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  • PFC: Improving Business Decision Making to Improve Asset Development Economics

    Contains 1 Component(s) Recorded On: 10/14/2014

    Incredibly the average E&P asset development over the past 15 years has had a generally dismal outcome and has delivered only 60% of the value (NPV) that it promised at sanction. Due to the increasing technical complexity and to some extent the demographics of the industry – both ours and our supply chain providers in EPC industry – we find ourselves unable to make consistent and robust profits on new field developments. This presentation looks at recent records of delivering E&P asset developments and their performance.

    You may not have made it to the presentation in Houston, TX, but there's no reason we can't bring it to you. By registering for this session, you can listen to the speaker as he spoke live and watch the slides broadcast from the presentation without leaving your desk...all for FREE.

    Incredibly the average E&P asset development over the past 15 years has had a generally dismal outcome and has delivered only 60% of the value (NPV) that it promised at sanction. Due to the increasing technical complexity and to some extent the demographics of the industry – both ours and our supply chain providers in EPC industry – we find ourselves unable to make consistent and robust profits on new field developments. The world of E&P developments is seriously challenged and if we do not change, things are likely to get much worse.

    This presentation looks at recent records of delivering E&P asset developments and their performance. We will assess how we have chased volume over value. We will then investigate what are symptoms of the problem – chasing the wrong value levers and in turn destroying production and reserves recovery. We will discuss issues such as speed over value, portfolio management in today's context and whether the state of our EPC supply chain helps or hurts our projects. However, we will focus our attention on what we believe to be the real root cause of our performance and the changes needed in our approach.

    E&P asset delivery takes a great deal of cross-functional work and cooperation and that is not being delivered. We will end the talk by discussing a possible solution – creating business accountability in the form of an Asset Development Manager – a Chief Integrator if you will – who is actually responsible for integrating this complex puzzle and delivering barrels.


    SPE Webinars are FREE to members courtesy of the

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    Neeraj Nandurdikar

    Director, Independent Project Analysis, Inc

    Mr. Nandurdikar is Director of the Exploration and Production (E&P) practice at Independent Project Analysis, Inc. Neeraj provides strategic direction and oversees the global practice including customer relations, intellectual property development, research, and project consulting services. Neeraj has spent the past 15 years in an advisory role working with the EVPs, VPs, heads of projects, and functional leaders of more than 30 different O&G operators and service providers around the world helping them design, build, and optimize their organizations and project delivery systems to adapt to the ever-changing project environment.

    Neeraj has authored several papers published in Society of Petroleum Engineers (SPE), delivered keynote addresses, and served as a committee member for several SPE workshops and conferences. He currently serves as an Associate Editor for SPE's Economics & Management journal.

    Neeraj holds an M.S. in Petroleum Engineering from The University of Tulsa and an MBA from the Wharton Business School of the University of Pennsylvania.

    SPE Webinars are FREE to members courtesy of the

  • Hydrocyclones for Water Treating—The Science and Technology

    Contains 2 Component(s)

    Presented by John M. Walsh

    Thirty years ago, the Colman-Thew paper was published describing the geometry and performance characteristics of a cyclone device for removing oil drops from water. Uptake of this technology occurred immediately throughout the industry.

    In this SPE Webinar, the fundamental science behind the hydro-cyclone will be discussed together with practical considerations of model selection and implementation within a separation process. Field experience related to separation performance, detection and prevention of fouling will also be covered.


    SPE Webinars are FREE to members courtesy of the

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    John M. Walsh, SPE, is a principal engineer with GHD, an engineering and consultancy company specializing in water treatment. He recently retired from Shell where he was the global subject matter expert in upstream water treating.

    He has more than 20 years’ experience in the E&P industry, having worked in Shell technical centers for half of his career and in operating assets for the other half. He has designed water treating system, and has experience in nearly all areas of water treating for the oil and gas industry including conventional produced water treating systems, and water treating for waterflood, polymer flood, steamflood, sour hydrocarbons, and unconventional hydrocarbons.

    Walsh served on the SPE Board of Directors as the technical director for the Projects, Facilities, and Construction discipline. He earned a PhD in chemical engineering from Johns Hopkins University.

    SPE Webinars are FREE to members courtesy of the

  • Research Fellowship Award winners – Part 1: Fracturing Fluids, Improved Hydrocarbon Estimation and Role of Microfractures on Hydraulic Fracturing

    Contains 1 Component(s) Recorded On: 10/08/2014

    In November 2012, SPE named the six inaugural winners of the SPE Research Fellowship Award. The award provides initial seed funding to new faculty for creative research ideas and enables them to secure initial research funding to establish their network and credibility with the industry, in their field of study. It is also directed at developing and retaining faculty. This webinar will be the first of two webinars, presenting the findings of three of the six award winners: Reza Barati, Zoya Heidari and A. Dahi-Teleghanii.

    In November 2012, SPE named the six inaugural winners of the SPE Research Fellowship Award. The award provides initial seed funding to new faculty for creative research ideas and enables them to secure initial research funding to establish their network and credibility with the industry, in their field of study. It is also directed at developing and retaining faculty.

    This webinar will be the first of two webinars, presenting the findings of three of the six award winners: Reza Barati, Zoya Heidari and A. Dahi-Teleghanii.


    SPE Webinars are FREE to members courtesy of the

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    Reza Barati

    PhD, University of Kansas

    Reza Barati earned his PhD at the University of Kansas. He worked for the Enhanced Oil Recovery Institute (EORI) at the University of Wyoming before joining KU. His research interests include oilfield nanoparticles, characterization and simulation of conventional and tight shale reservoirs, hydraulic fracturing and horizontal drilling of unconventional shale plays, enhanced waterflooding through modification of injection-brine and CO2 Mobility and conformance control.

    Arash Dahi-Taleghani

    Assistant Professor, Louisiana State University

    Arash Dahi-Taleghani is an assistant professor in the department of Petroleum Engineering at the Louisiana State University (LSU). He is conducting research on geomechanical aspects of underground blowout, zonal fractures at injector wells, mechanistic modeling of hydraulic fractures, microseismicity and geothermal engineering. Arash has a PhD in Petroleum Engineering from The University of Texas at Austin and is a registered engineer in the state of Texas. He earned his BS in Civil engineering and MS in Structural mechanics and material both from Sharif University of Technology.

    ​Zoya Heidari

    Assistant Professor, Texas A&M University

    Zoya Heidari is an assistant professor at the Petroleum Engineering Department of Texas A&M University and is the Chevron Corporation Faculty Fellow in Petroleum Engineering. She received a Ph.D. (2011) in petroleum engineering from The University of Texas at Austin. Zoya is the founder and the director of the Texas A&M Joint Industry Research Program on “Multi-Scale Formation Evaluation of Unconventional and Carbonate Reservoirs”. She is also one of the recipients of 2012 SPE Petroleum Engineering Junior Faculty Research Initiation Award to develop her research program on formation evaluation of unconventional reservoirs. Before joining Texas A&M University, Zoya worked with the Formation Evaluation Research Group at The University of Texas at Austin. Her research interests include petrophysics, well-log interpretation, borehole geophysics, inverse problems, rock physics, and reservoir characterization of unconventional and carbonate formations.

    SPE Webinars are FREE to members courtesy of the

  • CSB report on Deepwater Horizon BOP

    Contains 2 Component(s) Recorded On: 10/07/2014

    Presented by Stan Christman

    On June 5, 2014, the U.S. Chemical Safety Board (CSB) released its report on the Deepwater Horizon blowout preventer. Failures in this last physical barrier preceded the Macondo explosion, fire, and ensuing oil spill. This webinar will discuss analyses contained within the technical appendices that accompanied the CSB report whereby the CSB had access to all three phases of the BOP failure analysis data. Most of the major reports, except Transocean's, were either published before the final third phase was completed or did not have access or address the full set of data. Details that emerged in the third phase of testing are imperative to understand the failure of the BOP to seal the well.

    The webinar discussion will include how the incident unfolded, causes, contributing factors, and lessons to be learned. Additional organizational and operational failures were identified by the CSB and included in the main CSB report (http://www.csb.gov/macondo-blowout-and-explosion/), but are not topics addressed in this webinar.

    Following are the particular subjects:

    • Dynamic flow simulation results and a comparison with real time data (drill pipe pressure, returns flow, hookload)
    • Well integrity failure during the initial displacement for the negative pressure test
    • Negative pressure test interpretation
    • Development of well flow during the final displacement
    • BOP actuations by the crew; failure of the annular and sealing by a pipe ram
    • Buckling of the drill pipe and effective compression technology
    • How off-center buckled pipe prevented the blind shear ram from sealing
    • BOP deadman system problems and likely actuation
    • Possible impacts of friction from a closed pipe ram
    • Blind shear ram shearing capability
    • Use of BOP pressure sensors
    • BOP accumulator capacity


    SPE Webinars are FREE to members courtesy of the

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    Stan Christman
    • Went to the California Institute of Technology, B.S. Chemical Engineering
    • Career with Exxon and ExxonMobil, retired 2003

    Work Experience: 

    Various drilling and production engineering and management assignments, USA Drilling Technology Manager, USA Operations Technology Manager, and Executive Engineering Advisor
    • Post retirement consulting work
    • National Science Foundation: Oversight Committee on the upgrade of the scientific deep ocean drill ship, JOIDES Resolution
    • U.S. Chemical Safety Board: failure analysis of the Macondo Deepwater Horizon Blowout Preventer

    Professional Activities: 

    Drilling Engineering Association, SPE, IADC, API • Co-founder of the Drilling Engineering Association (DEA)
    • 12 SPE and IADC professional papers on a variety of drilling topics, most dealing with offshore floating drilling.
    • SPE: ATCE Production Engineering Program Committee (1985 – 1987), SPE/IADC Drilling Technology Conference Program Committee (1999), ATCE Drilling Technical Committee (1999 – 2001, 2001 Chairman)
    • IADC/OOC Deepwater Well Control Task Force: Steering committee member (1998 – 2000)
    • IADC: Industry Service Award in 1998; Distinguished Service Award in 2003.
    • API: Special Task Group on MODU Structural Inspections (chair); Task Force on EPA Hazardous Waste Regulation Development (RCRA), Specification Task Group on Blowout Preventer Control Systems; Specification Task Group on Drilling Marine Risers

    SPE Webinars are FREE to members courtesy of the

  • Deepwater Topics

    Contains 6 Component(s), Includes Credits Recorded On: 05/21/2013

    This is group of webinars that cover various topics on Deepwater topics:

    ***To learn more about each individual session, please click on each tab above. When you register, you are automatically registered for each event in the series.***

    This is group of webinars that cover various topics on Deepwater topics:

    Session I: CSB report on Deepwater Horizon BOP

    Session II: New Deepwater Technologies From JPT Young Technology Showcase

    Session III: Deepwater Well Construction Optimization


    SPE Webinars are FREE to members courtesy of the

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    Deepwater Well Construction Optimization

    As our industry moves to new offshore frontiers, with exploration wells being drilled in increasingly deeper waters, this presentation will discuss some of the technical challenges present in such operations, the magnitude of the costs involved, the risks and the need for well-structured planning, operation follow-up and post-drilling analysis. This will include possible risk analysis studies, use of real time data and importance of compliance with safety and environmental standards and regulations. An approach to optimize deepwater drilling operations will be described.

    Speaker

    JC Cunha is Drilling Manager for Ecopetrol America where he is responsible for the company's offshore operations in the GOM and gives support for Ecopetrol offshore operations in South America. Prior to his current position JC was Well Operations Manager for Petrobras America working on the company's ultra-deepwater drilling program in the GOM.

    Previously Dr. Cunha was a professor at the University of Alberta in Canada and before that he held several technical and managerial positions for Petrobras and Petrobras International in projects in South America, the GOM and Africa.

    He has authored more than 50 technical papers and also wrote chapters for two recently published SPE books. JC has a PhD in petroleum Engineering from the University of Tulsa, USA. A past JPT Editorial Committee Chair, JC is currently the co-chair for the SPE Technical Communities Coordinating Committee (TC-CC).

    CSB report on Deepwater Horizon BOP

    On June 5, 2014, the U.S. Chemical Safety Board (CSB) released its report on the Deepwater Horizon blowout preventer. Failures in this last physical barrier preceded the Macondo explosion, fire, and ensuing oil spill. This webinar will discuss analyses contained within the technical appendices that accompanied the CSB report whereby the CSB had access to all three phases of the BOP failure analysis data. Most of the major reports, except Transocean's, were either published before the final third phase was completed or did not have access or address the full set of data. Details that emerged in the third phase of testing are imperative to understand the failure of the BOP to seal the well.

    The webinar discussion will include how the incident unfolded, causes, contributing factors, and lessons to be learned. Additional organizational and operational failures were identified by the CSB and included in the main CSB report (http://www.csb.gov/macondo-blowout-and-explosion/), but are not topics addressed in this webinar.

    Following are the particular subjects:

    • Dynamic flow simulation results and a comparison with real time data (drill pipe pressure, returns flow, hookload)
    • Well integrity failure during the initial displacement for the negative pressure test
    • Negative pressure test interpretation
    • Development of well flow during the final displacement
    • BOP actuations by the crew; failure of the annular and sealing by a pipe ram
    • Buckling of the drill pipe and effective compression technology
    • How off-center buckled pipe prevented the blind shear ram from sealing
    • BOP deadman system problems and likely actuation
    • Possible impacts of friction from a closed pipe ram
    • Blind shear ram shearing capability
    • Use of BOP pressure sensors
    • BOP accumulator capacity

    Speaker

    Stan Christman

    Went to the California Institute of Technology, B.S. Chemical Engineering Career with Exxon and ExxonMobil, retired 2003

    Work Experience:

    Various drilling and production engineering and management assignments, USA Drilling Technology Manager, USA Operations Technology Manager, and Executive Engineering Advisor

    Post retirement consulting work National Science Foundation: Oversight Committee on the upgrade of the scientific deep ocean drill ship, JOIDES Resolution U.S. Chemical Safety Board: failure analysis of the Macondo Deepwater Horizon Blowout Preventer

    Professional Activities:

    Drilling Engineering Association, SPE, IADC, API • Co-founder of the Drilling Engineering Association (DEA)

    12 SPE and IADC professional papers on a variety of drilling topics, most dealing with offshore floating drilling. SPE: ATCE Production Engineering Program Committee (1985 – 1987), SPE/IADC Drilling Technology Conference Program Committee (1999), ATCE Drilling Technical Committee (1999 – 2001, 2001 Chairman) IADC/OOC Deepwater Well Control Task Force: Steering committee member (1998 – 2000) IADC: Industry Service Award in 1998; Distinguished Service Award in 2003. API: Special Task Group on MODU Structural Inspections (chair); Task Force on EPA Hazardous Waste Regulation Development (RCRA), Specification Task Group on Blowout Preventer Control Systems; Specification Task Group on Drilling Marine Risers

    New Deepwater Technologies From JPT Young Technology Showcase

    This webinar event is mini-panel of young technologies deployed in deepwater which have been featured in JPT under the Young Technology Showcase series. It will feature a short keynote addressing the importance of new technology for present and future deepwater developments, followed by two presentations on Young Technologies.

    The two presentations include:

    1. A new Managed Pressure

    Drilling (MPD) technique called EC-Drill for use on floating drilling vessels.

    2. Today's oilfields are continuously increasing in complexity, risk and cost. Because of these constraints, the gathering of reservoir surveillance data with permanently installed sensors or production logging tools (PLT) may often be cost-prohibitive or technically unfeasible.

    Speaker

    Art J. Schroeder Jr.
    Manager for DeepStar® Deepwater Research Consortium

    Art has over 25 years experience in operations, engineering, construction, strategy development, and crisis management. He is currently providing consultancy services to DeepStar, a Chevron managed 80+ member consortium focused on collaborative space, deepwater technology identification and development. He sits on several corporate, professional, and civic boards and has published numerous technical papers

    Art was graduated from Georgia Tech with both a B.S. and M.S. in Chemical Engineering with a minor in Environmental Engineering, and from the University of Houston with an MBA, major in Finance and International Business. He has also completed several post graduate certificate programs.

    James Dech
    Senior Drilling Engineer, AGR Subsea

    James A. Dech has over 34 years in the upstream oil industry with nearly 27 years in the development and evaluation of the application of new technologies. He is currently a Senior Project Engineer for AGR Enhanced Drilling providing engineering, technical, and software support for the development of the new MPD (Managed Pressure Drilling) system they are developing.

    Prior to joining AGR, he worked in a similar capacity with Ocean Riser System and was an international consultant working for companies primarily in Mexico and Norway. He also worked was a Vice President for 6 years for Maurer Engineering and 12 years for Atlantic Richfield Company where he was involved with the initial development and field testing of the medium-radius horizontal drilling systems and participated in several horizontal drilling projects around the world. He has a BSPE from Marietta College, Ohio in 1979.

    Brock Williams
    General Manager RESMAN USA

    Brock Williams joined RESMAN as General Manager for RESMAN's North American operations in 2010. Prior to RESMAN, Brock spent 28 years working for BP in a variety of positions in Lafayette, Louisiana; Aberdeen, Scotland; Anchorage, Alaska and Houston, Texas. Brock's last assignment in BP was Intelligent Wells Project Manager where he worked with technology providers to develop reservoir surveillance technologies

  • Reservoir Surveillance of Mature Floods Using Streamline-based Workflows

    Contains 3 Component(s), Includes Credits Recorded On: 10/02/2014

    Presented by Dr. Rod Batycky

    Streamline-based flow simulation has traditionally been viewed as a modeling approach that is complementary to other flow simulation methods. However, streamlines are also ideally suited to the much more common application of reservoir surveillance of mature floods. Because the streamline paths themselves yield well drainage regions and well-pair allocation factors, engineers can reduce complex production data down to the pattern level in a robust and physics-based manner.

    This webinar will begin with some fundamentals of streamline simulation and surveillance. We will also discuss the minimum amount of data needed to build a surveillance model and how to interpret novel streamline-based surveillance metrics. Lastly, we will show that by knowing well-pair connections and pattern efficiencies, this provides the basis of a simple flood optimization via updated well rate targets.


    SPE Webinars are FREE to members courtesy of the

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    Dr. Rod Batycky is an expert in reservoir simulation with nearly 20 years of experience in reservoir engineering, flow simulation, and software development. He is a cofounder of Streamsim Technologies, Inc., which was founded in 1997 based on successful research he was involved with while at Stanford University. Today, Streamsim is the industry leader in streamline-based reservoir simulation and streamline-based engineering workflows for oilfield management. Dr. Batycky continues to be involved in development of new software workflows, engineering consulting projects, lectures, and training. He has worked first-hand on projects ranging from reservoir surveillance of mature fields, to full-field simulations of CO2, WAG, and polymer flooding for some of the largest fields in the world.

    Dr. Batycky received MSc and Ph.D. degrees in petroleum engineering from Stanford University, during which time he was also awarded SPE’s Cedrick K. Ferguson Medal. Previously he worked as a reservoir engineer with Shell Canada on a variety of projects including naturally fractured gas fields, mature waterflood revitalization, and source rock production. Prior to Shell Canada, he obtained a BSc in chemical engineering from the U. of Calgary. He is currently an associate editor for SPE-JCPT, a member of SPE, a registered P.Eng. with APEGA, and an author or co-author of several publications within the reservoir simulation community.

    0.15 CEUs offered.

    SPE Webinars are FREE to members courtesy of the

  • Introduction to Integrated Production Modeling and Case Studies

    Contains 2 Component(s) Recorded On: 09/24/2014

    Presented by Dr. Luigi Saputelli

    The main objectives of modeling flows of production fluids in wells, pipelines and risers are: to predict the pressure drops, the phase distributions, the potential for unsteady phase delivery (commonly referred to as slugging) and the thermal characteristics of the system. The key point from Integrated Production Modeling is that we eliminate fix boundary conditions as we can from the interconnected components, e.g. we don't control by a fix rate, a fixed BHP, or fixed THP, but through a common sink constraint and other boundary conditions are dynamically calculated.


    SPE Webinars are FREE to members courtesy of the

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    Dr. Luigi Saputelli is a petroleum engineer with 24 years’ experience in reservoir engineering, field development, production engineering, drilling engineering, production operations and oilfield automation projects. He holds a PhD in Chemical Engineering (2003) from the University of Houston, a M.Sc. in Petroleum Engineering (1996) from Imperial College, London, and a B.Sc. in Electronic Engineering (1990) from Universidad Simon Bolivar, Caracas, Venezuela

    Luigi worked as senior advisor in the North Kuwait Sabriyah-Mauddud, SEK Burgan GC01 and WK Minagish Oolite Kuwait Oil Company Digital Oil field efforts (2012-2014), Production Engineering Senior Advisor in Hess Corporation (2009-2012), Halliburton (2003-2009) where he acted as technical lead of various major projects such as Petrobras Barracuda-Caratinga fields Real Time Operations project (2005-2006), KOC KwIDF Digital Oilfield projects (2012-2014), PDVSA integrated modeling and field exploitation plans for Carito and Orocual fields (2006-2007); he later acted as Production Operations Regional Practice Manager and Field Development Global Practice Manager for Halliburton. He also worked in PDVSA E&P (1990-2001) and acted as a well planning senior advisor, production technologist, reservoir modeling and simulation engineer.

    He has worked in several countries such as Venezuela, Argentina, Brazil, Colombia, Saudi Arabia, Kuwait, United Arab Emirates, Nigeria, Thailand, Malaysia, Indonesia, England, Scotland and USA. He is an industry recognized researcher, lecturer, SPE Liaison and member of various SPE committees.

    He has published more than 60 industry papers and three patents on applied technologies for reservoir management, real time optimization and production operations.

    He is currently the President of Frontender Corporation and is currently engaged in various Digital Oilfield implementations around the world.

    SPE Webinars are FREE to members courtesy of the

  • Reciprocating Rod Lift (RRL)

    Contains 3 Component(s), Includes Credits Recorded On: 09/23/2014

    Presented by Rajan Chokshi, Bill Lane

    This is the second webinar in the series and will introduce participants to what, why and how of the artificial lift space. Webinars two through seven will present one form of artificial lift method with basic discussion on its components and application envelope. Final webinar will be on production optimization with artificial lift, digital oil field implementation examples. Animations and questions will be introduced for audience engagement and participation.

    Webinar 1: Introduction to Artificial Lift Aug 27 '14
    Webinar 2: Reciprocating Rod Lift (RRL) Sep 23 '14
    Webinar 3: Gas-Lift Oct 21 '14
    Webinar 4: Progressing Cavity Pumping (PCP) Nov 19 '14
    Webinar 5: Electrical Submersible Pumping (ESP) Dec 16 '14
    Webinar 6: Hydraulic Lift: Jet Pump & Piston Pump Jan 13 '15
    Webinar 7: Plunger Lift and Capillary Deliquification Feb 10 '15
    Webinar 8: Production Optimization for Artificial Lift Mar 3 '15


    SPE Webinars are FREE to members courtesy of the

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    JRajan Chokshi works for Weatherford International as Director of training and business development for artificial lift and production optimization systems in Houston. In a career spanning over 30 years, Rajan has worked on many petroleum and software engineering projects globally in the areas of multi-phase flow, artificial lift design, and production optimization. He continues to teach professional courses in these areas. His interests are developing and nurturing young talent globally, technology integration and commercialization. Rajan holds a Masters in Chemical Engineering from the IIT-Kanpur, India, and a Ph.D. in Petroleum from the University of Tulsa, USA.

    Bill Lane is Vice President of Emerging Technologies for Weatherford Artificial Lift Systems and a member of the Weatherford Unconventional Resources Team. He has been with Weatherford and the former EVI for 19 years in various executive positions including vice presidential positions over the Progressing Cavity Pump Business Unit, the Elastomers Business Unit, Artificial Lift Systems Engineering, Compression Equipment, and Completion Equipment. Before joining Weatherford in 1994, Lane managed various engineering and manufacturing operations in the U.S. and internationally for Halliburton Energy Services. In 2003 he was the recipient of a Harts E&P Special Meritorious Award for Engineering Innovation. He holds a BS in Mechanical Engineering and an MS in Mechanical Engineering Design, both from the University of Texas at Arlington. Lane has 37 years of experience in the O&G industry.

    SPE Webinars are FREE to members courtesy of the

  • Troubleshooting Separation Challenges Using Online Diagnostics

    Contains 2 Component(s) Recorded On: 09/10/2014

    Presented by Andrew Shaw

    This event will cover the following:

    • How to use Gamma scanning and Tracer technology to diagnose operating problems.
    • Verify real time process conditions and enhance process performance.
    • Verification of design parameters by understanding what is actually happening in the process.


    SPE Webinars are FREE to members courtesy of the

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    Andrew Shaw
    Commercial Manager
    Tracerco
    Andrew has over 10 years’ experience working for Tracerco as process diagnostics engineer and project manager, mainly focusing on oil and gas processing and separation offshore and onshore. He has worked on troubleshooting process issues all over the world and worked for major companies such as BP, Shell, ConocoPhillips and Statoil. His main area of expertise is in the field of process diagnostics using radioisotope technology.

    SPE Webinars are FREE to members courtesy of the

  • Test Product One

    Contains 1 Component(s)

    Brought to you by, Technical Sections. This is a summary of the product

    This is the full description of the product.