary strata. High heat flow values of almost 80 mWm−2 occur to the south in the Taiga Nahoni Foldbelt and values as high as 60 mWm−2 are indicated along the Aklavik Arch Complex, northeast of Aklavik. The regional variations of effective thermal conductivity are insufficient to account for the heat flow variations along the profiles, and so these may indicate deep radiogenic or other heat sources.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00881749

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4

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Geothermal gradients and heat flow in the Beaufort-Mackenzie Basin, Arctic Canada (1990)

Jones, F. W. ; Majorowicz, J. A. ; Dietrich, J. ; [et al.]

Springer

Pure and applied geophysics 134 (1990), S. 473-483

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ISSN: 1420-9136

Keywords: Geothermal gradients ; heat flow ; Arctic Canada

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Thermal gradients have been calculated and heat flow estimates made for 34 petroleum exploration wells along four regional profiles crossing the Mesozoic-Cenozoic Beaufort-Mackenzie Basin of northern Canada. The geothermal gradients vary from 22 mKm−1 to 44 mKm−1. Four sets of possible thermal conductivity values were used to calculate a range of heat flow values for each well. Generally low heat flow is observed in wells within the deeper portions of the basin and higher heat flow values occur in wells along the Aklavik Arch Complex which forms the southeastern margin of the basin. The contribution to heat flow by heat generation below the Mesozoic-Cenozoic basin fill sediments has been considered. The heat flow contribution from sub-Mesozoic sedimentary strata and underlying basement is highest along the basin-bounding Aklavik Arch Complex. The decrease in heat flow from below the basin fill sediments toward the basin depocenter may be related to basinward crustal thinning and corresponding reductions in intra-crustal radiogenic heat production.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00878743

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5

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ESTIMATES OF TERRESTRIAL THERMAL GRADIENTS AND HEAT FLOW VARIATIONS WITH DEPTH IN THE HINTON-EDSON AREA OF THE ALBERTA BASIN DERIVED FROM PETROLEUM BOTTOM-HOLE TEMPERATURE DATA (1984)

KUSHIGBOR, C. ; LAM, H. L. ; MAJOROWICZ, J. A. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Geophysical prospecting 32 (1984), S. 0

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ISSN: 1365-2478

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences , Physics

Notes: There is a significant increase in terrestrial heat flow with depth in the Hinton-Edson area of the deep part of the western Canadian sedimentary basin in Alberta. This is especially true near the Rocky Mountain foothills which is an area of high relief, high hydraulic head and regional water recharge. Gravity-imposed downward movement of meteoric water through the thick sedimentary strata with velocities as low as 10–10 m/s to 0.5 × 10–9 m/s may cause an increase of heat flow with depth. Such disturbance of heat flow with depth on a regional scale in the sedimentary strata means that it is not possible to determine the background conductive steady-state heat flow associated with crustal or upper mantle heat sources in such an area from measurement of conductive heat flow in the part of the sedimentary column where water movement occurs. This is because the convective portion cannot be determined, particularly when measurements are made in only part of the regional hydrodynamic system of the basin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-2478.1984.tb00758.x

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6

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Stability Zone of Natural Gas Hydrates in a Permafrost-Bearing Region of the Beaufort—Mackenzie Basin: Study of a Feasible Energy Source1 (Geological Survey of Canada Contribution No.1999275) (2000)

Majorowicz, J. A. ; Hannigan, P. K.

Springer

Natural resources research 9 (2000), S. 3-26

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ISSN: 1573-8981

Keywords: Gas hydrates ; methane ; energy ; permafrost ; geothermics

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Analysis of geological and geophysical data from 150 wells in the Beaufort—Mackenzie region(study area between 68°30′–70°00′N and 131°–39°W) led to reinterpretation of the depth ofmethane hydrate stability and construction of the first contour maps displaying thickness of hydratestability zones as well as hydrate stability zone thicknesses below permafrost. Calculations werebased on construction of temperature-depth profiles incorporating regional heat-flow values, temperatureat 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 relatedmainly to the history of permafrost development and less so by the relatively small regionalvariations of temperature gradients. Analysis of well logs and other indicators in conjunction withknowledge of the hydrate stability zone allows reevaluation of the location of possible gas hydrateoccurrences. Log analysis indicates that in the onshore and shallow sea area of theBeaufort—Mackenzie Basin, methane hydrate occurs in 27 wells. Fifteen of these locations coincides withunderlying conventional hydrocarbon occurrences. Previous analyses place some of the hydrateoccurrences at greater depths than proposed for the methane hydrate stability zone described inthis study. Interpretation of geological cross sections reveals that hydratesare related mainly to sandy deltaic and delta-plain deposits in Iperk, Kugmallit, and Reindeer sequences althoughadditional hydrate picks have been inferred in other sequences, such as Richards. Overlyingpermafrost may act as seal for hydrate accumulations; however, the thickness of permafrost andits related hydrate stability zone fluctuated during geological time. It is interpreted that only inthe last tens of thousand of years (i.e., Sangamonian to Holocene), conditions for hydrates changedfrom nonstable to stable. During Early and Late Wisconsinan and Holocene time, conditions werefavorable for generation and trapping of hydrates. However, previously during Sangamonian time,less favorable conditions existed for hydrate stability. Gas release from hydrates may have occurredduring times when hydrate stability was nonexistent because of permafrost melting episodes. It isinterpreted that entrapment of gas in hydrate molecular structures is related to the existence ofconventional structural traps as well as less permeable sediments such as the Mackenzie BayFormation, which act as seal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1010105628952

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Natural Gas Hydrates in the Offshore Beaufort–Mackenzie Basin—Study of a Feasible Energy Source II (2000)

Majorowicz, J. A. ; Hannigan, P. K.

Springer

Natural resources research 9 (2000), S. 201-214

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ISSN: 1573-8981

Keywords: gas hydrates ; methane ; energy ; permafrost ; geothermics

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract In the offshore part of Beaufort–Mackenzie Basin depth of methane hydrate stability reaches more than 1.5 km. However, there are areas in the western part of the basin where there are no conditions of methane hydrate stability. Construction of the first contour maps displaying thickness of hydrate stability zones as well as hydrate stability zone thicknesses below permafrost in the offshore area, shows that these zones can reach 1200 m and 900 m, respectively. Depth to the base of ice-bearing relict permafrost under the sea (depth of the −1°C isotherm-ice-bearing permafrost base) and regional variations of geothermal gradient are the main controlling factors. Hydrostatic pressures in the upper 1500 m are the rule. History of methane hydrate stability zone is related mainly to the history of permafrost and it reached maximum depth in early Holocene. More recently, the permafrost and hydrate zone is diminishing because of sea transgression. Reevaluation of the location of possible gas hydrate occurrences is done from the analysis of well logs and other indicators in conjunction with knowledge of the hydrate stability zone. In the offshore Beaufort–Mackenzie Basin, methane hydrate occurs in 21 wells. Nine 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 and maps of geological sequences reveals that hydrates are occurring in the Iperk–Kugmallit sequence. Hydrate–gas contact zones, however, are possible in numerous situations. As there are no significant geological seals in the deeper part of the offshore basin (all hydrates are within Iperk), it is suggested that overlying permafrost and hydrate stability zone acted as the only trap for upward migrating gas during the last tens of thousand of years (i.e., Sangamonian to Holocene).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1010179301059

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