| 超深井长裸眼段岩屑运移规律及特征分析 |
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| 引用本文: | 武治强,辛雪松,庞照宇,杨鹏飞,毛良杰. 超深井长裸眼段岩屑运移规律及特征分析[J]. 科学技术与工程, 2023, 23(11): 4596-4606 |
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| 作者姓名: | 武治强 辛雪松 庞照宇 杨鹏飞 毛良杰 |
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| 作者单位: | 中海石油中国有限公司北京研究中心;中海石油中国有限公司北京研究中心;西南石油大学 油气藏地质与开发国家重点实验室;中海石油中国有限公司北京研究中心 |
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| 基金项目: | 国家自然科学基金《基于钻杆接触碰撞作用的深水钻井隔水管动力特性与磨损机理研究》(52174006);《文昌油田群井壁稳定性级安全钻井工艺研究》(CCL2022RCPS0139PSN)。 |
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| 摘 要: | 大位移井在深部地层的油气藏开采中得到了广泛应用,但同时面临着井眼清洁不充分、托压、卡钻等一系列问题,为了更好地指导超深大位移井的井眼清洁工作,需要进一步对超深大位移井的长裸眼段的岩屑动态运移特性进行研究。建立了考虑实际井眼轨迹、流体压降及悬浮层颗粒扩散的大位移井两层岩屑运移动态模型。该模型利用有限差分法进行求解,并利用已有文献的实验结果进行验证。对钻井和冲洗两种工况进行模拟研究,认识钻井液排量、钻井液密度、机械钻速、井眼半径等方面对岩屑运移的影响。研究结果表明:在钻井工况下,井斜角越小的井段,岩屑越难以沉积,且钻井液排量越高、钻井液密度越高、井眼尺寸越小、钻速越低,岩屑运移的效率越高;在冲洗工况下,井斜角越小,冲蚀效果越差,且钻井液排量越高、钻井液密度越高、井眼尺寸越小,岩屑运移的效率越高。研究结果对保障超深大位移井良好的井眼清洁具有指导意义。
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| 关 键 词: | 超深大位移井 岩屑运移 井眼轨迹 动态模型 |
| 收稿时间: | 2022-08-09 |
| 修稿时间: | 2023-04-04 |
Analysis of cuttings transport law and characteristics in long open hole section of ultra-deep well |
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| Wu Zhiqiang,Xin Xuesong,Pang Zhaoyu,Yang Pengfei,Mao Liangjie. Analysis of cuttings transport law and characteristics in long open hole section of ultra-deep well[J]. Science Technology and Engineering, 2023, 23(11): 4596-4606 |
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| Authors: | Wu Zhiqiang Xin Xuesong Pang Zhaoyu Yang Pengfei Mao Liangjie |
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| Affiliation: | Beijing Research Center of CNOOC China Co,LTD,Beijing,;Beijing Research Center of CNOOC China Co,LTD,Beijing;State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation,Southwest Petroleum University,Sichuan,Chengdu,;Beijing Research Center of CNOOC China Co,LTD,Beijing |
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| Abstract: | Extended reach wells have been widely used in oil and gas reservoir exploitation in deep formations. However, a series of downhole problems, such as inefficient hole cleaning, back pressure, and pipe sticking, are also encountered. To better guide hole cleaning, the dynamic characteristics of cuttings transport in long open hole section of ultra-deep extended reach wells must be studied further. According to the law of mass conservation and the momentum theorem, a two-layer dynamic cuttings transport model of extend reach wells is established, considering the actual hole trajectory, fluid pressure drop, and particle diffusion in the suspension layer. The model is solved by the finite difference method and verified by the experimental results in the existing literature. This study simulates the process of drilling and well washing and analyzes the influence of the drilling fluid flow rates, the drilling fluid density, the rate of penetration (ROP), and the wellbore diameter on cuttings transport. Research results demonstrate that, under drilling conditions, cuttings are difficult to deposit in the section with a small inclination angle, the degree of hole cleaning increases with the flow rates and the drilling fluid density, and the smaller wellbore diameter is, the lower the ROP is, which is helpful in hole cleaning. Under well washing conditions, the smaller the inclination angle of the well is, the worse the erosion effect is, and the smaller wellbore diameter is, the higher the efficiency of cuttings transport is; the degree of hole cleaning increases with the flow rates and the drilling fluid density. The research results have a guiding significance for ensuring the good hole cleaning of ultra-deep extended reach wells. |
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| Keywords: | Ultra-deep extended reach well Cutting transport Hole trajectory Dynamic model |
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