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实验设计方法在气井完井管柱选择中的应用 被引量:2

Application of Experimental Design in Gas Well Completion String Selection
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摘要 当深层高温高压气井采用酸压措施生产一体化管柱完井投产时,既要防止管径太小酸化压裂时摩阻太大导致井口施工压力太大,影响井口的安全性,也要防止管径太大井筒携液能力差,使气井过早停喷,因此需要选择合理的完井管柱或完井管柱组合。通过利用实验设计软件对影响气井井口施工压力的4个主要参数进行优化设计,在优化设计的基础上对设计出的14种参数组合进行了井口施工压力计算,并进一步回归出了井口施工压力计算方程,经与实际计算的结果对比,模型的平均相对误差为0.24%,同时还利用优化设计得到了不同井深不同管柱组合下的井口施工压力曲线图版,可以从图版上很直观地选择管柱。运用该方法可以计算不同参数组合下的井口施工压力并进行敏感性分析,也可以对新井进行管柱优化设计。 When the acid fracturing production integrated string is used in a deep well with high temperature and high pressure, it is necessary to avoid the small size or large size pipe diameter. The big wellhead working pressure which is produced by big friction resulted from small tubing size will take wellhead safety risk when the pipe diameter is very small;the poor ability of wellbore loading liquid will make the gas well quit flowing earlier than expected while the pipe diameter is very large. Thus, it is required to select the reason- able selection of tubing string. In this paper, we use the experiment design software to optimize four main parameters of tubing string composition, well depth, construction displacement and fracture propagation pressure gradient which affect gas well wellhead working pressure. Then we calculate the wellhead working pressures based on the designed 14 parameter combination, and get the regression equation for wellhead working pressure. Finally we obtain the wellhead working pressure curve for different parameter combina- tions by using experimental design. It is advantage to intuitively choose tubing string. The average percent difference is 0.24% between model result and the actual value. So, the experimental design is available to calculate the wellhead working pressure resulted from different parameters,to perform sensitivity analysis, and to design tubing string for new well.
作者 刘志森 江厚顺
机构地区 长江大学石油工程学院
出处 《天然气地球科学》 EI CAS CSCD 北大核心 2012年第4期780-783,共4页 Natural Gas Geoscience
关键词 实验设计 完井管柱 摩阻 回归 井口施工压力 Experimental design Completion string Friction Regression Wellhead working pressure
分类号 TE257 [石油与天然气工程—油气井工程]
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参考文献6

二级参考文献16

  • 1赵先进,姜青梅.用动能因子确定产水气井合理工作制度[J].断块油气田,1996,3(4):64-67. 被引量:28
  • 2Turner R G, Hubbard M G, Dukler A E. Analysis and prediction of minimum flow rate for the continuous removal of liquids from gas wells[J].JPT, 1969,21 (9) : 1475-1481.
  • 3Guo B, Ghalambor A, Xu C. A systematic approach to predict liquid loading in gas welIs[A].SPE 94081,2005:17-19.
  • 4张钧,余克让,陈壁,等.海洋完井手册:下册[M].北京:石油工业出版社.1998:392-430.
  • 5Yelen B, Castellini A, Guyaguler B, et al. A comparison study on experimentl design and response surface methodologies [J] . SPE93347, 2005.
  • 6Montgomery D C. Design and analysis of experiments [M] . 5th Edition. New York: John Wiley and Sons, 2001.
  • 7Energy Resources Conservation Board. Theory and Practice of the Testing of Gas Wells[M]. Third Edition, 1975.
  • 8Craft B C, Hawkins M F. Applied Petroleum Reservoir Engineering[M]. Englewood Cliffs New Jersey, Prentice-Hall,Inc. 1959.
  • 9П∪РВРДЯНАМ 张永一 赵碧华译.地下流体力学[M].北京:石油工业出版社,1992..
  • 10陈元千.确定气井绝对无阻流量的简单方法.天然气工业,1987,7(1):59-63.

共引文献72

同被引文献22

  • 1冯国庆,张烈辉,李允.储层空间连通性模拟[J].天然气工业,2004,24(11):97-99. 被引量:6
  • 2胡宗全.砂体连通性评价在隐蔽圈闭预测中的应用[J].新疆石油地质,2003,24(2):167-170. 被引量:11
  • 3尹艳树,吴胜和.储层随机建模研究进展[J].天然气地球科学,2006,17(2):210-216. 被引量:59
  • 4张枫,李治平,董萍,李东淼,秦建敏,陈松.最优开发指标确定方法及其在某低渗气藏的应用[J].天然气地球科学,2007,18(3):464-468. 被引量:4
  • 5Pranter M J,Sommer N K.Static connectivity of fluvial sandstones in a lower coastal-plain setting:An example from the upper Cretaceous lower Williams Fork Formation,Piceance Basin,Colorado[J].AAPG Bulletin,2011,95(6):899-923.
  • 6Pringle J K,Westerman A R,Clark J D,et al.3-D high-resolution digital models of outcrop analog study sites to constrain reservoir model uncertainty:An example from Alport Castles,Derby shire[J].Petroleum Geoscience,2004,10(4):343-352.
  • 7King P R.The connectivity and conductivity of over-lapping sand bodies[M]//North Sea Oil and Gas Reservoirs Ⅱ.London:Graham and Trotman,1990:353-362.
  • 8Hovadik J M,Larue D K.Static characterizations of reservoirs:Refining the concepts of connectivity and continuity[J].Petroleum Geoscience,2007,13(3):195-211.
  • 9Allen J R L.Studies in fluviatile sedimentation:An exploratory quantitative model for the architecture of avulsion-controlled alluvial sites[J].Sedimentary Geology,1978,21:129-147.
  • 10Donselaar M E,Overeem I.Connectivity of fluvial point-bar deposits:An example from the Miocene Huesca fluvial fan,Ebro Basin,Spain[J].AAPG Bulletin,2008,92:1109-1129.

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天然气地球科学
2012年 第4期

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