Tertiary Deep-Marine Reservoirs of the North Sea Region
Discovery of the Arbroath, Montrose and Forties fields initiated intensive exploration of the Tertiary deep-marine play in the North Sea region. Subsequent discoveries demonstrated the success of this play and the geological diversity of the depositional systems. The play is now mature and in many areas the remaining exploration potential is likely to be dominated by small, subtle traps with a major component of stratigraphic trapping. Economically marginal discoveries need an in-depth understanding of subsurface uncertainty to mitigate risk with limited appraisal wells. Mature fields require detailed geological understanding in the search for the remaining oil. This volume focuses on the regional depositional setting of these deep-marine systems, providing a stratigraphic and palaeogeographical context for exploration, and development case histories that outline the challenges of producing from these reservoirs. The fields are arranged around the production life cycle, describing the changing needs of geological models as the flow of static and dynamic data refines geological understanding and defines the nature of new opportunities as fields mature.
Interplay of fan-fringe reservoir deterioration and hydrodynamic aquifer: understanding the margins of gas development in the Ormen Lange Field
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Published:January 01, 2015
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CiteCitation
M. Grecula, J. Hognestad, S. Price, M. Boya Ferrero, G. De Bruijn, K. T. Noraberg, K. Engenes, P. Mears, K. Van Ojik, R. McGarva, 2015. "Interplay of fan-fringe reservoir deterioration and hydrodynamic aquifer: understanding the margins of gas development in the Ormen Lange Field", Tertiary Deep-Marine Reservoirs of the North Sea Region, T. McKie, P. T. S. Rose, A. J. Hartley, D. W. Jones, T. L. Armstrong
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Abstract
The Ormen Lange Field is a gas reservoir offshore mid-Norway, developed in a combined structural–stratigraphic–hydrodynamic trap. The lobe-dominated turbidite deposits are mostly of excellent quality, but show a significant deterioration trend towards the fan fringe at its northern margin. Axial parts of the fan contain amalgamated sand-rich deposits, which pass laterally into layered sequences characterized by intercalation of low-permeability heterolithic drapes. Along its 40 km length, the field contains in excess of 400 linked polygonal faults attributed to de-watering of underlying shales. Despite pervasive faulting, reservoir connectivity on a geological timescale is proved by a common pressure gradient in pre-production wells and depletion seen in all later development wells. Recent appraisal drilling of the fan fringe, occupying the crest of the field, encountered only residual gas saturations, despite being located in an area delineated by a seismic direct hydrocarbon indicator. A hydrodynamic aquifer concept is the most plausible explanation for the fluid distribution, in which the gas from the crest of the structure is displaced, leaving behind a northward-thickening prism of residual gas. Dynamic simulation of the fluid-fill evolution over geological time showed the hydrodynamically tilted contact depends on rate of water flow across the aquifer, stratigraphic baffling and faulting, and reservoir quality, i.e. clean sand fraction and effective permeability. Optimal development of this deep-water reservoir depends on understanding the relationship between reservoir quality, connectivity, and the position of the free water level (FWL) in the field. A range of FWL in the north of the field, only weakly constrained by the wells, was empirically established from the hydrodynamically initialized models. This allowed a robust test of the production wells planned to drain the margin of the field. Modelled predictions of reservoir quality and pressures were confirmed by subsequent drilling.
- aquifers
- Atlantic Ocean
- clastic rocks
- connectivity
- cores
- depositional environment
- drilling
- Europe
- faults
- geometry
- hydrodynamics
- lithofacies
- natural gas
- North Atlantic
- North Sea
- Norway
- offshore
- oil and gas fields
- oil wells
- optimization
- permeability
- petroleum
- porosity
- production
- reservoir properties
- reservoir rocks
- sandstone
- Scandinavia
- sedimentary rocks
- shale
- stratigraphic traps
- structural traps
- submarine fans
- three-dimensional models
- traps
- turbidite
- two-dimensional models
- Western Europe
- Ormen Lange Field