Removal of Magnetic Metallic Contamination – Improved Drilling Fluid Performance

Saasen, Arild; Pallin, Jan Egil; Ånesbug, Geir Olav; Lindgren, Alf Magne; Aaker, Gudmund; Rødsjø, Mads

doi:10.2118/195721-ms

Cited by 4 publications

(2 citation statements)

References 18 publications

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“…ditch magnet system removes significantly more magnetic contamination from the drilling fluid than any other ditch magnet systems[4,15,16]. The reason for this is the flow position system where the drilling fluid volumes are forced to flow closer to the strong magnetic field.…”

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confidence: 99%

“…The reason for this is the flow position system where the drilling fluid volumes are forced to flow closer to the strong magnetic field. The following chapter describes the system.The jack-up drilling rig Maersk Interceptor was used to drill the wells at the Ivar Aasen field on the Norwegian Continental Shelf[4]. On this rig, the flow-positioned ditch magnet system was used.…”

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Efficient Removal of Magnetic Contamination From Drilling Fluids: The Effect on Directional Drilling

Saasen

Poedjono

Ånesbug³

et al. 2021

Journal of Energy Resources Technology

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Magnetic debris in a drilling fluid have a significant influence on the ability of the drilling fluid to maintain its function. Down hole logging can suffer from poor signal to noise ratios. Directional drilling in areas close to the magnetic North Pole, such as in the Barents Sea, Northern Canada, or Russia, can suffer because of magnetic contamination in the drilling fluid. Magnetic particles in the drilling fluid introduce additional errors to the magnetic surveying compared to those normally included in the ellipsoid of uncertainty calculation. On many offshore drilling rigs, there are mounted ditch magnets to remove metallic swarf from the drilling fluid. These magnets normally only remove the coarser swarf. In this project, we use a combination of strong magnets and flow directors to significantly improve the performance of the ditch magnets. This combination, together with proper routines for cleaning the ditch magnets, significantly helps to clean the drilling fluid. Through the combined use of flow directors and ditch magnets, it was possible to extract more than five times as much magnetic contamination from the drilling fluid as normal compared with other proper ditch magnet systems. This is verified by comparing the ditch magnet efficiencies from two drilling rigs drilling extended reach drilling (ERD) wells in the North Sea area. In this paper, it is discussed how the accuracy of directional drilling and well position effected by various interferences can be improved by the use of a drilling fluid with minimal effect to the measurement while drilling (MWD) measurement.

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Efficient Removal of Magnetic Contamination From Drilling Fluids: The Effect on Directional Drilling

Saasen

Poedjono

Ånesbug³

et al. 2021

Journal of Energy Resources Technology

Self Cite

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Measuring and Analyzing the Magnetic Content of Drilling Fluid

Khalili

Saasen

Khalifeh

et al. 2021

Day 3 Wed, November 17, 2021

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Magnetic contamination of drilling fluid can impact the accuracy of a directional survey by shielding the magnetic field. Additionally, this contamination, such as swarf or finer magnetic particles, can agglomerate on the downhole tool or BOP and cause tool failure in the worst-case scenario. Thus, it is necessary to measure the magnetic content of drilling fluid. However, there is no recommended practice in API or ISO for this purpose. A simple experimental setup and measurement system was developed that can be easily deployed in the rig site to measure the magnetic contamination of drilling fluid. 47 drilling fluid samples were collected from a multilateral production well drilled with a semi-submersible drilling rig located in one of the North Sea's fields. The magnetic content of these samples was measured using the established method, and the microstructure of the collected content was analyzed using a scanning electron microscope (SEM) and x-ray diffraction analysis (XRD). Ditch magnets are commonly installed in the flowline on the rig to remove the swarf and finer magnetic particles, if the design is optimized. Ditch magnet measurement data of the well that the drilling fluid samples were collected from is presented. Operational details and common factors that might increase the production of the magnetic content were also investigated. By comparing the measured magnetic contamination of the drilling fluid samples and ditch magnet measurement data, it was possible to evaluate the efficiency of the ditch magnet system.

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Field Experience Using Flow Positioned Ditch Magnet Systems - Contribution to Efficient Drilling

Ånesbug,

Pallin,

Aase

et al. 2023

SPE Offshore Europe Conference &Amp; Exhibition

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The presence of magnetic debris in the drilling fluid has a detrimental effect on the drilling process. The BHA compass becomes shielded and most Logging While Drilling operations are affected. Magnetic particles will be present whenever no efficient method to remove these are used. The following text shows how removal of such contamination contributed to successfully drill 6624m horizontal 8 ½" section of in one run on with high average ROP on a North Sea field. Benchmarking of the flow positioned magnets with simpler systems has shown that it may be several times as effective in removal of magnetic debris than competing systems. Furthermore, this removal significantly eased the directional control during drilling. For the particular well the removal of magnetic debris was very effective. It was stated that due to the improved directional control they did not observe the severe whirl typically expected in long tangent sections. Directional control is known to be affected by the magnetic particle content in the drilling fluid. Neither was there any need for changing any logging tools during drilling. Such changing of logging tools is not uncommon because of agglomeration of metal on the measurement ports. Also, the lifetime of the turbine in the MWD increased partly because of less metallic debris in the drilling fluid. In the article it is summarised the experience of operating the ditch magnets along with an outline of the drilling performance. The amount of removed steel is quantified. The effect on directional drilling is assessed. At the same time, the workload to clean the magnets properly is shown as well as the need for the crew to operate the system properly.

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Removal of Magnetic Metallic Contamination – Improved Drilling Fluid Performance

Cited by 4 publications

References 18 publications

Efficient Removal of Magnetic Contamination From Drilling Fluids: The Effect on Directional Drilling

Efficient Removal of Magnetic Contamination From Drilling Fluids: The Effect on Directional Drilling

Measuring and Analyzing the Magnetic Content of Drilling Fluid

Field Experience Using Flow Positioned Ditch Magnet Systems - Contribution to Efficient Drilling

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