破碎松软地层取心钻头孔底流场数值模拟及应用
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摘要
复杂地层取心和孔壁稳定一直是困扰地质钻探界的2大技术难题。以汶川地震科钻为例,5个钻孔都在断裂带上,地层极破碎、松软。针对部分孔段取心率低问题,设计一种新型阶梯式隔水底喷取心钻头,利用CFD技术对钻头孔底流场进行数值分析,优化钻头排水槽结构、泥浆性能和水力参数,寻找一种最佳组合,为提高岩心采取率、预防堵心,提高孔壁的稳定性奠定基础。
Coring and keeping the stability hole wall in complex formation are technical difficulties in geological drilling circles.In Wenchuan Earthquake Fault Scientific Drilling(WFSD),5 boreholes were in the fault zone and the formation was extremely broken and soft.A new type of stepped bottom jetting anti-erosion core bit was designed,numerical analysis was made on bottom flow field by CFD technology to optimize drainage groove structure,mud properties and hydraulic parameters in order to fine the best combination to lay foundations for core recovery rate improvement,core blockage prevention and higher hole wall stability.
Coring and keeping the stability hole wall in complex formation are technical difficulties in geological drilling circles.In Wenchuan Earthquake Fault Scientific Drilling(WFSD),5 boreholes were in the fault zone and the formation was extremely broken and soft.A new type of stepped bottom jetting anti-erosion core bit was designed,numerical analysis was made on bottom flow field by CFD technology to optimize drainage groove structure,mud properties and hydraulic parameters in order to fine the best combination to lay foundations for core recovery rate improvement,core blockage prevention and higher hole wall stability.
引文
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[3]王稳石,朱永宜,贾军,等.汶川地震断裂带科学钻探项目取心钻进技术[J].探矿工程(岩土钻掘工程),2012,39(9).
[4]朱海燕,王锡洲,刘时英,等.PDC钻头水力学研究最新进展[J].石油钻采工艺,2009,(10).
[5]李万平.计算流体力学[M].湖北武汉:华中科技大学出版社,2004.
[6]王福军.计算流体动力学分析—CFD软件原理与应用[M].北京:清华大学出版社,2011.
[7]李天太,孙正义,李琪.实用钻孔水力学计算与应用[M].北京:石油工业出版社,2002.
[8]黄红梅,翟应虎,王辉,等.实体PDC钻头流场数值模拟与实验验证[J].石油大学学报(自然科学版),2005,(6).
[9]博坤,殷琨,张春阳.反循环钻头结构仿真分析及试验研究[J].矿山机械,2008,36(23).
[10]胡郁乐,张晓西,张恒春,等.CFD在保真取心钻具结构优化设计中的应用[J].地质与勘探,2009,(9).
[11]孟庆鸿.松科一孔复杂地层取心钻具及泥浆优化设计和应用研究[D].北京:中国地质大学(北京),2011.
[12]赵远刚,邓伟,石少云.用于煤系软硬互层新型PDC取心钻头的设计与应用[J].探矿工程(岩土钻掘工程),2008,35(7).
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