Page 377 - Fundamentals of Gas Shale Reservoirs
P. 377

REFERENCES    357
            Akin S, Schembre JM, Bhat SK, Kovscek AR. Spontaneous imbibi-  and resulting microfractures. Energy Fuels 2013;27(6):
              tion characteristics of diatomite. J Petrol Sci Eng 2000;25(3–4):   3039–3049.
              149–165.                                           Donaldson EC, Alam W. Wettability. Houston, TX: Gulf Publishing;
            Amott E. Observations relating to the wettability of porous media.   2008. p 1–336.
              Trans AIME 1959;216:156–162.                       Donaldson EC, Thomas RD, Lorenz PB. Wettability determination
            Anderson  WG.  Wettability literature survey‐part 6: the effects   and its effect on recovery efficiency. Soc Pet Eng J 1969;9:13–20.
              of wettability on waterflooding. J Petrol Technol 1987;39 (12):   Dutta R, Lee C, Odumabo S, Ye P, Walker SC, Karpyn ZT, Ayala
              1605–1622.                                           LF.  Quantification  of  fracturing  fluid  migration  due  to
            Bahrami H, Rezaee R, Clennell B. Water blocking damage in hydrau-  spontaneous imbibition in fractured tight formations. Paper pre-
              lically fractured tight sand gas reservoirs: an example from Perth   sented at the Society of Petroleum Engineers – SPE Americas
              Basin, Western Australia. J Petrol Sci Eng 2012;88:100–106.  Unconventional Resources Conference 2012, 5–7 June,
            Bai M, Guo Q, Jin ZH. Study of wellbore stability due to drilling   Pittsburg, PA, USA, p 265–275.
              fluid/shale interactions. The 42nd US Rock Mechanics Symposium   Engelberts WF, Klinkenberg LJ. Laboratory experiments on the
              (USRMS); June 29–July 2, 2008; San Francisco, CA, USA.  displacement of oil by water from packs of granular material.
            Bell JM, Cameron FK. The flow of liquids through capillary spaces.   Proceedings of the 3rd World Petroleum Congress; 1951; The
              J Phys Chem 1906;10:658–674.                         Hague, Netherlands, vol 2, p 544–554.
            Bennion DB, Thomas FB. Formation damage issues impacting the   Fakcharoenphol P, Kurtoglu B, Kazemi H, Charoenwongsa S, Wu Y.
              productivity of low permeability, low initial water saturation   The effect of osmotic pressure on improve oil recovery from frac-
              gas producing formations. J Energy Resour Technol 2005;127:   tured shale formations. Paper presented at the Society of Petroleum
              240–247.                                             Engineers – SPE USA Unconventional Resources Conference
            Brown RJS, Fatt I. Measurements of fractional wettability of oil   2014, 1–3 April, The Woodlands, TX, USA, p 456–467.
              fields’ rocks by the nuclear magnetic relaxation method. Fall   Ghanbari E, Abbasi MA, Dehghanpour H, Bearinger D. Flowback
              Meeting of the Petroleum Branch of AIME; Society of Petroleum   volumetric and chemical analysis for evaluating load recovery
              Engineers, 1956, 14–17 October, Los Angeles, CA, USA.  and its impact on early-time production. Paper presented at the
            Brownscombe ER, Dyes AB. Water‐imbibition displacement—can   Society of Petroleum Engineers – SPE Canadian Unconventional
              it release reluctant spraberry oil? Oil Gas J 1952;50:264–265.  Resources Conference 2013, 5–7 November, Calgary, Alberta,
            Chalmers GR, Ross DJ, Bustin RM. Geological controls on matrix   Canada, 1, p 533–548.
              permeability of Devonian Gas Shales in the Horn River and   Goodwin S, Carlson K, Knox K, Douglas C, Rein L. Water intensity
              Liard basins, northeastern British Columbia, Canada. Int J Coal   assessment of shale gas resources in the Wattenberg field in north-
              Geol 2012;103:120–131.                               eastern Colorado. Environ Sci Technol 2014;48(10):5991–5995.
            Chapman A.  Managing  surface  water  use  for  hydraulic  fracturing,   Hamon G. Field-wide variations of wettability. Paper presented at the
              BC  oil and  gas commission. 2012.  Available at https://www.   Proceedings – SPE Annual Technical Conference and Exhibition,
              bcwwa.org/index.php?option=com_bcwwaresourcelibrary&   2000, 1–4 October, Dallas, TX, USA, SIGMA, p 447–455.
              view=resource&Itemid=74&id=1041. Accessed January 17, 2015.  Handy LL. Determination of effective capillary pressures for porous
            Chen G, Ewy RT, Yu M. Analytic solutions with ionic flow for a   media from imbibition data. Trans AIME 1960;219:75–80.
              pressure transmission test on shale. J Pet Sci Eng 2010;72:   Hematfar V, Maini B, Chen ZJ. Influence of clay minerals and
              158–165.                                             water film properties on in‐situ adsorption of asphaltene. 2013
            Chenevert M. Shale alteration by water adsorption. J Pet Technol   SPE Heavy Oil Conference; June 11–13, 2013; Calgary, Alberta,
              1970;22:1141–1148.                                   Canada.
            Chenevert ME. Lecture: diffusion of water and ions into shales.   Hensen EJM, Smit B.  Why clays swell. J Phys Chem B 2002;
              ISRM International Symposium; August 30–September 2, 1989,   106:12664–12667.
              Pau, France.                                       Holditch S. Factors affecting water blocking and gas flow from hydrau-
            Cheng Y. Impact of water dynamics in fractures on the performance   lically fractured gas wells. J Pet Technol 1979;31:1515–1524.
              of hydraulically fractured wells in gas‐shale reservoirs. J Can   Jiang X. Flowback quality characterization for horizontal wells in
              Pet Technol 2012;51 (02):143–151.                    Wattenberg field [thesis]. Fort Collins, CO: Colorado State
            Clarkson CR, Jensen JL, Pedersen PK, Freeman M. Innovative   University; 2013.
              methods for flow‐unit and pore‐structure analyses in a tight  siltstone   Johnson RE, Dettre RH. Contact angle, wettability, and adhesion.
              and shale gas reservoir. AAPG Bull 2012;96 (2):355–374.  Adv Chem Ser 1964;43:112.
            Clarkson CR, Solano N, Bustin RM, Bustin AMM, Chalmers GRL,   Johnson MF,  Walsh  W, Budgell PA, Davidson JA.  The ultimate
                                     ́
              He L, Melnichenko YB, Radlinski AP, Blach TP. Pore structure   potential for unconventional gas in the Horn River Basin: inte-
              characterization of North American shale gas reservoirs using   grating geological mapping with Monte Carlo simulations. Paper
              USANS/SANS,  gas adsorption, and mercury  intrusion. Fuel   presented at the Society of Petroleum Engineers – Canadian
              2013;103:606–616.                                    Unconventional Resources Conference 2011, 15–17 November,
            Dehghanpour H, Zubair HA, Chhabra A, Ullah A. Liquid intake of   Calgary, Alberta, Canada, CURC 2011, 2, p 1399–1415.
              organic shales. Energy Fuels 2012;26(9):5750–5758.  Jones SC, Roszelle  WO. Graphical techniques for determining
            Dehghanpour H, Lan Q, Saeed Y, Fei H, Qi Z. Spontaneous imbi-  relative permeability from displacement experiments. J Pet
              bition of brine and oil in gas shales: effect of water adsorption   Technol 1978;30:807–817.
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