[1] |
汪海阁,刘希圣. 水平井钻井液携岩机理研究[J]. 钻采工艺,1996,19(2):10-15.WANG Haige,LIU Xisheng. Study on cuttings transport mechanism of drilling fluid in horizontal wells[J]. Drilling & Production Technology,1996,19(2):10-15.
|
[2] |
HOPKINS C J,LEICKSENRING R A. Reducing the risk of stuck pipe in the Netherlands[C].SPE 29422, 1995.
|
[3] |
CHO H,SHAH S N,OSISANYA S O. A threelayer modeling for cuttings transport with coiled tubing horizontal drilling[C]. SPE 63269,2000.
|
[4] |
NGUYEN D,RAHMAN S S. A three-layer hydraulic program for effective cuttings transport and hole cleaning in highly deviated and horizontal wells[C].SPE 51186, 1998.
|
[5] |
MANJULA E V P J,ARIYARATNE W K H, RATNAYAKE C,et al. A review of CFD modelling studies on pneumatic conveying and challenges in modelling offshore drill cuttings transport[J]. Powder Technology,2017,305:782-793.
|
[6] |
AZAR J J,SANCHEZ R A. Important issues in cuttings transport for drilling directional wells[C]. SPE 39020, 1997.
|
[7] |
龙政军. 岩屑沉降速度计算方法[J]. 石油钻探技术, 1991,19(1):57-59.LONG Zhengjun. Methods for calculating the settlement velocity of cuttings[J].Petroleum Drilling Techniques, 1991, 19(1):57-59.
|
[8] |
NEWITT D M,RICHARDSON J F,ABBOT M,et al. Hydraulic conveying of solids in horizontal pipes[J]. Transactions of the Institution of Chemical Engineers, 1955,33:93-113.
|
[9] |
刘希圣,郑新权,丁岗. 大斜度井中岩屑床厚度模式的研究[J]. 石油大学学报(自然科学版),1991,15(2):28-35. LIU Xisheng, ZHENG Xinquan, DING Gang. Study on the model of cuttings bed thickness in highly-deviated wells[J]. Journal of University of Petroleum (Edition of Natural Science),1991,15(2):28-35.
|
[10] |
LARSEN T I,PILEHVARI A A,AZAR J J. Development of a new cuttings transport model for highangle wellbores including horizontal wells[C]. SPE 25872,1993.
|
[11] |
MALEKZADEH N, MOHAMMADSALEHI M. Hole cleaning optimization in horizontal wells, a new method to compensate negative hole inclination effects[C]. SPE 143676,2011.
|
[12] |
汪海阁,刘希圣,丁岗. 水平井段岩屑床厚度模式的建立[J]. 石油大学学报(自然科学版),1993,17(3):25-31. WANG Haige,LIU Xisheng,DING Gang. The model of cuttings bed thickness in horizontal well section[J]. Journal of University of Petroleum (Edition of Natural Science),1993,17(3):25-31.
|
[13] |
周风山,蒲春生. 水平井偏心环空中岩屑床厚度预测研究[J]. 石油钻探技术,1998,26(4):17-19.ZHOU Fengshan,PU Chunsheng. Study on predication of cuting bed thickness in eccentric annular in horizontal well[J].Petroleum Drilling Techniques,1998,26(4):17-19.
|
[14] |
DUAN M Q,MISKA S,YU M J. Critical conditions for effective sand-sized solids transport in horizontal and high-angel wells[C]. SPE 106707,2007.
|
[15] |
OZBAYOGLU M E,SAASEN A,SORGUN M,et al. Estimating critical velocity to prevent bed development for horizontal inclined wellbores[C]. SPE/IADC 108005, 2007.
|
[16] |
OZBAYOGLU M E,SORGUN M, SAASEN A,et al. Hole cleaning performance of light-weight drilling fluids during horizontal underbalanced drilling[J].Journal of Canadian Petroleum Technology,2010,49(4):21-26.
|
[17] |
OZBAYOGLU M E,SAASEN A,SORGUN M,et al. Effect of pipe rotation on hole cleaning for water-based drilling fluids in horizontal and deviated wells[C]. IADC/SPE 114965,2008.
|
[18] |
宋洵成,管志川,陈绍维. 斜井岩屑运移临界环空流速力学模型[J]. 中国石油大学学报(自然科学版), 2009,33(1):53-56,63. SONG Xuncheng,GUAN Zhichuan,CHEN Shaowei. Mechanics model of critical annular velocity for cuttings transportation in deviated well[J]. Journal of China University of Petroleum (Edition of Natural Science), 2009,33(1):53-56,63.
|
[19] |
陈修平,王明波,仲冠宇. 大斜度井段小尺寸岩屑临界再悬浮速度力学模型[J]. 断块油气田,2013,20(4):498-501.CHEN Xiuping,WANG Mingbo,ZHONG Guanyu. Mechanics model of critical re-suspension velocity for small-sized cuttings transportation in hole section with high inclination[J].Fault-Block Oil and Gas Field,2013, 20(4):498-501.
|
[20] |
WEI N,MENG Y F,LI G,et al. Cuttings transport models and experimental visualization of underbalanced horizontal drilling[J].Mathematical Problems in Engineering,2013, Article ID 764782:1-6.
|
[21] |
SORGUN M. Simple correlations and analysis of cuttings transport with newtonian and non-newtonian fluids in horizontal and deviated wells[J]. Journal of Energy Resources Technology,2013,135(3):032903.
|
[22] |
相恒富,孙宝江,李昊,等. 大位移水平井段岩屑运移实验研究[J]. 石油钻采工艺,2014,36(3):1-6.XIANG Hengfu,SUN Baojiang,LI Hao,et al. Experimental research on cuttings transport in extendedreach horizontal well[J].Oil Drilling & Production Technology,2014,36(3):1-6.
|
[23] |
SUN B,XIANG H,LI H,et al. Modeling of the critical deposition velocity of cuttings in an inclinedslimhole annulus[J].SPE Journal,2017,22(4):1213-1224.
|
[24] |
TOMREN P H,IYOHO A W,AZAR J J. Experimental study of cuttings transport in directional wells[J]. SPE Drilling Engineering,1986,1(1):43-56.
|
[25] |
FORD J T,PEDEN J M,OYENEYIN E G,et al. Experimental investigation of drilled cuttings transport in inclined boreholes[C]. SPE 20421,1990.
|
[26] |
GAVIGNET A A,SOBEY J J. A model for the transport of cuttings in highly deviated wells[C]. SPE 15417, 1986.
|
[27] |
MARTINS A L,COSTAPINO SANTANA C. Evaluation of cuttings transport in horizontal and near horizontal wells-A dimensionless approach[C]. SPE 23643,1992.
|
[28] |
DORON P,GRANICA D G,BARNEA D. Slurry flow in horizontal pipes-experimental and modeling[J]. International Journal of Multiphase Flow,1987,13(4):535-547.
|
[29] |
GAVIGNET A A,SOBEY I J. Model aids cuttings transport prediction[J]. Journal of Petroleum Technology, 1989,41(9):916-921.
|
[30] |
SANTANA M,MARTINS A L, SALES Jr. A. Advances in the modeling of the stratified flow of drilled cuttings in high angle and horizontal wells[C]. SPE 39890, 1998.
|
[31] |
KAMP A M,RIVERO M. Layer modeling for cuttings transport in highly inclined wellbores[C]. SPE 53942, 1999.
|
[32] |
CHO H,SHAH S N,OSISANYA S O. Effects of fluid flow in a porous cuttings-bed on cuttings transport efficiency and hydraulics[C]. SPE 71374,2001.
|
[33] |
汪志明,张政. 大斜度井两层稳定模型岩屑传输规律研究[J]. 石油钻采工艺,2003,25(4):8-10.WANG Zhiming,ZHANG Zheng. Study on cuttings transportation tendency of the dual layer stabilizing model in highly inclined well[J]. Oil Drilling & Production Technology,2003,25(4):8-10.
|
[34] |
DORON P,BARNEA D. A three-layer model for solidliquid flow in horizontal pipes[J]. International Journal of Multiphase Flow,1993,19(6):1029-1043.
|
[35] |
CHO H,SHAH S N,OSISANYA S O. A threesegment hydraulic model for cuttings transport inhorizontal and deviated wells[C]. SPE 65488,2000.
|
[36] |
CHENG R C, WANG R H. A three-segment hydraulic model for annular cuttings transport with foam in horizontal drilling[J]. Journal of Hydrodynamics,2008, 20(1):67-73.
|
[37] |
IYOHO A W,HORETH J M II,VEENKANT R L. A computer model for hole-cleaning analysis[J]. Journal of Petroleum Technology,1988, 40(9):1183-1192.
|
[38] |
IYOHO A W,TAKAHASHI H. Modeling unstable cuttings transport in horizontal, eccentric wellbores[C]. SPE 27416,1993.
|
[39] |
MARTINS A L,SANTANA M,GASPARI E,et al. Evaluating the transport of solids generated by shale instabilities in ERW drilling[C]. SPE 50380,1998.
|
[40] |
LI J, WALKER S. Sensitivity analysis of hole cleaning parameters in directional wells[C]. SPE 54498,1999.
|
[41] |
DOAN Q T,OGUZTORELI M,MASUDA Y,et al. Modelling of transient cuttings transport in underbalanced drilling[C]. IADC/SPE 62742,2000.
|
[42] |
MASUDA Y,DOAN Q,OGUZTORELI M,et al. Critical cuttings transport velocity in inclined annulus:experimental studies and numerical simulation[C]. SPE 65502,2000.
|
[43] |
LI Y, BJORNDALEN N, KURU E. Numerical modelling of cuttings transport in horizontal wells using conventional drilling fluids[C]. Paper 2004-227, presented at the 5th Canadian International Petroleum Conference (55th Annual Technical Meeting), Calgary, Alberta, Canada, June 8-10,2004.
|
[44] |
汪志明,张政. 大位移水平井两层不稳定岩屑传输模型研究[J]. 水动力学研究与进展:A辑,2004,19(5):676-681.WANG Zhiming, ZHANG Zheng. A two-layer timedependent model for cuttings transport in extended-reach horizontal wells[J]. Journal of Hydrodynamics Ser. A, 2004,19(5):676-681.
|
[45] |
ESPINOSA-PAREDES G,SALAZAR-MENDOZA R, CAZAREZ-CANDIA O. Averaging model for cuttings transport in horizontal wellbores[J]. Journal of Petroleum Science and Technology,2007,55(3):301-316.
|
[46] |
COSTA S,STUCKENBRUCK S,FONTOURA S,et al. Simulation of transient cuttings transportation and ECD in wellbore drilling[C]. SPE 113893,2008.
|
[47] |
WANG Z M,ZHAI Y J,HAO X N,et al. Numerical simulation on three layer dynamic cutting transport model and its application on extended reach drilling[C]. SPE 134306,2010.
|
[48] |
GUO X L,WANG Z M,LONG Z H. Study on threelayer unsteady model of cuttings transport for extendedreach well[J].Journal of Petroleum Science and Engineering,2010,73(1):171-180.
|
[49] |
郭晓乐,汪志明,龙芝辉. 大位移钻井全井段岩屑动态运移规律[J]. 中国石油大学学报(自然科学版), 2011,35(1):72-76. GUO Xiaole,WANG Zhiming, LONG Zhihui. Transient cuttings transport laws through all sections of extended reach well[J]. Journal of China University of Petroleum (Edition of Natural Science),2011,35(1):72-76.
|
[50] |
NAGANAWA S,SATO R,ISHIKAWA M. Cuttingstransport simulation combined with large-scale-flow-loop experimental results and logging-while-drilling data for hole-cleaning evaluation in directional drilling[C]. SPE 171740,2017.
|
[51] |
ZHANG F F,MISKA S,YU M J,et al. A unified transient solid-liquid two-phase flow model for cuttings transport-modelling part[J]. Journal of Petroleum Science and Engineering,2018,166:146-156
|
[52] |
OKPOBIRI G A,IKOKU C U. Experimental determination of friction factor for mist and foam drilling and well cleanout operations[J].Journal of Energy Resources Technology,1983,105(4):542-553.
|
[53] |
GUO B,MISKA S,HARELARD G. A simple approach to determination of bottom hole pressure in directional foam drilling[C]. Proceeding of the 1995 ASME-ETCE Conference held January 25 to February 1,1995 in Houston, Texas.
|
[54] |
MEDLEY G H,LIU G. Development and testing of underbalanced drilling products[R]. DOE Report, prepared under the contract number DE-AC21-94MC31197, Morgantown, WV, September 1995.
|
[55] |
LORD D L. Analysis of dynamic and static foam behavior[J].Journal of Petroleum Technology,1981,33(1):39-45.
|
[56] |
SPORKER H F,TREPESS P,VALKO P,et al. System design for the measurement of downhole dynamic rheology for foam fracturing fluids[C]. SPE 22840,1991.
|
[57] |
OWAYED J F. Simulation of water influx during underbalanced foam drilling[D]. Master dissertation, University of Tulsa,1997.
|
[58] |
HERZHAFT B,TOURE A,BRUNI F,et al. Aqueous foams for underbalanced drilling:the question of solids[C]. SPE 62898,2000.
|
[59] |
MARTINS A L, LOURENCO A M F, DE SA C H M. Foam property requirements for proper hole cleaning while drilling horizontal wells in underbalanced conditions[C]. SPE 64382,2000.
|
[60] |
LI Y, KURU E. Numerical modeling of cuttings transport with foam in vertical wells[C]. PETSOC-2003-066, Canadian International Petroleum Conference,10-12 June, Calgary, Alberta,2003.
|
[61] |
LI Y, KURU E. Numerical modeling of cuttings transport with foam in horizontal wells[J]. Journal of Canadian Petroleum Technology,2003,42(10):54-61.
|
[62] |
LI Y, KURU E. Prediction of critical foam velocity for effective cuttings transport with foam in horizontal wells[J]. Energy Sources, Part A, 2008, 30:994-1004.
|
[63] |
OZBAYOGLU E M, MISKA S Z. Cuttings transport with foam in horizontal & highly-inclined wellbores[C]. SPE/IADC 79856,2003.
|
[64] |
DUAN M Q, MISKA S, YU M J, et al. Experimental study and modeling of cuttings transport using foam with drillpipe rotation[C]. SPE 116300,2008.
|
[65] |
GUMATI A, TAKAHASHI H, SUTO Y. Development of three-layer model and numerical simulation for cuttings transport in horizontal foam drilling[J]. Japanese Journal of Multiphase Flow,2008,22(4):374-384.
|
[66] |
PRASUN S. Numerical simulation of transient cuttings transport with foam in horizontal wells[D]. Master dissertation, University of Oklahoma,2013.
|