`Patent 7,861,774
`
`
`UNITED STATES PATENT AND TRADEMARK OFFICE
`___________________
`
`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`___________________
`
`
`
`BAKER HUGHES INCORPORATED and
`BAKER HUGHES OILFIELD OPERATIONS, INC.,
`Petitioners
`
`v.
`
`PACKERS PLUS ENERGY SERVICES INC.,
`Patent Owner
`
`___________________
`
`Case IPR2016-01506
`Patent 7,861,774
`___________________
`
`
`
`EXCLUSIVE LICENSEE RAPID COMPLETIONS LLC’S
`RESPONSE
`
`
`
`
`Mail Stop “PATENT BOARD”
`Patent Trial and Appeal Board
`U.S. Patent and Trademark Office
`P.O. Box 1450
`Alexandria, VA 22313-1450
`
`
`
`Case IPR2016-01506
`Patent 7,861,774
`
`
`TABLE OF CONTENTS
`
`Introduction ...................................................................................................... 1
`
`Overview of the Patented Technology ............................................................ 1
`
`I.
`
`II.
`
`III. Claim Interpretation ......................................................................................... 3
`
`A.
`
`B.
`
`Solid Body Packer ................................................................................. 3
`
`The Second Annular Wellbore Segment ............................................... 5
`
`IV. Obviousness Analysis ...................................................................................... 6
`
`A.
`
`The Level of Ordinary Skill in the Art .................................................. 7
`
`1.
`
`2.
`
`3.
`
`4.
`
`A POSITA Would Have Been Aware of a Variety of
`Different Completion Techniques .............................................. 8
`
`A POSITA Would Have Expected Multi-Stage
`Hydraulic Fracturing Operations to Require Cemented
`Casing ........................................................................................11
`
`A POSITA Would Carefully Weigh the Risks,
`Reliability, and Economics of a Proposed Completion ............15
`
`Baker Hughes Attempts to Conflate Acidizing and
`Fracturing. .................................................................................18
`
`B.
`
`The Objective Indicia of Non-Obviousness ........................................20
`
`1.
`
`2.
`
`3.
`
`4.
`
`5.
`
`The Claimed Technology Operates Contrary to the
`Accepted Wisdom That Prevailed at the Time of the
`Invention and it Demonstrated Unexpected Results .................20
`
`The Claimed Technology Has Received Industry Praise
`and Recognition. .......................................................................26
`
`Baker Hughes Copied the Claimed Technology. .....................31
`
`The Claimed Technology Has Enjoyed Significant
`Commercial Success .................................................................37
`
`There Is a Nexus Between the Claimed Technology
`and Its Commercial Success. ....................................................41
`
`
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`6.
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`Case IPR2016-01506
`Patent 7,861,774
`
`The Length of Intervening Time Between the Asserted
`Prior Art Dates and the Claimed Invention Objectively
`Demonstrate that the Invention Was Not Obvious ...................44
`
`C.
`
`The Scope and Content of the Prior Art ..............................................44
`
`1.
`
`Lane-Wells is a Product Catalog that Does not Describe
`Open Hole Multi-Stage Fracturing ...........................................44
`
`a)
`
`b)
`
`Petitioners Fail to Show that a POSITA Reviewing
`Lane-Wells Would Equate “Acidizing” with
`“Fracturing.” ...................................................................45
`
`Petitioners Remaining Assertions Regarding
`Lane-Wells Miss the Point. ............................................48
`
`2.
`
`Ellsworth Describes Water Shut-Off Operations, Not
`Hydraulic Fracturing. ................................................................50
`
`D.
`
`The Differences Between the Prior Art and the Claimed
`Invention ..............................................................................................51
`
`1.
`
`2.
`
`Petitioners Fail to Show that Lane-Wells Discloses
`the Solid Body Packers, Open Hole, Horizontal, and
`Fracturing Limitations of the ’774 Claims ...............................51
`
`Petitioners Fail to Show That Ellsworth Discloses
`Various Ball-Activated Sleeve and Fracturing
`Limitations of the ’774 Claims .................................................53
`
`E.
`
`F.
`
`Opinions of Learned Experts ...............................................................53
`
`The Petition Fails to Establish Lane-Wells as Prior Art .....................56
`
`V. Overall Conclusions on Obviousness ............................................................61
`
`A.
`
`Petitioners Have Failed to Meet Their Burden of Showing
`that the Prior Art Taught Pumping Fracturing Fluid into Open
`Hole Segments or that a POSITA Would Combine References
`and Expect Success .............................................................................63
`
`B.
`
`The Objective Evidence Demonstrates that Petitioners’
`Theories Are Flawed ...........................................................................65
`
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`- ii -
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`TABLE OF AUTHORITIES
`
`Case IPR2016-01506
`Patent 7,861,774
`
`
`Cases
`
`
`Akamai Techs., Inc. v. Cable & Wireless Internet Servs., Inc.
`
`344 F.3d 1186 (Fed.Cir.2003) .......................................................................32
`
`Apple Inc. v. Samsung Elecs. Co.
`
`No. 2015-1171, 2016 WL 5864573 (Fed. Cir. Oct. 7, 2016) ................. 35, 38
`
`Application of Bayer
`
`568 F.2d 1357 (C.C.P.A. 1978) .............................................................. 57, 60
`
`Ashland Oil, Inc. v. Delta Resins & Refractories, Inc.
`
`776 F.2d 281 (Fed. Cir. 1985) ................................................................ 37, 38
`
`Black & Decker, Inc. v. Positec USA, Inc.
`
`No. 2015-1646, 2016 WL 2898012 (Fed. Cir. May 18, 2016) .............. 54, 62
`
`Blue Calypso, LLC v. Groupon, Inc.
`
`815 F.3d 1331 (Fed. Cir. 2016) .............................................................. 57, 60
`
`Brown & Williamson Tobacco Corp. v. Philip Morris Inc.
`
`229 F.3d 1120 (Fed. Cir. 2000) .....................................................................41
`
`Bruckelmyer v. Ground Heaters, Inc.
`
`445 F.3d 1374 (Fed. Cir. 2006) .....................................................................57
`
`Carella v. Starlight Archery & Pro Line Co.
`804 F.2d 135 (Fed. Cir. 1986), amended on reh'g sub nom.
`
`Carella v. Starlight Archery, No. 86-728, 1986 WL 1154370 (Fed.
`Cir. Dec. 16, 1986) ................................................................................. 59, 60
`
`
`Crocs, Inc. v. Int’l Trade Comm’n
`
`598 F.3d 1294 (Fed.Cir.2010) ................................................................ 20, 55
`
`dunnhumby USA, LLC v. emnos USA Corp.
`
`No. 13-CV-0399, 2015 WL 1542365 (N.D. Ill. Apr. 1, 2015) ....................... 5
`
`
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`- iii -
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`Dynamic Drinkware, LLC v. Nat'l Graphics, Inc.
`
`800 F.3d 1375 (Fed. Cir. 2015) .....................................................................62
`
`Eli Lilly & Co. v. L. A. Biomedical Research Inst.
`
`849 F.3d 1073 (Fed. Cir. 2017) .....................................................................63
`
`Envtl. Designs, Ltd. v. Union Oil Co. of California
`
`713 F.2d 693 (Fed. Cir. 1983) ......................................................................... 7
`
`Gambro Lundia AB v. Baxter Healthcare Corp.
`
`110 F.3d 1573 (Fed. Cir. 1997) .....................................................................42
`
`Graham v. John Deere Co. of Kansas City
`
`383 U.S. 1 (1966) ............................................................................................. 6
`
`In re Cyclobenzaprine Hydrochloride Extended–Release Capsule Patent Litig.
`
`676 F.3d 1063 (Fed. Cir. 2012) ....................................................................... 7
`
`In re Hall
`
`781 F. 2d 897 (Fed. Cir. 1986) ............................................................... 56, 57
`
`In re Hedges
`
`783 F.2d 1038 (Fed.Cir.1986) .......................................................................20
`
`In re Kahn
`
`441 F.3d 977 (Fed Cir. 2006) ........................................................................61
`
`In re Klopfenstein
`
`380 F.3d 1345 (Fed. Cir. 2004) .....................................................................58
`
`In re Lister
`
`583 F.3d 1307 (Fed. Cir. 2009) .............................................................. 58, 59
`
`In re Magnum Oil Tools Int’l, Ltd.
`
`829 F.3d 1364 (Fed. Cir. 2016) .............................................................. 59, 62
`
`InTouch Techs., Inc. v. VGO Commc'ns, Inc.
`
`751 F.3d 1327 (Fed. Cir. 2014) .....................................................................55
`
`
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`- iv -
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`Intri-Plex Techs., Inc. v. Saint-Gobain Performance Plastics Rencol Ltd.
`IPR2014-00309, Paper 83 (PTAB March 23, 2014) .....................................20
`
`
`J.T. Eaton & Co. v. Atlantic Paste & Glue Co.
`
`106 F.3d 1563 (Fed.Cir.1997) .......................................................................38
`
`KSR Int’l Co. v. Teleflex Inc.
`
`550 U.S. 398 (2007).......................................................................................61
`
`Kyocera Wireless Corp. v. Int’l Trade Comm’n
`
`545 F.3d 1340 (Fed. Cir. 2008) .....................................................................56
`
`Leo Pharm. Prod., Ltd. v. Rea
`
`726 F.3d 1346 (Fed. Cir. 2013) .....................................................................44
`
`MPHJ Tech. Investments, LLC v. Ricoh Americas Corp.
`
`847 F.3d 1363 (Fed. Cir. 2017) ....................................................................... 4
`
`Orthopedic Equipment Co., Inc. v. All Orthopedic Appliances, Inc.
`
`707 F.2d 1376 (Fed.Cir.1983) ......................................................................... 7
`
`PPC Broadband, Inc. v. Corning Optical Commc'ns RF, LLC
`
`815 F.3d 734 (Fed. Cir. 2016) .......................................................................41
`
`Procter & Gamble Co. v. Teva Pharm. USA, Inc.
`
`566 F.3d 989 (Fed. Cir. 2009) .......................................................................62
`
`Ring Plus, Inc. v. Cingular Wireless, LLC
`
`No. CIV.A. 2:06-CV-159DF, 2007 WL 5688765 (E.D. Tex. July 9, 2007) ... 5
`
`Seadrill Americas Inc. v. Transocean Offshore Deepwater Drilling Inc.
`IPR2015-01929, Paper 105 (PTAB May 18, 2017) ......................................43
`
`
`SRI Int’l, Inc. v. Internet Sec. Sys., Inc.
`
`511 F.3d 1186 (Fed. Cir. 2008) ........................................................ 56, 57, 60
`
`Standard Oil Co. v. American Cyanamid Co.
`
`774 F.2d 448 (Fed.Cir.1985) ........................................................................... 8
`
`
`
`
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`- v -
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`Case IPR2016-01506
`Patent 7,861,774
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`Tec Air, Inc. v. Denso Mfg. Michigan Inc.
`
`192 F.3d 1353 (Fed. Cir. 1999) .....................................................................38
`
`Vederi, LLC v. Google, Inc.
`
`744 F.3d 1376 (Fed. Cir. 2014) ....................................................................... 5
`
`W.L. Gore & Assoc., Inc. v. Garlock, Inc.
`
`721 F.2d 1540 (Fed.Cir. 1983) ............................................................... 20, 54
`
`WBIP, LLC v. Kohler Co.
`
`829 F.3d 1317 (Fed. Cir. 2016) .....................................................................43
`
`Wyers v. Master Lock Co.
`
`616 F.3d 1231 (Fed. Cir. 2010) .....................................................................32
`
`Statutes
`
`35 U.S.C. § 102(b) ...................................................................................................57
`
`35 U.S.C. § 316(e) ..................................................................................................... 7
`
`35 U.S.C. § 103 .......................................................................................................... 6
`
`Other Authorities
`
`MPEP § 2128 ...........................................................................................................57
`
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`Case IPR2016-01506
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`Exhibit
`2003
`2004
`
`2005
`2006
`
`2007
`
`2008
`
`2009
`
`2010
`
`2011
`
`2012
`
`2013
`
`2014
`
`2015
`
`2016
`
`2017
`2018
`
`Exhibit List
`Description
`Email correspondence between J. Nemunatis and M. Garrett
`R. Seale et al., Effective Stimulation of Horizontal Wells—A
`New Completion Me thod, SPE 106357, Society of
`Petroleum Engineers (2006)
`Exploration and Development, Alberta Oil Magazine
`Leading the Way: Multistage fracking pioneer Packers Plus
`plays major role in cracking the tight oil code, Canadian
`OilPatch Technology Guidebook (2012)
`Financial Post, “Entrepreneur of the Year: National
`Winner”
`Innovation—Groundbreaking Innovation in Calgary,
`Calgary Herald (Feb. 12, 1014)
`J. Chury, Packers Plus Technology Becoming the Industry
`Standard, The Oil Patch Report (Dec. 2010/Jan. 2011)
`P. Roche, Open-Hole or Cased and Cemented, New
`Technology Magazine (Nov. 2011)
`R. Ghiselin, Qittitut Consulting, Sleeves vs. Shots—The
`Debate Rages (Aug. 2011)
`Van Dyke, Kate, “Fundamentals of Petroleum,” Fourth Ed.
`(1997)
`“Proven Performance: Read how Packers Plus systems and
`solutions have delivered results around the world,” Packers
`Plus Energy Services Inc., accessed May 24, 2016,
`http://packersplus.com/proven-performance/?type=case-
`study&system=stackfrac-hd-system&pag=3%20#p3
`A. Casero, Open Hole Multi-Stage Completion System in
`Unconventional Plays: Efficiency, Effectiveness and
`Economics, SPE 164009 (2013)
`Encyclopedia of Hydrocarbons, Chapter 3.1: Upstream
`technologies
`D. Lohoefer, Comparative Study of Cemented versus
`Uncemented Multi-Stage Fractured Wells in the Barnett
`Shale, SPE 135386, Society of Petroleum Engineers (2010)
`Ali Daneshy Deposition Transcript (11/9/2016)
`Packers Plus advertising brochure (2010)
`
`- vii -
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`
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`
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`Case IPR2016-01506
`Patent 7,861,774
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`
`2019
`
`2020
`
`2021
`
`2022-2038
`2039
`
`2040
`2041
`
`2042
`
`2043
`2044
`2045
`2046
`
`2047
`
`2048
`2049
`2050
`2051
`2052
`2053
`2054
`
`2055
`
`2056
`
`Baker Hughes, “FracPoint Completion System Isolated
`Openhole Horizontal Well in Lower Huron Shale” (2011)
`Baker Hughes, Enhancing Well Performance Through
`Innovative Completion Technologies,” presentation, (Sept.
`10-12, 2012)
`Canadian Society for Unconventional Resources, Press
`Release, “Unconventional Industry Awards Innovative
`Thinking” (Oct. 3, 2012)
`reserved
`Weatherford presentation titled, “Openhole Completion
`Systems
`Halliburton v. Packers Plus, Fourth Amended Petition
`Baker Hughes’ and Peak Completions’ Subpoena to
`Halliburton
`Rapid Completions v. Baker Hughes, et al. Order dismissing
`Pegasi
`reserved
`Vikram Rao Deposition Transcript
`Westin, Scott, Private Property, PwC, (Jan. 2, 2013)
`Yager, David, Court Case Now On: It’s Packers Plus
`Versus The World – Here’s What’s at Stake for Multi-stage
`Horizontal Completion Companies, EnergyNow Media
`(Feb. 23, 2017)
`BH00364675, CONFIDENTIAL Ball activated sliding
`sleeves report
`UNREDACTED J.J. Girardi Decl.
`REDACTED J.J. Girardi Decl.
`UNREDACTED H. McGowen Decl.
`REDACTED H. McGowen Decl.
`Baker Hughes Design Documents
`Packers Plus Design Document
`Rigzone, Schlumberger Acquires Stake in Packers Plus
`(Nov. 22, 2005)
`Britt, L. and Smith, M., Horizontal Well Completion,
`Stimulation Optimization, and Risk Mitigation, SPE 125526
`(2009)
`Packers Plus case study, StackFRAC system provides
`superior production economics
`
`
`
`
`- viii -
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`Case IPR2016-01506
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`Packers Plus Case Study, StackFRAC HD system enables
`high stimulation rates
`Packers Plus StackFRAC Video,
`http://packersplus.com/solution/stackfrac-hd-system/
`Baker Hughes FracPoint Video,
`https://www.youtube.com/watch?v=s5ZQCRRZzXE
`reserved
`Business News Network Packers Plus Feature
`Ingersoll, C, “BP and the Deepwater Horizon Disaster of
`2010” (Apr. 3, 2012)
`Crosby, D.G., “Methodology to Predict the Initiation of
`Multiple Transverse Fractures from Horizontal Wellbores”
`(2001)
`Kaiser, P., “Hydraulic Fracturing Mine Back Trials – Design
`Rationale and Project Status” (2013)
`Stoltz, L.R., “Probabilistic Reserves Assessment Using A
`Filtered Monte Carlo Method In a Fractured Limestone
`Reservoir” SPE 39714 (1998)
`Emanuele, M. A., “A Case History: Completion and
`Stimulation of Horizontal Wells with Multiple Transverse
`Hydraulic Fractures in the Lost Hills Diatomite” SPE 39941
`(1998)
`Gaynor, Tom M., “Tortuosity Versus Micro-Tortuosity –
`Why Little Things Mean a Lot” SPE/IADC 67818 (2001)
`Cramer, David, “Stimulating Unconventional Reserviors:
`Lessons Learned, Successful Practices, Areas for
`Improvement” SPE 114172 (2008)
`Ahmadzamri, A.F., “Development and Testing of Advanced
`Wireline Conveyance Technology for Rugose Open Hole
`Conditions” IPTC 17442 (2014)
`Calixto, Eduardo, “Gas and Oil Reliability Engineering,
`Modeling and Analysis” 2nd Edition (2016)
`Cramer, D.D., “The Application of Limited-Entry
`Techniques in Massive Hydraulic Fracturing Treatments”
`SPE 16189 (1987)
`Lloyd, B., “Rotary steerable drilling improves deployment
`of advanced completion” World Oil, January 2011
`reserved
`
`2057
`
`2058
`
`2059
`
`2060
`2061
`2062
`
`2063
`
`2064
`
`2065
`
`2066
`
`2067
`
`2068
`
`2069
`
`2070
`
`2071
`
`2072
`
`2073
`
`
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`Case IPR2016-01506
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`Feng Yuan, “Single-Size-Ball Interventionless Multi-Stage
`Stimulation System Improves Stimulated Reservoir Volume
`and Eliminates Milling Requireents: Case Studies,
`SPE171183-MS, 2014
`A.B. Yost, “Hydraulic Fracturing of a Horizontal Well in a
`Naturally Fractured Reservoir: Gas Study for Multiple
`Fracture Design,” SPE 17759, 1988
`A.W. Layne, Insights Into Hydraulic Fracturing of a
`Horizontal Well in a Naturally Fractured Formation,” SPE
`18255, 1988
`A.B. Yost, “Air Drilling and Multiple Hydraulic Fracturing
`of a 72 Slant Well in Devonian Shale,” SPE 21264, 1990
`H.H. Abass, A Case History of Completing and Fracture
`Stimulating a Horizontal Well, SPE 29443
`A.P. Damgaard, “A Unique Method for Perforating,
`Fracturing, and Completing Horizontal Wells, SPE 19282
`reserved
`UNREDACTED McGowen Supplemental Declaration
`Michael Delaney Declaration
`William Diggons Declaration
`REDACTED McGowen Supplemental Declaration
`Ali Daneshy Deposition Transcript (3/29/2017)
`Rigzone TRAINING, How Does Acidizing Work to
`Stimulate Production?,
`http://www.rigzone.com/training/insight.asp?insight_id=320
`Carl T. Montgomery, Hydraulic Fracturing—History of an
`Enduring Technology, 2010
`R.E. Hurst, “Development and Application of ‘Frac’
`Treatments in the Permian Basin,” SPE 405 (1954).
`U.S. Patent No. 556,669
`Reserved
`Packers Plus Declaration
`V. Rao, 1984 and Beyond: The Advent of Horizontal Wells
`(JPT Oct. 2007)
`V. Rao & R. Rodriguez, “Accelerating Technology
`Acceptance: Hypotheses and Remedies for Risk-Averse
`Behavior in Technology Acceptance, SPE 98511 (2005)
`First Supplemental Berryman Report
`
`2074
`
`2075
`
`2076
`
`2077
`
`2078
`
`2079
`
`2080
`2081
`2082
`2083
`2084
`2085
`2086
`
`2087
`
`2088
`
`2089
`2090
`2091
`2092
`
`2093
`
`2094
`
`
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`2095
`2096
`2097
`
`2098
`
`2099
`
`2100
`
`U.S. Pat. No. 7,571,765
`Reserved
`Canadian trial transcript excerpt submitted as ex. 1027 in
`IPR2016-00598
`Austin et al. Simultaneous Multiple Entry Hydraulic
`Fracture Treatments of Horizontally Drilled Wells, SPE
`18263 (1988)
`Owens et al., Practical Considerations of Horizontal Well
`Fracturing in the “Danish Chalk,” SPE25058 (1992)
`Murray et al., A Case Study for Drilling and Completing a
`Horizontal Well in the Clinton Sandstone, SPE 37354
`(1996)
`
`
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`Case IPR2016-01506
`Patent 7,861,774
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`I.
`
`Introduction
`
`This is the second attempt made by Petitioners to render the claims of this
`
`patent unpatentable. Despite now having had multiple opportunities to marshal
`
`evidence of obviousness they have yet again failed to meet their burden. The
`
`evidence shows that, prior to 2001, a POSITA would have expected that cemented
`
`casing is an important component of effective multi-stage fracturing. As a result,
`
`the open hole ball drop method of fracturing developed by Packers Plus and recited
`
`in the claims at issue was not obvious at that time.
`
`II. Overview of the Patented Technology
`
`The claimed technology provides a method of fracturing multiple stages of
`
`an open hole horizontal wellbore (“open hole ball drop fracturing” or “OHBD”).
`
`All of the claims at issue require running a tubing string into a wellbore where at
`
`least a portion of the non-vertical section of the wellbore is exposed to the
`
`rockface. This tubing string must contain at least three solid body packers and two
`
`ball activated sliding sleeves as illustrated, for example, in Figure 1a:
`
`- 1 -
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`Case IPR2016-01506
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`When the packers are set, they seal against the wellbore wall and divide the
`
`horizontal section into multiple “open hole segments.” At this point, the operator
`
`may commence the fracturing operation.
`
`Hydraulic fracturing is a process whereby fluid is pumped into a formation
`
`until the increase in pressure causes the rock to crack. In the claimed system, the
`
`fracturing operation begins by pumping a ball or plug onto the ball seat of a sliding
`
`sleeve. This ball is sized to pass through the ball seats closer to the surface and
`
`only seat on the seat of the sleeve it is designed to open. As the pumping increases
`
`the fluid pressure within the tubing string, the sleeve slides open to allow fluid
`
`communication between the inside of the tubing string and the segment to be
`
`fractured. Pumping is continued until this segment is fractured. Because the entire
`
`annular segment outside the sleeve is pressurized, the fracture can form at a natural
`
`weak point in the formation, as shown below:
`
`
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`- 2 -
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`Case IPR2016-01506
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`See also Ex. 2058, Packers Plus StackFRAC video at 3:15 (“Each fracture initiates
`
`in the open hole where breakdown pressure is lowest within the isolated stage.”)
`
`This process may be repeated for additional zones by dropping larger balls.
`
`III. Claim Interpretation
`
`A.
`
`Solid Body Packer
`
`The parties agree that a packer is a tool used to create a seal between the
`
`tubing string and borehole wall using a packing element. They dispute what
`
`distinguishes solid body packers from other types of packers.
`
`The intrinsic evidence makes clear that this term refers to a packer with an
`
`element that is solid rather than hollow, as is the case with inflatable packers. The
`
`specification explains: “In an open hole, preferably, the packers include solid body
`
`packers including a solid, extrudable packing element.” ’774 patent at 4:4-4:5. In
`
`describing the figure 1 embodiment, it further explains that the “packers are of the
`
`solid body-type with at least one extrudable packing element, for example, formed
`
`of rubber.” ’774 patent at 6:29-6:30. It contrasts this type of packer with
`
`“inflatable element packers,” which it describes as being “inflated with pressure
`
`using a bladder.” Id. at 1:43-48. Thus, if the Panel believes that a construction is
`
`appropriate, it should construe this term to mean “a packer including a solid,
`
`extrudable packing element.”
`
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`Petitioners’ proposal is based on a legal misunderstanding. According to
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`Petitioners, the Board should narrow the scope of this term because of the
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`following statement contained in a provisional application: “A solid body packer is
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`defined as a tool to create a seal between tubing and casing or the borehole wall
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`using a packing element which is mechanically extruded, using either mechanically
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`or hydraulically applied force.” Provisional Application No. 60/404,783 filed on
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`Aug. 21, 2002. The problem with their argument is that this statement was made
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`in a provisional application and never incorporated into the intrinsic evidence.
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`Under these circumstances, the provisional application is decisive evidence that
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`Petitioners’ proposed construction is incorrect.
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`In MPHJ Tech. Investments, LLC v. Ricoh Americas Corp., 847 F.3d 1363,
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`1367 (Fed. Cir. 2017), the patent at issue traced priority back to a provisional
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`application. That provisional application contained a disclaimer limiting the scope
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`of the claimed invention. When the applicant filed its non-provisional application,
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`it decided not to include that disclaimer in the application. The Federal Circuit
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`held that the patentee’s decision to delete the limiting language from the indicated
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`that the relevant claims were not limited as described in the provisional
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`application. Id. at 1369.
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`Just as in MPHJ, the patent at issue in this proceeding omitted the allegedly
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`limiting definition contained in a provisional application. Accordingly, the claims
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`must not be limited by that provisional application language. See also dunnhumby
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`USA, LLC v. emnos USA Corp., No. 13-CV-0399, 2015 WL 1542365, at *11 (N.D.
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`Ill. Apr. 1, 2015). (refusing to consider a provisional application part of the file
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`history even though the patent-at-issue listed the provisional application as a
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`priority document); Ring Plus, Inc. v. Cingular Wireless, LLC, No. CIV.A. 2:06-
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`CV-159DF, 2007 WL 5688765, at *10 (E.D. Tex. July 9, 2007) (refusing to import
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`limitations from a provisional application and noting that such reliance on a
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`provisional application relates to validity, i.e., the priority date, not claim
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`construction); Cf. Vederi, LLC v. Google, Inc., 744 F.3d 1376, 1383 (Fed. Cir.
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`2014) (treating provisional application as intrinsic evidence only after noting that it
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`was incorporated by reference into the asserted patents).
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`B.
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`The Second Annular Wellbore Segment
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`The broadest reasonable interpretation for this term requires that the second
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`annular wellbore segment be in an open hole, non-vertical section of the wellbore.
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`Thus, when claim 1 requires “pumping fracturing fluid through the second port and
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`into the second annular wellbore segment to fracture the hydrocarbon containing
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`formation” this limitation requires pumping the fracturing fluid into an open hole,
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`non-vertical segment.
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`This interpretation is supported by the language of claim 1 which requires
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`creating a second annular wellbore segment that “provid[es] access to the
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`hydrocarbon-containing formation along the wellbore wall in the open hole and
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`uncased, non-vertical section of the wellbore.” This limitation provides the
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`antecedent basis for the subsequent fracturing limitation that refers to “the second
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`annular wellbore segment.” Thus, claim 1 requires fracturing through an open
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`hole, non-vertical segment. Both parties’ experts agree on this conclusion. Ex.
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`2044, V. Rao Depo. Tr. at 78:22-79:1; Ex. 2050, McGowen Decl. at 16; Ex. 2017,
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`A. Daneshy Depo. Tr. at 51:3-14.
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`IV. Obviousness Analysis
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`Petitioners do not contend that anyone performed the claimed method prior
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`to the inventors’ use of the method described below. They rely only on
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`obviousness. A patent is invalid for obviousness “if the differences between the
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`subject matter sought to be patented and the prior art are such that the subject
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`matter as a whole would have been obvious at the time the invention was made to a
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`person having ordinary skill in the art to which said subject matter pertains.” 35
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`U.S.C. § 103. Obviousness is a question of law based on underlying factual
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`findings: (1) the scope and content of the prior art; (2) the differences between the
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`claims and the prior art; (3) the level of ordinary skill in the art; and (4) objective
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`indicia of nonobviousness. Graham v. John Deere Co. of Kansas City, 383 U.S. 1,
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`17–18 (1966). The Board must consider all four Graham factors prior to reaching
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`a conclusion regarding obviousness. In re Cyclobenzaprine Hydrochloride
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`Extended–Release Capsule Patent Litig., 676 F.3d 1063, 1076–77 (Fed. Cir. 2012).
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`Petitioners bears the burden of proving obviousness by a preponderance of the
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`evidence. 35 U.S.C. § 316(e).
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`A. The Level of Ordinary Skill in the Art
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`Factors that may be considered in determining the level of ordinary skill in
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`the art include: (1) the educational level of the inventor; (2) type of problems
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`encountered in the art; (3) prior art solutions to those problems; (4) rapidity with
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`which innovations are made; (5) sophistication of the technology; and (6)
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`educational level of active workers in the field. Orthopedic Equipment Co., Inc. v.
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`All Orthopedic Appliances, Inc., 707 F.2d 1376 at 1381–1382 (Fed.Cir.1983). Not
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`all such factors may be present in every case, and one or more of these or other
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`factors may predominate in a particular case. “The important consideration lies in
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`the need to adhere to the statute, i.e., to hold that an invention would or would not
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`have been obvious, as a whole, when it was made, to a person of ‘ordinary skill in
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`the art’—not to the judge, or to a layman, or to those skilled in remote arts, or to
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`geniuses in the art at hand.” Envtl. Designs, Ltd. v. Union Oil Co. of California,
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`713 F.2d 693, 696–97 (Fed. Cir. 1983).
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`According to Petitioners, a person of ordinary skill in the art relevant to the
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`’774 Patent as of November 19, 2001 would have had at least a Bachelor of
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`Science degree in mechanical, petroleum, or chemical engineering and at least 2-3
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`years of experience with downhole completion technologies related to fracturing.
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`Pet. at 10. Petitioners also contend that a POSITA would be aware of efforts to
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`minimize cost and motivated to perform fracture stimulation as efficiently as
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`possible. Pet. at 26-27. Respondent does not dispute these statements. However,
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`the need to minimize cost does not mean that a POSITA would compromise
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`engineering principles or act contrary to accepted wisdom. see also Standard Oil
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`Co. v. American Cyanamid Co., 774 F.2d 448, 454 (Fed.Cir.1985) (“A person of
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`ordinary skill in the art is also presumed to be one who thinks along the line of
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`conventional wisdom in the art.”). Because Petitioners fail to appreciate this
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`principle, their obviousness analysis is mistaken.
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`1.
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`A POSITA Would Have Been Aware of a Variety of
`Different Completion Techniques.
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`Preparing a wellbore for oil or gas production can be significantly more
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`complicated than simply drilling a hole in the ground. Rather, an operator must
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`decide the specific drilling path for the wellbore, the underground formations to
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`target, mechanisms to protect the wellbore, and whether anything will be done to
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`stimulate the well to increase production, among other things.
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`In 2001, one of the simplest ways to complete a horizontal well was to
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`cement and case the vertical portion of the well, and leave the horizontal pay
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`interval open to the formation. Using this type of completion, the overburden
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`pressure of the earth forces hydrocarbons into the open portion of the wellbore and
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`up to the surface. The casing prevents oil and gas from seeping out of the wellbore
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`(e.g., to protect groundwater sources), as shown below:
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`Another technique for completing a wellbore is to use a (non-cemented)
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`perforated liner or casing. This completion type is similar to an open hole
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`completion, except that a length of liner or casing with holes is installed into the
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`horizontal wellbore section. Similar to an open hole completion, the entire rock
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`face of the horizontal wellbore section is directly exposed to the wellbore, but the
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`liner or casing protects against collapse of the wellbore. This type of completion is
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`illustrated below:
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`Although an open hole completion or a non-cemented cased hole completion
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`can be effective for many types of wells, these co