Tertiary formations in the Kodiak Island area, Alaska, and their petroleum reservoir and source-rock potential

T phases from 80 Alaskan earthquakes, March 28-31, 1964

Bulletin of the Seismological Society of America ◽

10.1785/bssa0550010059 ◽

1965 ◽

Vol 55 (1) ◽

pp. 59-63

Author(s):

John Northrop

Keyword(s):

Continental Shelf ◽

Island Area ◽

Kodiak Island ◽

Phase Signal ◽

T Phase

Abstract A large T-phase signal was received at Pt. Sur, California, from the Alaskan earthquake of March 28, 1964. Additional T phases were received from 90 per cent of the 80 aftershocks studied in the Kodiak Island area. The largest T phases were received from hypocenters beneath the upper portion of the continental shelf.

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Post-early Triassic formations of northeastern Alaska and their petroleum reservoir and source rock potential

10.14509/447 ◽

1980 ◽

Cited By ~ 1

Author(s):

W. M. Lyle ◽

I. F. Palmer ◽

J. G. Bolm ◽

L. R. Maxey

Keyword(s):

Source Rock ◽

Early Triassic ◽

Petroleum Reservoir

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Evaluation of maturity and source rock potential in the Lougheed Island area of the central Sverdrup Basin,

Norwegian Petroleum Society Special Publications ◽

10.1016/b978-0-444-88943-0.50014-9 ◽

1993 ◽

pp. 147-157

Author(s):

Arctic Canada ◽

F. Goodarzi ◽

T. Gentzis ◽

A.F. Embry ◽

K.G. Osadetz ◽

...

Keyword(s):

Source Rock ◽

Island Area ◽

Sverdrup Basin

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Characterization and Genesis of a Petroleum Reservoir Inside a Source Clay

Energy Exploration & Exploitation ◽

10.1177/0144598793011003-404 ◽

1993 ◽

Vol 11 (3-4) ◽

pp. 284-294

Author(s):

Li Taiming ◽

Din Wenlung ◽

Li Dachen

Keyword(s):

Source Rock ◽

Oil Production ◽

Northern China ◽

Songliao Basin ◽

Oil Field ◽

Petroleum Geology ◽

Petroleum Reservoir ◽

Commercial Interest ◽

New Type

In 1984 a special type of oil field was discovered in the Songliao basin, a major oil production province in northern China. The oil field, different from all known types, was formed in a source claystone with fissured intervals. The Qingshankou source rock was composed of thick clay sediments, without any internal porous interbeds. The fissures developed later than deposition in this clay section. Since 1984 several wells have penetrated the Qingshankou source clay and 12 have found oil pools of the same type. This new type of oil trap is named a fissured clay reservoir. Discovery has been not only of commercial interest, but has also provided a significant impetus to developments in petroleum geology science.

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The Legacy of the Russian-American Company and the Implementation of the Alaska Native Claims Settlement Act in the Kodiak Island Area of Alaska

Ethnohistory ◽

10.1215/00141801-2140695 ◽

2013 ◽

Vol 60 (3) ◽

pp. 403-417

Author(s):

G. L. Pullar

Keyword(s):

Alaska Native ◽

Island Area ◽

Kodiak Island

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Tertiary formations and associated Mesozoic rocks in the Alaska Peninsula area, Alaska, and their petroleum-reservoir and source-rock potential

10.14509/416 ◽

1979 ◽

Cited By ~ 3

Author(s):

W. M. Lyle ◽

J. A. Morehouse ◽

I. F. Palmer ◽

J. G. Bolm

Keyword(s):

Source Rock ◽

Petroleum Reservoir ◽

Alaska Peninsula

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Tandem scanning confocal light microscopy as compared with x-ray diffraction for characterizing the behavior of clays in fluid-saturated petroleum reservoir rock

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100152719 ◽

1989 ◽

Vol 47 ◽

pp. 148-149

Author(s):

C.J. Stuart ◽

B.E. Viani ◽

J. Walker ◽

T.H. Levesque

Keyword(s):

Light Microscopy ◽

Image Plane ◽

Reservoir Rock ◽

Depth Of Field ◽

Objective Lens ◽

Scanning System ◽

Light Sources ◽

Petroleum Reservoir ◽

Image Recording ◽

Scan Speed

Many techniques of imaging used to characterize petroleum reservoir rocks are applied to dehydrated specimens. In order to directly study behavior of fines in reservoir rock at conditions similar to those found in-situ these materials need to be characterized in a fluid saturated state.Standard light microscopy can be used on wet specimens but depth of field and focus cannot be obtained; by using the Tandem Scanning Confocal Microscope (TSM) images can be produced from thin focused layers with high contrast and resolution. Optical sectioning and extended focus images are then produced with the microscope. The TSM uses reflected light, bulk specimens, and wet samples as opposed to thin section analysis used in standard light microscopy. The TSM also has additional advantages: the high scan speed, the ability to use a variety of light sources to produce real color images, and the simple, small size scanning system. The TSM has frame rates in excess of normal TV rates with many more lines of resolution. This is accomplished by incorporating a method of parallel image scanning and detection. The parallel scanning in the TSM is accomplished by means of multiple apertures in a disk which is positioned in the intermediate image plane of the objective lens. Thousands of apertures are distributed in an annulus, so that as the disk is spun, the specimen is illuminated simultaneously by a large number of scanning beams with uniform illumination. The high frame speeds greatly simplify the task of image recording since any of the normally used devices such as photographic cameras, normal or low light TV cameras, VCR or optical disks can be used without modification. Any frame store device compatible with a standard TV camera may be used to digitize TSM images.

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