Critical review of wellbore ballooning and breathing literature

Power, 2003, The top 10 lost circulation concerns in deepwater drilling Gill, 1986, Charged shales: self-induced pore pressures Gill, 1987, Well logs reveal true pressures where drilling responses fail, Oil Gas J (United States), 85 Gill, 1989, How borehole ballooning alters drilling responses, Oil Gas J (United States), 87 Helstrup, 2001, A practical method for evaluating effects of fracture charging and/or ballooning when drilling high pressure, high temperature (HPHT) wells Karstad, 1998, Analysis of ballooning effects during drilling of high pressure high temperature wells Babu, 1998, Effect of P–ρ–T behavior of muds on loss/gain during high-temperature deep-well drilling, J Petrol Sci Eng, 20, 49, 10.1016/S0920-4105(98)00003-5 Tare, 2001, Drilling fluid losses and gains: case histories and practical solutions Lavrov, 2005, Mechanics of borehole ballooning in naturally-fractured formations Baldino, 2018, A novel approach to borehole breathing investigation in naturally fractured formations, SPE Drill Complet Bjørkevoll KS, Vefring EH, Rommetveit R, Aadnøy B. Changes in active volume due to variations in pressure and temperature in HPHT wells. In: 7th Northern European Drilling Conference, Kristiansand; 1994 October 4-6. Aadnøy, 1996 Maury, 1995, February. Safe drilling of HP/HT wells, the role of the thermal regime in loss and gain phenomenon Timoshenko, 1951, 108 Lubinski, 1977, Transient pressure surges due to pipe movement in an oil well, Rev Inst Français du Pétrole, 32, 307, 10.2516/ogst:1977019 Mitchell, 1988, Dynamic surge/swab pressure predictions, SPE Drill Eng, 3, 325, 10.2118/16156-PA Biot, 1957, The elastic coeff cients of the theory of consolidation, J Appl Mech, 15, 594, 10.1115/1.4011606 Hoberock LL, Thomas DC, Nickens HV. ‘Bottom-hole mud pressure variations due to compressibility and temperature effects. In: the 1982 IADC Drilling Technology Conference, Houston, March 9-11; 1982. Peters, 1990, A model for predicting the density of oil-base muds at high pressures and temperatures, SPE Drill Eng, 5, 141, 10.2118/18036-PA Sorelle, 1982, Mathematical field model predicts downhole density changes in static drilling fluids Babu, 1996, Effects of PpT behaviour of muds on static pressures during deep well drilling-part 2: Static pressures, SPE Drill Complet, 11, 91, 10.2118/27419-PA Kutasov, 1988, Empirical correlation determines downhole mud density, Oil Gas J., 86, 61 Zamora, 2013, Study on the volumetric behavior of base oils, brines, and drilling fluids under extreme temperatures and pressures, SPE Drill Complet, 28, 278, 10.2118/160029-PA Karstad, 1997, Analysis of temperature measurements during drilling Corre, 1984, Numerical computation of temperature distribution in a wellbore while drilling Arnold, 1990, Temperature variation in a circulating wellbore fluid, J Energy Res Technol, 112, 79, 10.1115/1.2905726 Kabir, 1996, Determining circulating fluid temperature in drilling, workover, and well control operations, SPE Drill Complet, 11, 74, 10.2118/24581-PA Foroushan, 2018 Karstad, 1998, Density behavior of drilling fluids during high pressure high temperature drilling operations Ward C, Clark R. Anatomy of a ballooning borehole using PWD tool. In Workshop Overpressures in Petroleum Exploration, Pau, France, 1998, April 7-8. Ashley, 2000, Well control of an influx from a fracture breathing formation Yuan, 2016, Differentiate drilling fluid thermal expansion, wellbore ballooning and real kick during flow check with an innovative combination of transient simulation and pumps off annular pressure while drilling Ridley, 2013, Eagle ford shale well control: Drilling and tripping in unconventional oil and gas plays Fraser, 2014, Early kick detection methods and technologies Johnson, 2014, Advancing deepwater kick detection Nayeem, 2016, Monitoring of down-hole parameters for early kick detection, J Loss Prev Process Ind, 40, 43, 10.1016/j.jlp.2015.11.025 Tarr, 2016, Next-generation kick detection during connections: Influx detection at pumps stop (IDAPS) software, SPE Drill Complet, 31, 250, 10.2118/178821-PA Baldino, 2019, Borehole-breathing/kick discriminator: Diagnostic tool and potential resource for in-situ formation characterization, SPE Drill Complet, 34, 248, 10.2118/195689-PA Erivwo, 2012, Narrow margin drilling in deepwater: Solution concepts Dyke, 1995, Advances in characterizing natural fracture permeability from mud log data, SPE Form Evaluat, 10, 160, 10.2118/25022-PA Lietard, 1996, Fracture width LWD and drilling mud/LCM selection guidelines in naturally fractured reservoirs Liétard, 1999, Fracture width logging while drilling and drilling mud/loss-circulation-material selection guidelines in naturally fractured reservoirs (includes associated papers 75283, 75284, 81590 and 81591), SPE Drill Complet, 14, 168, 10.2118/57713-PA Sanfillippo, 1997, Characterization of conductive fractures while drilling Di Federico, 1998, Non-Newtonian flow in a variable aperture fracture, Transp Porous Media, 30, 75, 10.1023/A:1006512822518 Verga, 2000, Detection and characterization of fractures in naturally fractured reservoirs Lavrov A, Tronvoll J. Mud loss into a single fracture during drilling of petroleum wells: Modeling approach. In: Development and Application of Discontinuous Modelling for Rock Engineering: Proceedings of the 6th International Conference ICADD-6, Trondheim, Norway, 2003 October 5–8; 189-198. Lavrov, 2004, Modeling mud loss in fractured formations Lavrov, 2006, Numerical analysis of radial flow in a natural fracture: applications in drilling performance and reservoir characterization Majidi, 2010, Quantitative analysis of mud losses in naturally fractured reservoirs: the effect of rheology, SPE Drill Complet, 25, 509, 10.2118/114130-PA Huang, 2011, Characterizing natural-fracture permeability from mud-loss data, SPE J, 16, 111, 10.2118/139592-PA Feng, 2017, Modeling lost circulation through drilling-induced fractures, SPE J Ozdemirtas, 2009 Shahri, 2011, Investigation of fracture ballooning and breathing in naturally fractured reservoirs: effect of fracture deformation law Zimmerman, 1996, Hydraulic conductivity of rock fractures, Transp Porous Media, 23, 1, 10.1007/BF00145263 Babadagli, 2001, On the application of methods used to calculate the fractal dimension of fracture surfaces, Fractals, 9, 105, 10.1142/S0218348X01000464 Ozdemirtas, 2007, Numerical modelling of borehole ballooning/breathing-effect of fracture roughness Ozdemirtas, 2009, Experimental and numerical investigations of borehole ballooning in rough fractures, SPE Drill Complet, 24, 256, 10.2118/110121-PA Voss, 1985, Random fractal forgeries, 805 Develi, 1998, Quantification of natural fracture surfaces using fractal geometry, Math Geol, 30, 971, 10.1023/A:1021781525574 Babadagli, 2003, Fractal characteristics of rocks fractured under tension, Theoret Appl Fracture Mech, 39, 73, 10.1016/S0167-8442(02)00139-8 Majidi, 2008, Fracture ballooning in naturally fractured formations: mechanism and controlling factors Shahri, 2012, Investigation of fracture ballooning-breathing using an exponential deformation law and herschel- bulkley fluid model, Spec Top Rev Porous Media, 3 Bruel, 1994, Modelling storage behaviour in a fractured rock mass, J Hydrol, 162, 267, 10.1016/0022-1694(94)90231-3 Mehrabi, 2012, Modeling of fracture ballooning in naturally fractured reservoirs: A sensitivity analysis Shahri, 2012, A new approach in modeling of fracture ballooning in naturally fractured reservoirs Helstrup, 2004, Time-dependent wellbore instability and ballooning in naturally fractured formations, J Petrol Sci Eng, 43, 113, 10.1016/j.petrol.2004.01.001 ANSYS, 2002 Zienkiewicz, 2000, The finite element method Rahman, 2000, An analytical method for mixed-mode propagation of pressurized fractures in remotely compressed rocks, Int J Fract, 103, 243, 10.1023/A:1007624315096 Wang, 2020, Breathing effect of sandstone reservoir formed in barrier coastal sedimentary system Biryukov, 2012, Transient pressure behavior of reservoirs with discrete conductive faults and fractures, Transp Porous Media, 95, 239, 10.1007/s11242-012-0041-x Kuchuk, 2015, Fractured-reservoir modeling and interpretation, SPE J, 20, 10.2118/176030-PA Belfield, 1995, Fracture statistics from horizontal wellbores, J Can Pet Technol, 34, 10.2118/95-06-04 Bour, 1997, Connectivity of random fault networks following a power law fault length distribution, Water Resour Res, 33, 1567, 10.1029/96WR00433 Helstrup, 2003, Poroelastic effects on borehole ballooning in naturally fractured formations Barenblatt, 1960, Fundamental equations of filtration of homogeneous liquids in fissured rocks, 522 Warren, 1963, The behavior of naturally fractured reservoirs, SPE J, 3, 245 Bear, 2012 Sadd, 2009 Berryman, 1995, The elastic coefficients of double-porosity models for fluid transport in jointed rock, J Geophys Res: Solid Earth, 100, 24611, 10.1029/95JB02161 Jones Jr, 1975, A laboratory study of the effects of confining pressure on fracture flow and storage capacity in carbonate rocks, J Pet Technol, 27, 21, 10.2118/4569-PA Watson, 1922 Rice, 1976, Some basic stress diffusion solutions for fluid-saturated elastic porous media with compressible constituents, Rev Geophys, 14, 227, 10.1029/RG014i002p00227 Cheng, 2016, 10.1007/978-3-319-25202-5 Elsworth, 1992, Flow-deformation response of dual-porosity media, J Geotech Eng, 118, 107, 10.1061/(ASCE)0733-9410(1992)118:1(107) Gao, 2020, Experimental study on typical characteristics of borehole breathing under different pressure and rock type conditions, J Natural Gas Sci Eng, 77, 10.1016/j.jngse.2020.103241 Majidi, 2015, Drilling depleted sands: Geomechanics, challenges and mitigations Meng, 2018, Wellbore stability in naturally fractured formations featuring dual-porosity/single-permeability and finite radial fluid discharge, J Petrol Sci Eng Cayeux, 2016, Insights into the physical phenomena that influence automatic gain/loss detection during drilling operations, SPE Drill Complet, 32, 13, 10.2118/166801-PA Cayeux, 2013, Precise gain and loss detection using a transient hydraulic model of the return flow to the pit Easton, 1997, Optimizing hole cleaning by application of a pressure while drilling tool Hutchinson, 1998, Using downhole annular pressure measurements to anticipate drilling problems Mallary, 1999, Using pressure-while-drilling measurements to solve extended-reach drilling problems on alaska’s north slope Roy S, Zamora M, Froitland TS. Surge/swab considerations in deepwater drilling. In: AADE Annual Technical Forum, Houston TX, 1999. Zamora M, Roy S. Using true real-time data interpretation to facilitate deepwater drilling. In: AADE Annual Technical Forum, Houston, TX, 2001. Roy S, Power D. Using real-time hydraulics modeling to complement annular-pressure-while-drilling data. In AADE Technical Conference, 2002. Golwalkar A, Lang CM, Doodraj S, Singh AK, Manoranjan K, Pandita A. Exploratory drilling in severely ballooning formation-use of best drilling practices and real time monitoring for low cost mitigation. In: International Petroleum Technology Conference; 2016. Dalton, 2002, January. Real-time, time-lapse resistivity logging with a wired composite tubing Bratton, 2001, How to diagnose drilling induced fractures in wells drilled with oil-based muds with real-time resistivity and pressure measurements IADC MPD & UBO Committee Meeting Minutes, IADC Underbalanced Drilling Operations Committee Meeting-1st Quarter, Leiden, The Netherlands, 2004; 15-16 March. IADC MPD & UBO Committee Meeting Minutes, IADC Underbalanced Drilling Operations Committee Meeting. Houston, TX, 2004; 13-14 December. Malloy, 2009, Managed-pressure drilling: What it is and what it is not Hannegan, 2003, Well control considerations-offshore applications of underbalanced drilling technology Aadnøy, 2009 Terwogt, 2005, Pressured mud cap drilling from a semi-submersible drilling rig Nauduri, 2009, MPD: Beyond narrow pressure windows Tirado Vargas, 2011, MPD Makes possible to drill and trip out of the hole in a gas well with a combination of a narrow mud weight window and a serious ballooning effect Ochoa Lugo, 2011, Successful application of MPD (managed pressure drilling) for prevention, control, and detection of borehole ballooning in tight gas reservoir in cuervito field, Mexico Loux, 2015, Managed pressure drilling significantly reduces drilling costs on extremely challenging ultra HT wells in the Gulf of Thailand Hernandez, 2014, Recovering the confidence to drill in a field after dealing with a blowout, the managed pressure drilling approach. Operator finds an effective way to address the high potential for blowouts and drilling challenges in a field in utah Medina, 2014, Automated MPD and an engineered solution: A case history in western Canada Sharma, 2015, Use of managed pressure drilling technology helped in achieving well objectives: A case study of an offshore HTHP well in India Barbosa, 2017, Automated MPD system in offshore gulf of Mexico further substantiates value of drilling technique in high-pressure zones Rosenberg, 2011, Liner drilling technology as a tool to reduce NPT-gulf of Mexico experiences Fontenot K, Strickler RD, Molina P. Improved wellbore stability achieved with Casing Drilling operations through drilling fluids. In: Smear Effect, paper WOCWD-0431-04, presented at 2004 World Oil Casing While Drilling Technical Conference, Houston, TX, 2004. Marbun BT, Widiyanto YA, Kurnianto BE. Feasibility study of casing while drilling application on geothermal drilling operation. In Thirty-Ninth Workshop on Geothermal Reservoir Engineering, Stanford, California, 2014; February. Terrazas Romero, 2007, Drilling with liner on horizontal oil wells Rosenberg, 2010, Liner drilling technology as a mitigation to hole instability and loss intervals: A case study in the gulf of Mexico Rosenberg, 2011, Liner drilling technology as a mitigation to wellbore ballooning - a successful case study in the gulf of Mexico shelf