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Topic: Flow Assurance Analysis Training

  1. #1
    VGL
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    Flow Assurance Analysis Training

    Flow Assurance AnalysisTraining (Technical Method)

    The scope of the training cover detail flow assurance stability in pipelines. This popular course provides participants with a multidisciplinary understanding of flow assurance
    For more info contact: Tel: 08133476558, 07085740887
    Address: Opebi, Ikeja, Lagos State, Nigeria
    Email: vogwconcept50 (at) gmail.com

    Port Harcourt contact: 08032766980
    [IMG]file:///C:\Users\HIZ\AppData\Local\Temp\msohtmlclip1\01\cl ip_image002.png[/IMG]

    COURSE OUTLINE

    MODULE 1
    1.0. Fluid Properties and Phase behaviour modeling
    1.1. Component of production system
    1.2. Flow assurance concerns that need to be examined:

    • Pipeline rupture from corrosion
    • Pipeline blockage from hydrates or wax
    • Severe slugging can damage separator
    • Large pressure drop in pipelines can cause lower flow than should be

    MODULE 2
    2.1. Flow assurance strategies that need to be adopted:

    • Hydraulic Analysis – acceptable pressure drops, pipeline size, erosion & corrosion limits
    • Thermal Analysis – temperature distribution, heat loss
    • Inhibition Analysis – hydrate inhibitors, wax inhibitors, corrosion inhibitors, scale inhibitors

    2.2. Flow assurance strategies Terms
    · Beggs and Brill method
    · Volume fraction, holdup and water cut
    · Superficial velocity
    · Mixture velocity and density
    · Mass conservation
    · Momentum conservation
    · Energy conservation
    · Mass transfer between phases
    · Subsonic vs. transonic, supersonic and hypersonic flows

    MODULE 3
    3.1. Steady State Design:

    • Hydraulics
      • Line Sizing
      • Pressure Drop
      • Max./Min. Velocity
      • Flow Regime Prediction
      • Slugging (Hydrodynamic and Severe Slugging)
        • Pots equation for Severe Slugging (or Terrain Slugging)
        • Mean Slug Length and Probabilistic Model for
          • Slug Length (Hill & Wood Method)
          • Maximum Slug Length = 6 times the mean slug length
          • Slug Frequency (Hill & Wood Method)

    3.2· Pigging slugs
    o A quasi-transient model of Baker – McDonald

    • Thermal
      • Insulation Requirements:
        • Hydrate Formation
        • Wax Deposition

      • Insulation Types
        • Pipe-in-Pipe
        • Wet Insulation
        • Flexible Pipe

    MODULE 4
    4.1 Transient Design:

    • Shut Down
      • Planned
      • Unplanned
      • Extended

    • Depressurisation
    • Blow Down
    • Turn Down – Ramp up (For Gas Condensate Systems)
    • Start-up
      • Cold Start-up
      • Warm Start-up
      • Interrupted Start-up

    • Pigging
    • Presentation of Result and Project reporting
    • Project work/ Case study


    For more info contact: Tel: 08133476558, 07085740887
    Address: Opebi, Ikeja, Lagos State, Nigeria
    Email: vogwconcept50 (at) gmail.com


    Port Harcourt contact: 08032766980

  2. #2
    VGL
    VGL is offline
    Senior Member VGL's Avatar
    Join Date
    Dec 2010
    Posts
    224

    Re: Flow Assurance Analysis Training

    Flow Assurance AnalysisTraining (Technical Method)

    The scope of the training cover detail flow assurance stability in pipelines. This popular course provides participants with a multidisciplinary understanding of flow assurance
    For more info contact: Tel: 08133476558, 07085740887
    Address: Opebi, Ikeja, Lagos State, Nigeria
    Email: vogwconcept50 (at) gmail.com

    Port Harcourt contact: 08032766980
    [IMG]file:///C:\Users\HIZ\AppData\Local\Temp\msohtmlclip1\01\cl ip_image002.png[/IMG]

    COURSE OUTLINE

    MODULE 1
    1.0. Fluid Properties and Phase behaviour modeling
    1.1. Component of production system
    1.2. Flow assurance concerns that need to be examined:


    • Pipeline rupture from corrosion
    • Pipeline blockage from hydrates or wax
    • Severe slugging can damage separator
    • Large pressure drop in pipelines can cause lower flow than should be


    MODULE 2
    2.1. Flow assurance strategies that need to be adopted:


    • Hydraulic Analysis – acceptable pressure drops, pipeline size, erosion & corrosion limits
    • Thermal Analysis – temperature distribution, heat loss
    • Inhibition Analysis – hydrate inhibitors, wax inhibitors, corrosion inhibitors, scale inhibitors


    2.2. Flow assurance strategies Terms
    · Beggs and Brill method
    · Volume fraction, holdup and water cut
    · Superficial velocity
    · Mixture velocity and density
    · Mass conservation
    · Momentum conservation
    · Energy conservation
    · Mass transfer between phases
    · Subsonic vs. transonic, supersonic and hypersonic flows

    MODULE 3
    3.1. Steady State Design:


    • Hydraulics
      • Line Sizing
      • Pressure Drop
      • Max./Min. Velocity
      • Flow Regime Prediction
      • Slugging (Hydrodynamic and Severe Slugging)
        • Pots equation for Severe Slugging (or Terrain Slugging)
        • Mean Slug Length and Probabilistic Model for
          • Slug Length (Hill & Wood Method)
          • Maximum Slug Length = 6 times the mean slug length
          • Slug Frequency (Hill & Wood Method)


    3.2· Pigging slugs
    o A quasi-transient model of Baker – McDonald


    • Thermal
      • Insulation Requirements:
        • Hydrate Formation
        • Wax Deposition


      • Insulation Types
        • Pipe-in-Pipe
        • Wet Insulation
        • Flexible Pipe


    MODULE 4
    4.1 Transient Design:


    • Shut Down
      • Planned
      • Unplanned
      • Extended


    • Depressurisation
    • Blow Down
    • Turn Down – Ramp up (For Gas Condensate Systems)
    • Start-up
      • Cold Start-up
      • Warm Start-up
      • Interrupted Start-up


    • Pigging
    • Presentation of Result and Project reporting
    • Project work/ Case study



    For more info contact: Tel: 08133476558, 07085740887
    Address: Opebi, Ikeja, Lagos State, Nigeria
    Email: vogwconcept50 (at) gmail.com


    Port Harcourt contact: 08032766980

  3. #3
    VGL
    VGL is offline
    Senior Member VGL's Avatar
    Join Date
    Dec 2010
    Posts
    224

    Re: Flow Assurance Analysis Training

    Flow Assurance AnalysisTraining (Technical Method)

    The scope of the training cover detail flow assurance stability in pipelines. This popular course provides participants with a multidisciplinary understanding of flow assurance
    For more info contact: Tel: 08133476558, 07085740887
    Address: Opebi, Ikeja, Lagos State, Nigeria
    Email: vogwconcept50 (at) gmail.com

    Port Harcourt contact: 08032766980
    [IMG]file:///C:\Users\HIZ\AppData\Local\Temp\msohtmlclip1\01\cl ip_image002.png[/IMG]

    COURSE OUTLINE

    MODULE 1
    1.0. Fluid Properties and Phase behaviour modeling
    1.1. Component of production system
    1.2. Flow assurance concerns that need to be examined:


    • Pipeline rupture from corrosion
    • Pipeline blockage from hydrates or wax
    • Severe slugging can damage separator
    • Large pressure drop in pipelines can cause lower flow than should be


    MODULE 2
    2.1. Flow assurance strategies that need to be adopted:


    • Hydraulic Analysis – acceptable pressure drops, pipeline size, erosion & corrosion limits
    • Thermal Analysis – temperature distribution, heat loss
    • Inhibition Analysis – hydrate inhibitors, wax inhibitors, corrosion inhibitors, scale inhibitors


    2.2. Flow assurance strategies Terms
    · Beggs and Brill method
    · Volume fraction, holdup and water cut
    · Superficial velocity
    · Mixture velocity and density
    · Mass conservation
    · Momentum conservation
    · Energy conservation
    · Mass transfer between phases
    · Subsonic vs. transonic, supersonic and hypersonic flows

    MODULE 3
    3.1. Steady State Design:


    • Hydraulics
      • Line Sizing
      • Pressure Drop
      • Max./Min. Velocity
      • Flow Regime Prediction
      • Slugging (Hydrodynamic and Severe Slugging)
        • Pots equation for Severe Slugging (or Terrain Slugging)
        • Mean Slug Length and Probabilistic Model for
          • Slug Length (Hill & Wood Method)
          • Maximum Slug Length = 6 times the mean slug length
          • Slug Frequency (Hill & Wood Method)


    3.2· Pigging slugs
    o A quasi-transient model of Baker – McDonald


    • Thermal
      • Insulation Requirements:
        • Hydrate Formation
        • Wax Deposition


      • Insulation Types
        • Pipe-in-Pipe
        • Wet Insulation
        • Flexible Pipe


    MODULE 4
    4.1 Transient Design:


    • Shut Down
      • Planned
      • Unplanned
      • Extended


    • Depressurisation
    • Blow Down
    • Turn Down – Ramp up (For Gas Condensate Systems)
    • Start-up
      • Cold Start-up
      • Warm Start-up
      • Interrupted Start-up


    • Pigging
    • Presentation of Result and Project reporting
    • Project work/ Case study



    For more info contact: Tel: 08133476558, 07085740887
    Address: Opebi, Ikeja, Lagos State, Nigeria
    Email: vogwconcept50 (at) gmail.com


    Port Harcourt contact: 08032766980

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