石油矿场机械
石油礦場機械
석유광장궤계
OIL FIELD EQUIPMENT
2014年
8期
8-12
,共5页
吴欣袁%张文华%冯强%杨文领%游润仙
吳訢袁%張文華%馮彊%楊文領%遊潤仙
오흔원%장문화%풍강%양문령%유윤선
钻柱%水力振荡器%动力学%分析
鑽柱%水力振盪器%動力學%分析
찬주%수력진탕기%동역학%분석
drill stem%hydraulic oscillator%dynamics%analysis
在复杂结构井钻井过程中,由于摩阻转矩、粘滑、托压等影响,导致难以达到预定的靶点。近年来研制了一些辅助振动工具,例如水力振荡器、扭转冲击器等。这些工具的使用起到了提升钻进效率、延长水平段长度的作用。建立了在轴向激励作用下钻柱的瞬态动力学模型,该模型包括1个一维动力学模型和1个三维静态模型。运用该模型可预测复杂三维井眼轨迹和激励作用下钻柱的力学行为。分析了振幅、频率、摩擦因数、传播距离等影响因素,推导出了加入振动激励后钻柱和井壁之间的表观摩擦因数,并计算了振荡类工具的合理安放位置。该模型和计算结果为水力振荡器的设计和现场应用提供了理论依据。
在複雜結構井鑽井過程中,由于摩阻轉矩、粘滑、託壓等影響,導緻難以達到預定的靶點。近年來研製瞭一些輔助振動工具,例如水力振盪器、扭轉遲擊器等。這些工具的使用起到瞭提升鑽進效率、延長水平段長度的作用。建立瞭在軸嚮激勵作用下鑽柱的瞬態動力學模型,該模型包括1箇一維動力學模型和1箇三維靜態模型。運用該模型可預測複雜三維井眼軌跡和激勵作用下鑽柱的力學行為。分析瞭振幅、頻率、摩抆因數、傳播距離等影響因素,推導齣瞭加入振動激勵後鑽柱和井壁之間的錶觀摩抆因數,併計算瞭振盪類工具的閤理安放位置。該模型和計算結果為水力振盪器的設計和現場應用提供瞭理論依據。
재복잡결구정찬정과정중,유우마조전구、점활、탁압등영향,도치난이체도예정적파점。근년래연제료일사보조진동공구,례여수력진탕기、뉴전충격기등。저사공구적사용기도료제승찬진효솔、연장수평단장도적작용。건립료재축향격려작용하찬주적순태동역학모형,해모형포괄1개일유동역학모형화1개삼유정태모형。운용해모형가예측복잡삼유정안궤적화격려작용하찬주적역학행위。분석료진폭、빈솔、마찰인수、전파거리등영향인소,추도출료가입진동격려후찬주화정벽지간적표관마찰인수,병계산료진탕류공구적합리안방위치。해모형화계산결과위수력진탕기적설계화현장응용제공료이론의거。
In the process of drilling complex structure wells,because the friction& torque,stick-slip,prop pressure and other effects,making it difficult to achieve the desired targets.In recent years,a number of auxiliary vibrating tools were developed,such as hydraulic oscillators,reversing shock,etc.Using these tools can improve drilling efficiency,prolonging the length of the horizon-tal section.A role in the axial excitation transient dynamics model drillstring was established.The model consists of a one-dimensional dynamic model and a three-dimensional static model.The model is applied to complex three-dimensional trajectory prediction and incentives under the me-chanical behavior of the drill string.The amplitude,frequency,friction coefficient,transmission distance and other factors were analyzed,and deduced after adding vibration excitation between the drill string and the borehole wall apparent friction coefficient.And reasonable oscillation tools placement recommendations are put forward.The model and calculation results provide a theoreti-cal basis for the hydraulic oscillator of this type of tool design and field applications.