天然气工业
天然氣工業
천연기공업
NATURAL GASINDUSTRY
2010年
1期
83-85
,共3页
朱礼平%肖国益%廖忠会%王希勇%黎昌华
硃禮平%肖國益%廖忠會%王希勇%黎昌華
주례평%초국익%료충회%왕희용%려창화
河坝区块%深井%大斜度井%模拟下套管%临界井斜角%井斜角
河壩區塊%深井%大斜度井%模擬下套管%臨界井斜角%井斜角
하패구괴%심정%대사도정%모의하투관%림계정사각%정사각
Heba block%deep well%high-angle well%simulation of casing running%critical inclination%inclination
为解决河坝区块大斜度定向井在实钻过程中由于井眼轨迹不规则、盐青地层缩径,大斜度井段下套管作业的实际难题,在调研大斜度井下套管方法的基础上,结合河坝区块大斜度井特点,建立了井眼、套管相容性模型并总结出下套管过程的模拟步骤:①依据收集的实钻井眼资料,计算套管串和井眼两种最小曲率半径,分析无接箍套管能否下入井眼;②针对实际套管接箍或扶正器尺寸,以实钻井眼数据反算出允许通过的套管串的不变形长度;③分析不同管串所对应.的不变形长度与井眼曲率的关系,然后确定出与套管柱刚度相当的通井管柱结构.模拟下套管技术在HBl-1D等井的成功应用,为大斜度井现场模拟下套管提供了理论依据.
為解決河壩區塊大斜度定嚮井在實鑽過程中由于井眼軌跡不規則、鹽青地層縮徑,大斜度井段下套管作業的實際難題,在調研大斜度井下套管方法的基礎上,結閤河壩區塊大斜度井特點,建立瞭井眼、套管相容性模型併總結齣下套管過程的模擬步驟:①依據收集的實鑽井眼資料,計算套管串和井眼兩種最小麯率半徑,分析無接箍套管能否下入井眼;②針對實際套管接箍或扶正器呎吋,以實鑽井眼數據反算齣允許通過的套管串的不變形長度;③分析不同管串所對應.的不變形長度與井眼麯率的關繫,然後確定齣與套管柱剛度相噹的通井管柱結構.模擬下套管技術在HBl-1D等井的成功應用,為大斜度井現場模擬下套管提供瞭理論依據.
위해결하패구괴대사도정향정재실찬과정중유우정안궤적불규칙、염청지층축경,대사도정단하투관작업적실제난제,재조연대사도정하투관방법적기출상,결합하패구괴대사도정특점,건립료정안、투관상용성모형병총결출하투관과정적모의보취:①의거수집적실찬정안자료,계산투관천화정안량충최소곡솔반경,분석무접고투관능부하입정안;②침대실제투관접고혹부정기척촌,이실찬정안수거반산출윤허통과적투관천적불변형장도;③분석불동관천소대응.적불변형장도여정안곡솔적관계,연후학정출여투관주강도상당적통정관주결구.모의하투관기술재HBl-1D등정적성공응용,위대사도정현장모의하투관제공료이론의거.
When drilling high-angle directional wells at the Heba block, the casing running operation often becomes problematic at high-angle sections due to the irregular trajectory and undergauged gypsum section. Based on the investigation of the casing running methods for high-angle wells, and in combination with the features of high-angle wells at the Heba block, a wellbore-casing compatibility model is set up, and the casing running simulating procedures are summarized as follows: a. to calculate the minimum radium curvature of casing string and the wellbore according to the collected drilling data, so as to determine whether the no-coupling casings can be run downhole smoothly or not; b. to get the maximum allowable length of undistorted casing string through reverse calculation from the actual drilling data, with the sizes of the casing couplings and centralizers to be actually used considered; and c. to decide the drifting assembly configuration which has a rigidity equivalent to that of the casing string, based on the analysis of the relationship between the undistorted length and the welbore curvature. The successful application of this simulation at the well HB1-1D has provided a theoretic evidence for the simulation of casing running in high-deep wells.