Drilling Hard and Abrasive Rock Efficiently, or Generating Quality Cuttings? You No Longer Have to Choose…

Desmette, Sebastian; Deschamps, Benoit; Birch, Ronald Martin; Naegel, M.; Essel, Philippe

doi:10.2118/116554-ms

Cited by 10 publications

(2 citation statements)

References 8 publications

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“…In view of the above conditions, a mass of related research has been carried out, and a mechanical microcoring PDC bit [9,10] is put forward to push the broken core column outward depending on the mechanical force of the rock. Tercel Corporation has developed a microcoring bit which can form a coring groove instead of cutting teeth in the central area of the bit, which improves the ROP and effectively solves the problem of difficult coring [11,12]. e bit developed by TOTAL and Diamond Drilling Services Company can produce microcores, which can not only ensure high drilling efficiency in hard formation drilling but also obtain high-quality cuttings [13].…”

Section: Introductionmentioning

confidence: 99%

Unit Experimental Study on Impact Crushing Rock of the Microcoring PDC Bit

Yang

Song

Huang

et al. 2019

Shock and Vibration

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In light of the situation of sliced or powdery cuttings produced by conventional PDC bit, it is found that they are not convenient for geological logging and stratification. The unit crushing experiment which contains two breaking forms (static-pressure breaking and impact) is conducted on core columns of sandstone, limestone, and granite. This experimental study showed the following: The breaking work ratio of the three core column types is much less than that of the flat rock. The height of the core column has little effect on the bit penetration rate, while core column diameter has greater effect on the bit penetration rate. The experimental results further indicate that a core column has been generated in the central area of the drill bit, which is beneficial to the volume breaking of the rock and can improve the rock-breaking efficiency of the drill bit. The microcoring bit is suitable for raising speed in soft, medium, and hard formations and is helpful for geological logging.

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Section: Introductionmentioning

confidence: 99%

Unit Experimental Study on Impact Crushing Rock of the Microcoring PDC Bit

Yang

Song

Huang

et al. 2019

Shock and Vibration

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“…The cutters incorporated in hard rock drilling bits are usually high abrasion resistant PDC cutters that are created with a process known as leaching that removes metal from the diamond. The leaching process increases the thermal stability of the PDC cutter by increasing the temperature at which the diamond thermally degrades, which enables the cutter to be engaged in high friction environments (Desmette et al 2008). The deployment of this technology and use of the new concepts and bit designing tools made it possible to significantly reduce the drilling time and cost associated in drilling the intermediate section in the Saudi Arabia deep gas wells.…”

Section: Introductionmentioning

confidence: 99%

Breakthrough PDC Technology Used in Saudi Arabia Deep Gas Wells to Significantly Reduce Drilling Time

et al. 2010

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Drilling the intermediate sections in the deep gas fields of Saudi Arabia is challenging because of a long, intricate geological sequence consisting of hard carbonates (limestone and dolomite) interbedded with anhydrite. Historically, the primary operator has attempted to drill the section using both roller cone tungsten carbide (TCI) and polycrystalline compact (PDC) technology. PDC bits provided better penetration rate and durability, as compared to TCI bits. However, several PDC bits were required to drill the section, which increased the time needed for drilling and tripping at relatively deep intervals. The increased time exposes the well to risks when the hole is open for long intervals.After further analyses and a systematic bit optimization process, three new PDC bit designs were created and used, which established new benchmarks in two of the deep gas fields. Meeting the objective of minimizing the number of bit trips by enhancing PDC bit performance and bit durability to drill longer intervals with a higher penetration rates required a new PDC bit technology in conjunction with optimized motor drive. To address the challenge, the operator, bit vendor, and other service companies worked together to develop an optimized solution to drill these sections.The paper reviews the findings of the study in drilling the intermediate sections in two of the challenging deep gas fields. The study shows that PDC bit damage from encountering harder stringers was the primary impediment to achieving better performance. The impediment was overcome by implementing the new cutter technology and drilling simulation software to optimize the cutting structure design. The paper demonstrates the improvement in the deep gas fields in Saudi Arabia by comparing the performance of the most recent wells, in which the new technologies were implemented, to the earlier wells to illustrate the significant time and drilling cost reduction.

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