花岗岩套管井中新型微型涡轮钻井技术的全尺寸现场试验概念验证

IF 3.2 3区工程技术 Q1 ENGINEERING, PETROLEUM SPE Journal Pub Date : 2023-11-01 DOI:10.2118/218378-pa

Niklas Geissler, Florian Garsche, Vitalii Samus, Berker Polat, Francesca Di Mare, Rolf Bracke

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引用次数: 0

摘要

地热项目勘探风险高，往往达不到所要求的经济产量。油气行业的增产方法，如径向喷射钻井(RJD)，可以经济有效地在主井眼周围形成流动通道，但由于储层特别硬，通常不适用于地热应用。因此，一种名为微型涡轮钻井(MTD®)的新技术已经被开发出来，该技术可以从套管井眼钻进微型侧钻，甚至可以钻进非常坚硬的储层岩石。该方法基于RJD操作的原则。然而，代替喷射喷嘴，微钻涡轮是用来驱动钻头机械钻岩石。该研究展示了MTD概念验证的结果，该研究在瑞士的BedrettoLab进行，深度达1053英尺(321米)的花岗岩中。

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Proof of Concept in a Full-Scale Field Test for the Novel Micro-Turbine Drilling Technology from a Cased Borehole in Granite Rock

Summary Exploration risks of geothermal projects are high, as required economic production rates are often not achieved. Stimulation methods from the oil and gas industry, such as radial jet drilling (RJD), which can be used to cost-effectively create flow paths around a main borehole, are usually not applicable in geothermal applications due to especially hard reservoir formations. Because of that, a novel technology called micro-turbine drilling (MTD®) has been developed, which allows for the drilling of micro-sidetracks from cased boreholes even into very hard reservoir rock. The approach is based on the principles of the RJD operation. However, instead of a jetting nozzle, a microdrilling turbine is used to drive a bit that mechanically drills rock. This study presents the results of the proof of concept for MTD, which was conducted in the BedrettoLab in Switzerland at a depth of up to 1,053 ft (321 m) in granite rock.

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来源期刊

SPE Journal 工程技术-工程：石油

CiteScore

7.20

自引率

11.10%

发文量

229

审稿时长

4.5 months

期刊介绍： Covers theories and emerging concepts spanning all aspects of engineering for oil and gas exploration and production, including reservoir characterization, multiphase flow, drilling dynamics, well architecture, gas well deliverability, numerical simulation, enhanced oil recovery, CO2 sequestration, and benchmarking and performance indicators.