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  • September 13, 2021 - September 17, 2021
    8:00 am - 5:00 pm

http://ancorador.com.br/internet/blogs/jovens-cariocas-criaram-site-para-compartilhar-suas-paixoes-os-drinks http://fpsonline.co.uk/wp-cron.php?doing_wp_cron=1573908652.6158359050750732421875 Course Length:  5 Days            http://tripmag.co.uk/top-trips-2017/ Course Dates:    September 13-17, 2021             enter site Course Venue:  Houston, Texas, USA

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go site This course starts with a synopsis of the well construction process including an overview of well engineering planning, design, analysis and operations. The course highlights modern well completion and workover design, analysis and execution. It will also present best practices regarding well/service equipment and operations. Focus will be on the conceptual design and detailed engineering design calculations involved in planning, constructing, completing and workover of a well.  Participants will be actively involved in all aspects of the technical process required to develop and deliver any cost-effective well plan, completions and workover. They will similarly gain a valuable perspective on how to manage the overall process in a dynamic team environment.



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Buy Soma And Norco This course is designed for drilling engineers, completions engineers, project engineers, geoscientists, reservoir engineers, production engineers, petroleum engineers




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  • Know/recognize the characteristics and applications of different types of completion and wellbore intervention (workover) rigs currently implemented in well construction engineering practice
  • Review the basic concepts often applied in the completions and wellbore intervention planning, design, analysis, implementation and operations for oil and gas wells
  • Utilize fundamental mechanics, and knowledge of basic completions and wellbore intervention technologies to make informed decisions on concept selection for well construction projects
  • Learn the processes, contemporary methods and challenges involved in the completions and wellbore intervention of onshore, offshore and Deepwater wells
  • Implement the various methods, metrics and processes used in lifecycle integrity assessment of well completions and wellbore intervention
  • Successfully apply industry standards and procedures in assessing risks of completions and wellbore intervention components and processes
  • Learn the processes involved in qualifying oil and gas wells structures for life extension projects, and the methods typically implemented in life extension analysis

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  • Introduction to the Deepwater setting, and the main challenges associated with wells to be completed in onshore and offshore environments; the progressive move into deeper water, with discussion of rig generations and capabilities. Licensing requirements for completions and wellbore intervention design and operations
  • Geological setting, pore pressure, fracture gradient, geo-mechanics: how the geological environments in onshore, offshore and Deepwater offer challenges to the construction and completion of Deepwater wells. Abnormal pressures – prediction, detection and drilling. Deepwater construction challenges and concerns
  • Well planning. Workflow for designing Deepwater oil and gas wells – environmental factors, water depth and seabed conditions, weather and current, rig selection, rig upgrades, and rig operating limits, survival limits, disconnect operations, subsea operating limits, deck loads, temperatures, subsurface hazards, surface foundation pipe, fluids program, cementing program, completions, well testing, etc
  • Completions and wellbore intervention Completions and wellbore intervention process for onshore, offshore and Deepwater well architecture – vertical, inclined, horizontal and multi-lateral and HPHT well types
  • Fundamentals of onshore, offshore and Deepwater completions: the key drivers in designing onshore, offshore and Deepwater completions
  • Onshore, offshore and Deepwater well completion design considerations – reservoir and mechanical considerations. Data requirements onshore, offshore and Deepwater well completion design
  • Design of Deepwater completions: key technical aspects associated with Deepwater wells, including perforation, sand control requirements and intelligent completions
  • Types of completions. Reservoir completion methods. Multiple zone single string completion. Lower and upper completion methods. Multi-zone single string completion. Dual zone dual string completion. Triple zone dual string completion. Onshore, offshore and Deepwater well completion design workflow
  • Isolation valves – barriers to contain fluids and prevent formation damage (FIV, RBV, Vault valve, etc). Types of wellhead, Corrosion and erosion inflow and tubing performance
  • Tubular design and movement – piston effect, bucking effect, temperature effect, high pressure effect, landing conditions, etc. Landing Strings: for well construction installation
  • Packer selection and tubing forces – packers types, packers generic mechanisms, permanent and retrievable packers, locator seals and anchor seals, setting packers, dual packers, compression packers, tension packers, inflatable packers, packer selection process, packer selection guide. Running the completions string – retrievable packers
  • Reservoir drive mechanism, sources of reservoir energy. Productivity index, IPR & VLP curves. Well inflow and outflow systems for various tubing sizes
  • Pump and gas lift-assisted completion designs. Coiled tubing deployed ESP. Jet, PCP, Hydraulic, Plunger and Beam pump completion designs
  • Perforating design and analysis. Perforating and formation damage – concept of skin, sources of skin, the many formation damage sources, techniques used to reduce the impact of well impairment, formation damage during workovers, etc
  • Sand formation properties and geology. Physics of sand producing reservoirs. Reservoir sanding problems. Sand detection; sand prediction and monitoring; sand production risk diagram, selection criteria. Deepwater sand control completion methods. Emerging Deepwater sand control emerging techniques
  • Matrix acidizing treatments design, analysis, monitoring and optimization. Conformance control methods. Hydraulic fracturing treatments design, analysis, monitoring and optimization. Permanent well monitoring and intelligent completions design, analysis optimization
  • Onshore, offshore and Deepwater wireline/coiled tubing/snubbing operations – snubbing operations, rig assisted snubbing system, push/pull snubbing machine, well control during normal operations, annular BOP, stripping BOP sequence when running it, etc
  • Coiled tubing – coiled tubing use, sand trap system, debris catching, under reaming, mechanical scale removal, high pressure jet washing, fishing and milling, removing and recovering obstructions, cutting pipe, milling, zone isolation
  • Well integrity life cycle – definition of well integrity, surface casing failure, annulus pressure buildup, well integrity management system, barrier system, tubing/annulus program, safety valve program, well barrier envelop, risk assessment considerations for well integrity, well quality and integrity, external and internal well integrity maintenance, etc
  • Onshore, offshore and Deepwater operations project management practices for completions and wellbore interventions
  • Onshore, offshore and Deepwater sand control field operations
  • Case studies to integrate the learning outcomes to provide a springboard for participants continued application of knowledge and skills