内喷孔式反循环钻头结构优化设计及CFD模拟分析 |
投稿时间:2012-11-02 修订日期:2012-11-02 点此下载全文 |
引用本文:于航,殷琨,罗永江,等.内喷孔式反循环钻头结构优化设计及CFD模拟分析[J].钻探工程,2013,40(1):49-52.YU Hang,YIN Kun,LUO Yong-jiang,et al. Optimal Design of Internal Jet Orifice Reverse Circulation Bit and CFD Simulation Analysis[J]. Drilling Engineering, 2013,40(1):49-52. |
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基金项目:中国地质调查局地质调查项目(DK0003042) |
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中文摘要:为解决贯通式潜孔锤反循环连续取心(样)技术在钻进“硬、脆、碎”等复杂地层时反循环排不出渣或者排渣不彻底的现象,在现有贯通式潜孔锤反循环连续取心钻头结构的基础上,优化设计一种新型内喷孔式反循环钻头,能在孔底形成强有力的多股引射抽吸流场,并模拟分析了内喷孔轴线水平偏角和内喷孔轴线与钻头中心的偏距2个结构参数对新型反循环钻头结构抽吸能力的影响。通过模拟分析的验证,此种反循环钻头的结构更加简单,反循环效果比较优良。 |
中文关键词:反循环 内喷孔 反循环取心钻头 CFD模拟分析 |
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Optimal Design of Internal Jet Orifice Reverse Circulation Bit and CFD Simulation Analysis |
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Abstract:With hollow-through DTH hammer reverse circulation continuous coring (sample) technology, slagging or halfway slagging while drilling in the “hard, brittle, broken” complex formations are often encountered; to solve these problems, a new type of internal jet orifice reverse circulation bit was optimally designed on the basis of the existing hollow-through DTH hammer RC bit, which can form the powerful multilevel injection-suction fluid field. The article also imitates and analyzes the influence of 2 structural parameters of internal jet orifice level angle and the offset distance between internal jet orifice axis & the bit midpoint to the suction capacity of new RC bit structure. The simulation analysis has verified that the structure of such a RC bit is simpler with good reverse circulation effect. |
keywords:reverse circulation internal jet orifice reverse circulation coring bit CFD simulation analysis |
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