Colebrook – White

This equation is recommended for use by those unfamiliar with pipeline flow equations, since it will produce the greatest consistency of accuracy over the widest possible range of variables.

This equation is limited for use when the Reynolds number exceeds 4000.

Friction factor is solved using Newton-Raphson method.

PTLB Hydraulics 2.5 Intro.png

𝑓 βˆ’ Friction Factor
D – Inside Pipe Diameter[in]
πœ€ βˆ’ Pipe Roughness[in]

 
PTLB Hydraulics Liquid 2.2 Intro.png

𝐻 βˆ’ Head Loss[ft]
𝐿 βˆ’ Pipe Length[mi]
𝑉𝐢 βˆ’ Average Velocity[ft/sec]
𝑓 βˆ’ Friction Factor
D – Inside Pipe Diameter[in]
𝐺 βˆ’ Liquid Specific Gravity
𝐴 βˆ’ Area[ft2]
𝑄 βˆ’ Flow Rate[bbl/day]

 
PTLB Hydraulics Liquid 2.2 Intro_2.png

𝐻𝑃1Β βˆ’ Upstream Head Pressure[ft]
𝐻𝑃2Β βˆ’ Downstream Head Pressure[ft]
𝐻1Β βˆ’ Upstream Elevation[ft]
𝐻2Β βˆ’ Downstream Elevation[ft]
𝐻 βˆ’ Head Loss[ft]
𝑆𝐺 βˆ’ Specific Gravity
𝑃1Β βˆ’ Upstream Pressure[psi]
𝑃2Β βˆ’ Downstream Pressure[psi]

 

Input Parameters

  1. To create a new case, click the β€œAdd Case” button
  2. Select the Unknown and desired Flow Equation.
  3. Enter Case Name, Location, Date and any necessary notes.
  4. Fill out all required fields.
  5. Make sure the values you are inputting are in the correct units.
  6. Click the CALCULATE button.

  • Flowing Temperature base(Β°F)
  • Outside Pipe Diameter [in]
  • Flowing Temperature(Β°F)
  • Liquid Specific Gravity
  • Upstream Pressure(psig)
  • Absolute Pipe Roughness
  • Internal Pipe Diameter(in)
  • Length of Pipeline(mi)
  • Kinematic Viscosity
  • Upstream Elevation(ft)
  • Downstream Elevation(ft)

 

Outputs/Reports

  1. View the results.
  2. If an input parameter needs to be edited be sure to hit the CALCULATE button after the change.
  3. To SAVE, fill out all required case details then click the SAVE button.
  4. To rename an existing file, click the SAVE As button. Provide all case info then click SAVE.
  5. To generate a REPORT, click the REPORT button.
  6. The user may export the Case/Report by clicking the Export to Excel/PowerPoint icon.
  7. To delete a case, click the DELETE icon near the top of the widget.

  • Flow Rate(ft/sec.)
  • Friction Factor
  • Head Loss [ft]
  • Pressure Loss [psi/mi]
  • Average Velocity(ft/sec.)
  • Upstream Pressure(psi)
  • Downstream Pressure(psi)
  • Internal Pipe Diameter(in)
  • Erosional Velocity (ft/sec.)
  • Sonic Velocity (ft/sec.)
Flow Rate

PLTB Hydraulics-Liquid 2.2_Output Flow Rate Revision_07232020.png
PLTB Hydraulics-Liquid 2.2_Output Flow Rate Revision 2_07232020.png

 

Upstream Pressure

PLTB Hydraulics-Liquid 2.2_Output Upstream Revision_07232020.png
Β  Β PLTB Hydraulics-Liquid 2.2_Output Upstream 2 Revision_07232020.png

 

Downstream Pressure

PLTB Hydraulics-Liquid 2.2_Output Downstream Revision_07232020.png
PLTB Hydraulics-Liquid 2.2_Output Downstream 2 Revision_07232020.png

 

Internal Pipe DiameterΒ 

PLTB Hydraulics-Liquid 2.2_Output IPD Revision_07232020.png
PLTB Hydraulics-Liquid 2.2_Output IPD 2 Revision_07232020.png
 

Related Links

Pipeline HUB β€” User Resources

Table of Contents
Table of Pages
Table of Contents
  1. Pipeline HUB User Resources
  2. AC Mitigation PowerTool
  3. API Inspector's Toolbox
  4. Horizontal Directional Drilling PowerTool
  5. Crossings Workflow
  6. Hydrotest PowerTool
  7. Pipeline Toolbox
  8. Encroachment Manager
  9. PRCI AC Mitigation Toolbox
  10. PRCI RSTRENG
  11. RSTRENG+
  12. Ad-hoc Analysis
  13. Database Import
  14. Data Availability Dashboard
  15. ESRI Map
  16. Report Builder
  17. Crossings Workflow
  18. Hydrotest PowerTool
  19. Investigative Dig PowerTool
  20. Hydraulics PowerTool
  21. External Corrosion Direct Assessment Procedure - RSTRENG
  22. Canvas
  23. Definitions
  24. Pipe Schedule and Specifications Tables