Improving the accuracy and reliability of MWD/magnetic-Wellbore-Directional surveying in the barents sea

The years ahead will see increased petroleum-related activity in the Barents Sea, with operations far off the coast of Norway. The region is at high geomagnetic latitude in the auroral zone, and therefore, directional drilling by use of magnetic reference will experience enlarged azimuth uncertainty...

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Bibliographic Details
Published in:SPE Drilling & Completion
Main Authors: Edvardsen, I., Nyrnes, E., Johnsen, M. G., L. Hansen, T., P. Løvhaug, U., Matzka, Jürgen
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Energy Engineering and Power Technology
Mechanical Engineering
Bottom-hole assembly
Directional drilling
Drilling equipment
Drills
Geomagnetism
Interference suppression
Ionosphere
Magnetic materials
Offshore gas fields
Oil field equipment
Oil fields
Surveys
Continental shelves
Efficient managements
Magnetic disturbance
Magnetic interference
Magnetic monitoring
Non-magnetic steel
Offshore oil and gas fields
Oil and gas fields
Offshore oil wells
accuracy assessment
borehole
drill bit
drilling
geomagnetic field
magnetic method
reliability analysis
surveying
well technology
Arctic Ocean
Barents Sea
Norway
Arctic
Norwegian Sea
Online Access:https://orbit.dtu.dk/en/publications/3175128e-f929-4f3f-a85a-224c0f3574d9
https://doi.org/10.2118/166226-pa
Description
Summary:The years ahead will see increased petroleum-related activity in the Barents Sea, with operations far off the coast of Norway. The region is at high geomagnetic latitude in the auroral zone, and therefore, directional drilling by use of magnetic reference will experience enlarged azimuth uncertainty compared with operations in the Norwegian and North Seas. Two main contributors to azimuth uncertainty are magnetic disturbances from electric currents in the ionosphere and axial magnetic interference from the drillstring. The former is more frequent in the Barents Sea than farther south, and the effect of the latter is increased because of diminished value of the magnetic horizontal component. Wellbore directional surveying for operations on the continental shelf in the North Sea and the Norwegian Sea rely on wellestablishedprocedures for near-real-time magnetic monitoring by use of onshore magnetic-reference stations. The different land and sea configuration, distant offshore oil and gas fields, higher geomagnetic latitude, and different behavior of the magnetic field require the procedures to be reassessed before being applied to the Barents Sea. To reduce drilling delays, procedures must be implemented to enable efficient management of magnetic disturbances.In some areas of the Barents Sea, the management requires new equipment to be developed and tested before drilling, such as seabed magnetometer stations. One simple way to reduce drillstring interference is increasing the amount of nonmagnetic steel in the bottomhole assembly (BHA). To maintain azimuth uncertaintyat an acceptable level in northern areas, it is crucial that wellbore-directional-surveying requirements are given high priority and considered early during well planning. During the development phase of an oil and gas field, the planned wells must be assigned adequate positional-uncertainty models and, if possible, be designed in a direction that minimizes the wellbore directional uncertainty. ©2014 Society of Petroleum Engineers.

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