期刊文献+

高温高压对超深井钻井液密度的影响 被引量:15

Effects on high temperature and pressure density
下载PDF
导出
摘要 井眼内钻井液密度是进行各种钻井施工和设计的必要的基础数据,高温高压环境下的超深井钻井液密度不再是一个常数,而是随温度和压力的变化而变化,因此有必要对超深井钻井中高温高压对钻井液密度的影响进行研究。利用高温高压钻井液密度模拟实验装置,采用胜科1井现场配制的超深井钻井液,测量了温度、压力对超深井水基钻井液密度的影响特性,根据测量结果,建立了温度、压力影响下的水基钻井液密度预测模型。结果表明,水基钻井液密度受温度变化影响比受压力变化影响大,随着温度、压力的增大,钻井液密度降幅较大,同时,高温高压下钻井液更具有可压缩性。建立的预测模型为合理确定现场钻井液密度范围提供了一种新方法。 In drilling operation,drilling fluid density in hole,which is not a constant but changing varying from temperature and pressure in super deep well under high temperature pressure condition,is a necessary basic data in various drilling construction and design.Therefore,it is necessary to study high temperature and pressure effects on drilling fluid density in super deep well.Influencing characteristics of temperature and pressure on water-based drilling fluid density in super deep well are measured by simulating experimental device of high temperature and pressure drilling fluid density and field preparation drilling fluid of super deep well in Shengke No.1 well.According to measuring results,density prediction model for water based drilling fluid under temperature and pressure influence is established.It shows that,the temperature effect is bigger than pressure effect on density of water based drilling fluid,and the decreasing amplitude of drilling fluid density is bigger with temperature and pressure enlarging.Meanwhile,the drilling fluid has better compressibility under high temperature and pressure.The prediction model established provides a new method for reasonable density range determination of field drilling fluid.
出处 《石油钻采工艺》 CAS CSCD 北大核心 2007年第5期85-87,共3页 Oil Drilling & Production Technology
基金 山东省自然科学基金资助项目(Y2006F66)部分研究成果
关键词 钻井液密度 温度 压力 深井 drilling fluid density temperature pressure deep well
  • 相关文献

参考文献3

  • 1管志川.温度和压力对深水钻井油基钻井液液柱压力的影响[J].石油大学学报(自然科学版),2003,27(4):48-52. 被引量:35
  • 2HOBEROCK L L, THOMAS D C, Nickens H V. Bottom hole mud pressure variations due to compressibility and thermal effects [ C ]. Paper presented at the 1982 IADC drilling Technology Conference, Houston, 1982:9 - 11.
  • 3SORELLE R R, JARDIOLIN R A, BUOKLEY P. Mathematical field model predicts downhole density changes in static drilling fluids [ R ]. SPE 11 118,1982 : 1 - 11.

二级参考文献10

  • 1CHOE J, JUVKAM WOLD H C, Riserless drilling:concepts, applications, advantages, disadvantages and limitations [ R ]. CADE/CAODC Drilling Conference,Calgary, Alberta, 1997.
  • 2HOBEROCK L L, THOMAS D C, NICKENS H V.Bottom-hole mud pressure variations due to compressibility and thermal effects[R]. IADC Drilling Technology Conference, Houston, 1982.
  • 3SORELLE R R, JARDIOLIN R A, BUCKLEY P, et al. Mathematical field model predicts downhole density changes in static drilling fluids[R]. SPE 11118,1982.
  • 4MCMORDIE W C, JR BLAND R G, HAUSER J M.Effect of temperature and pressure on the density of drilling fluids[R]. SPE 11114,1982.
  • 5PETERS E J, CHENEVERT M E, ZHANG C. A model for predicting the density of oil-based muds at high pressures and temperatures [J ]. SPE Drilling Engineering, June, 1990:141 - 148.
  • 6KUTASOV I M. Empirical correlation determines downhole mud density[J]. Oil & Gas Journal, 1988,22(12):61 - 63.
  • 7BARANTHOL C, ALFENORE J, CDTTERILL M D,et al. Determination of hydrostatic pressure and dynamic ECD by computer models and field measurements on the directional HPHT well 22130C- 13 [R]. SPE 29430,1995.
  • 8SALAMA M M. Some challenges and innovations for deepwater developments[R]. Offshore Technology Conference,Houston, Texas, 1997.
  • 9LOPES C A, BOURGOYNE A T Jr. Feasibility study of a dual density mud system for deepwater drilling operations [ R ]. Offshore Technology Conference, Houston,Texas, 1997.
  • 10WHITE W W, ZAMORA M, SVOBODA C F. Downhole measurements of synthetic-based drilling fluid in off shore well quantify dynamic pressure and temperature distrlbutions[R]. SPE 35057,1996.

共引文献34

同被引文献159

引证文献15

二级引证文献71

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部