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海洋深水钻井水基钻井液密度的预测 被引量:1

The Prediction of the Density of Water Base Drilling Fluids in Offshore Deep Water Drilling.
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摘要 在海洋深水钻井条件下,不同的海水深度和温度梯度环境将对钻井液密度产生影响。因此根据不同温度和压力条件下水基钻井液密度的测量结果,建立了温度、压力影响下的水基钻井液密度计算模型。 In offshore deep water drilling,the depths of water and the temperature gradients of the water body greatly affect the density of the drilling fluid used.This paper presented a model calculating the density of water base mud at different temperatures and pressures.
作者 胡友林 刘恒 向兴金
机构地区 长江大学石油工程学院
出处 《钻井液与完井液》 CAS 北大核心 2008年第6期4-5,共2页 Drilling Fluid & Completion Fluid
关键词 钻井液密度 计算模型 温度 压力 深水钻井 Mud density Calculation model Temperature Pressure Deep water drilling
分类号 TE254.1 [石油与天然气工程—油气井工程]
  • 相关文献

参考文献9

  • 1汤凤林,Б.Б.Кудряшов.俄罗斯南极冰上钻探技术[J].地质科技情报,1999,0(S1):4-7. 被引量:8
  • 2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
  • 3Hoberock L L, Thomas D C, Nickens H V. Bottomhole mud pressure variations due to compress-ibility and thermal effeets. JADC Drilling Technology Conference, Houston, 1982
  • 4Sorelle R R, JardlioiIn R A, Buckle Y P, et al. Mathe -matical field model predicts downhole densitychanges in static drilling fluids. SPE 11118,1982
  • 5Memordle W C, Bbland R GJR, Hauser Jr M. Effect of temperature and pressure on the density of drilling fluids. SPE 11114, 1982
  • 6Peters E J, Chenevert M E, Zhang C. A model for predicting the density of oil-based muds at highpressures and temperatures. SPE Drilling Engineering, 1990:141-148
  • 7Kutasov I M. Empirical correlation determines down hole mud density. Oil&Gas Journal, 1988,22(12):61-63
  • 8BarantholC, Alfenore J, Cotterll M D, et al. Determination of hydrostatic pressure and dynamic ECD by computer models and field measurements on the directional HPHT well 221300-13. SPE 29430,1995
  • 9White W W, Zamor A M, Svboda C F. Down-hole measurements of synthetic based drilling fluid in offshore well quantify dynamic pressure and temperature distributions. SPE 35057,1996

二级参考文献11

  • 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41

同被引文献11

引证文献1

二级引证文献2

钻井液与完井液
2008年 第6期

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