A. Hamel scite author profile

Abstrac tThe Triassic reservoir is one of the most prolific plays in Algeria since the beginring of the exploration . One of the exploration risk is linked to the distribution and heterogeneity of the reservoir: Triassic series veere mostly deposited in continental to lagoonal depositional environments, and reservoirs mostly correspond to channelised fluvial sandstones interfingering with floodplain and sabbkha sediments .A project was then designed to established the stratigraphic architecture of these series at a regional scale, using outcrop data in Algeria and Tunisia, 125 Wells with a very good core recovery, and palynological analysis . A new interpretation of the tectono -sedimentary evolution of the basins is then proposed . Eight depositional sequences veere determined and correlated all across the area, and detailed sedimentological interpretation of their internal architecture was made possible with the outcrop and core studies .Upper Triassic series veere onlapping Paleozoic sediments folded during the Hercynian orogen. During upper Ladinian times, the whole area was eroded and incised valley systems veere probably guided by the Hercynian unconformity morphology . Triassic sediments veere only deposited in the northern part of the Sahara and in southern Tunisia, along the Paleo -Thethys margin .During Carnian times, a rifting phase induced the reactivation of old Panafrican lineaments, and large North -South horsts and grabens veere formed . Two main basins, the Illizi -Berkine basin and the Oued Mya basin veere separated by the El Biod -Hassi Messaoud high, and bounded eastwards and westwards by uplifted areas . These highs veere associated to normai syn -sedimentary faults, inducing important thickness and facies variations ; and an active volcanism. In the Illizi basin, alluvial fans supplied sediments eroded from the highs to the graben axis, where extended floodplain and ephemeral lake sediments . Carbonated sediments, associated to transgressive events linked to the Paleo -Thethys opening, veere interfingered in these alluvial sediments . The Oued Mya basin was covered at the same time by a wide sandy braided -plain .During Norian times, fault activity decreased, and a post -rilt thermal subsidence affected the whole province . The whole fluvial system backstepped through time, and horsts veere progressively onlapped and covered by alluvial sediments . A wide sabbkha, connected to the Paleo -Thethys, extended in the North of the Illizi -Berkine basin, in which coarse -grained fan -deltas interfingered with the evaporites . Alluvial plain sediments covered the Oued Mya area. Triassic sedimentation ended with a regional transgressive event depositing a thin dolomite bed, overlaid by a thick series of Liassic evaporites .

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Gas Detection In Upper Cretaceous Formations

Woloschuk

Olson

Hamel

1986

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Hydrocarbon resource companies in the Lloydminster heavy Oil region have experienced problems with unwanted gas flows to surface outside production and surface casings. Locating the source of these flows prior to attempting to shut the gas off has proved troublesome. Gas shut-off attempts have therefore had varying degrees of success ranging from failure to expensive success. This paper illustrates how conventional wireline gas detection methods, although successful in detecting gas sources in the Mannville sands, failed in the Upper Cretaceous horizons. Relatively unconventional wireline techniques are shown to be reasonably successful in locating these Upper Cretaceous gas zones. Studies prior to and after utilizing these unconventional techniques are also discussed. Finally, suggestions are made for wireline logging practices and remedial techniques. Introduction Unwanted gas flows to surface outside production and surface casings has become a matter of concern in recent years in the Lloydminster area. Aside from the obvious safety hazard posed by this problem, there can be severely detrimental environ-mental effects should the gas be allowed to migrate into the surrounding soil. Many cases of dead vegetation have been documented as a result of this gas migration.Quite often the unwanted gas flows to surface are not imme-diately obvious. Much of the time dead vegetation around a newly completed or abandoned well is the first indication that a problem exists in a newly explored heavy oil area. With this in mind, most hydrocarbon resource companies have begun to monitor the area around their wells with gas detection devices, especially in fields that are known to be gas prone.Conventional methods of downhole detection were attempted on individual wells. It was eventually discovered that these methods were inadequate. A modified system of gas detection resulted. The unwanted surface gas flow problem occurs in many areas around Lloydminster. The authors chose an area south and east of Lloydminster as a basis for this paper (Fig. 1). The results of the modified gas detection system in this area will be discussed in light of the historical and geological information available.

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ABSTRACT: Sequence Stratigraphy, Reservoir Architecture of Rhourd Nouss Triassic Sandstones and Zarzaïtine Outcrop Analog (Algerian Sahara)

Hamel¹,

Ma²

2001

Bulletin

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Rhourd Nouss Field and Zarzaitine Outcrops (Algerian Sahara) – Triassic Reservoirs Architecture and Sequence Stratigraphy

Maache¹,

Hamel²,

Benhamouda³

2005

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A. Hamel

Geological Study of the Triassic Reservoirs of the Hassi R'mel Gas Condensate Field, Algeria: ABSTRACT

Stratigraphic Architecture Of The Triassic Reservoir in The Saharan Province, Algeria

Gas Detection In Upper Cretaceous Formations

ABSTRACT: Sequence Stratigraphy, Reservoir Architecture of Rhourd Nouss Triassic Sandstones and Zarzaïtine Outcrop Analog (Algerian Sahara)

Rhourd Nouss Field and Zarzaitine Outcrops (Algerian Sahara) – Triassic Reservoirs Architecture and Sequence Stratigraphy

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A. Hamel

Geological Study of the Triassic Reservoirs of the Hassi R'mel Gas Condensate Field, Algeria: ABSTRACT

Stratigraphic Architecture Of The Triassic Reservoir in The Saharan Province, Algeria

Gas Detection In Upper Cretaceous Formations

ABSTRACT: Sequence Stratigraphy, Reservoir Architecture of Rhourd Nouss Triassic Sandstones and Zarza&iuml;tine Outcrop Analog (Algerian Sahara)

Rhourd Nouss Field and Zarzaitine Outcrops (Algerian Sahara) – Triassic Reservoirs Architecture and Sequence Stratigraphy

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ABSTRACT: Sequence Stratigraphy, Reservoir Architecture of Rhourd Nouss Triassic Sandstones and Zarzaïtine Outcrop Analog (Algerian Sahara)