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- Title
神府区块深部煤层气钻完井关键技术及应用.
- Authors
王鹏; 李斌; 王昆剑; 张红杰; 张迎春; 杜佳; 张林强; 王晓琪; 苏海岩; 陈光辉; 杨睿月
- Abstract
[Objective] Deep coal seams exhibit high in-situ stress, moderate to high temperatures, ultra-low permeability, high compressibility, and significant heterogeneity, leading to the absence of mature technical systems for their exploitation presently. The complex geological characteristics of deep coal seams pose new technical challenges to their drilling and completion engineering, rendering it urgent to tackle theoretical and technical challenges in drilling and completion tailored to the geological characteristics of deep coal seam reservoirs. The purpose is to achieve the reserve growth and production addition of hydrocarbons in order to guarantee China's strategic energy security. [Methods] Based on the pilot tests for deep coalbed methane (CBM) production in the Shenfu block along the eastern margin of the Ordos Basin, a set of critical techniques have been developed for efficient drilling and completion. [Results and Conclusions] (1) Given the low wellbore stability, low drilling rates, and prolonged drilling cycles of deep coal seams, integrated and efficient drilling of deep coal seams has been achieved by optimization using a second-spud-in casing program, the optimal drilling fluid system, and "one-trip drilling" technique, combined with fine-scale control of borehole trajectories. Such technology can boost the construction of innovative, optimized, and efficient well platforms. (2) To address the challenge posed by the complex geological characteristics and low hydrocarbon production through conventional fracturing of deep coal seams, a composite extremely large-scale fracturing technology system has been developed, which centers on directional perforation, pre-acid to reduce fracturing pressure, multi-cluster closely spaced fracturing within intervals, large-scale fracturing at high injection rates of fracturing fluids, integrated viscosity-variable slickwater, temporary plugging and diverting, and proppants with multiple grain sizes. (3) Following the work philosophy of one strategy for one block and global optimization, a factory drilling and completion operation mode for a stereoscopic well pattern has been designed, with the zipper fracturing mode manifesting the best performance at an optimal horizontal well spacing of 350 m. (4) The high industrial gas flow from the commingled production of deep CBM and tight gas proves that multi-gas commingled production serves as a significant measure to enhance the production efficiency of unconventional natural gas along the eastern margin of the Ordos Basin. It is expected that the findings of this study will provide theoretical guidance and practical experience for the efficient drilling and completion techniques for deep coal seams in the Ordos Basin.
- Subjects
COALBED methane; FRACTURING fluids; DRILLING fluids; GAS flow; NATURAL gas
- Publication
Coal Geology & Exploration, 2024, Vol 52, Issue 8, p44
- ISSN
1001-1986
- Publication type
Article
- DOI
10.12363/issn.1001-1986.24.01.0079