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Udemy - Flow of fluids through piping systems , valves and pumps

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Udemy - Flow of fluids through piping systems , valves and pumps (Size: 3 GB)
  Bonus Resources.txt 102.4 B
  Get Bonus Downloads Here.url 204.8 B
  ~Get Your Files Here !
  1 - WR Training
  1. Welcome to WR Training.en_US.srt 0 B
  1. Welcome to WR Training.mp4 29 MB
  10 - REGULATING FLOW WITH CONTROL VALVES
  11 - MEASURING FLOW WITH DIFFERENTIAL PRESSURE METERS
  12 - LIQUID FLOW THROUGH ORIFICES, NOZZLES AND VENTURI
  13 - COMPRESSIBLE FLOW THROUGH ORIFICES, NOZZLES AND VENTURI
  14 - DOWNLOADABLE RESOURCES
  15 - FLOW PROBLEMS - LET'S GET SOME PRACTICE !!!
  1. Course feedback.html 17.9 KB
  100. About this flow problems section.en_US.srt 2 KB
  100. About this flow problems section.mp4 7.4 MB
  101. Example #1 Determining Reynolds Number (Re) and Friction Factor (f).en_US.srt 5.6 KB
  101. Example #1 Determining Reynolds Number (Re) and Friction Factor (f).mp4 56.2 MB
  102. Example #2 Y pattern valve resistance coefficient & equivalent lengths.en_US.srt 5.1 KB
  102. Example #2 Y pattern valve resistance coefficient & equivalent lengths.mp4 49 MB
  103. Example #3 Globe valve resistance K, equivalent lengths & flow coefficient Cv.en_US.srt 3.6 KB
  103. Example #3 Globe valve resistance K, equivalent lengths & flow coefficient Cv.mp4 19.5 MB
  104. Example #4 Gate valve resistance coef. K & equivalent lengths L D & L.en_US.srt 2.7 KB
  104. Example #4 Gate valve resistance coef. K & equivalent lengths L D & L.mp4 15.3 MB
  105. Example #5 Sizing lift check valves.en_US.srt 9.9 KB
  105. Example #5 Sizing lift check valves.mp4 70.3 MB
  106. Example #6 Fluid velocity and rate of discharge through a ball valve.en_US.srt 9.1 KB
  106. Example #6 Fluid velocity and rate of discharge through a ball valve.mp4 82.5 MB
  107. Example #7 Laminar flow in valves, fittings and pipe #1.en_US.srt 13.9 KB
  107. Example #7 Laminar flow in valves, fittings and pipe #1.mp4 122.1 MB
  108. Example #8 Laminar flow in valves, fittings and pipe #2.en_US.srt 7.9 KB
  108. Example #8 Laminar flow in valves, fittings and pipe #2.mp4 59.4 MB
  109. Example #9 Determining pressure drop in a piping system.en_US.srt 8.5 KB
  109. Example #9 Determining pressure drop in a piping system.mp4 81.6 MB
  110. Example #10 Sizing an orifice for a given pressure drop and fluid velocity.en_US.srt 16.6 KB
  110. Example #10 Sizing an orifice for a given pressure drop and fluid velocity.mp4 139.4 MB
  111. Example #11 Bernoulli's Theorem - Pressure drop and fluid velocity.en_US.srt 15.1 KB
  111. Example #11 Bernoulli's Theorem - Pressure drop and fluid velocity.mp4 113.8 MB
  112. Example #12 Process air - Pressure drop and velocity.en_US.srt 6.3 KB
  112. Example #12 Process air - Pressure drop and velocity.mp4 105.3 MB
  113. Example #13 Sizing a centrifugal pump for oil pipelines.en_US.srt 9.5 KB
  113. Example #13 Sizing a centrifugal pump for oil pipelines.mp4 75.3 MB
  114. Example #14 Flow of natural gas through pipelines.mp4 101.8 MB
  115. Example #15 Water discharging from a reservoir.mp4 82.7 MB
  116. Example #16 Gas flow at sonic velocity through pipe.en_US.srt 10.2 KB
  116. Example #16 Gas flow at sonic velocity through pipe.mp4 61.7 MB
  117. Bonus.en_US.srt 0 B
  117. Bonus.mp4 9.8 MB
  2 - ABOUT THE COURSE
  2. Introduction.en_US.srt 4 KB
  2. Introduction.mp4 40.9 MB
  3 - PHYSICAL PROPERTIES OF FLUIDS
  10. PRACTICE SESSION Weight density of liquids using Flow of Fluids Excel Workbook.en_US.srt 3 KB
  10. PRACTICE SESSION Weight density of liquids using Flow of Fluids Excel Workbook.mp4 76.4 MB
  11. Specific volume.en_US.srt 921.6 B
  11. Specific volume.mp4 4.6 MB
  12. Weight density of gases and vapors.en_US.srt 921.6 B
  12. Weight density of gases and vapors.mp4 6.3 MB
  13. PRACTICE SESSION Weight density of gases using Flow of Fluids Excel Workbook.en_US.srt 4 KB
  13. PRACTICE SESSION Weight density of gases using Flow of Fluids Excel Workbook.mp4 83.8 MB
  14. Specific gravity.en_US.srt 1.2 KB
  14. Specific gravity.mp4 2.5 MB
  15. PRACTICE SESSION Specific gravity using Flow of Fluids Excel Workbook.en_US.srt 2.1 KB
  15. PRACTICE SESSION Specific gravity using Flow of Fluids Excel Workbook.mp4 22.8 MB
  16. Vapor pressure.en_US.srt 2.8 KB
  16. Vapor pressure.mp4 17.3 MB
  17. PRACTICE SESSION Determining vapor pressure using Flow of Fluids Excel Workbook.en_US.srt 6.1 KB
  17. PRACTICE SESSION Determining vapor pressure using Flow of Fluids Excel Workbook.mp4 96.9 MB
  18. More charts and diagrams - The Chemical Engineer's Reference Folder.en_US.srt 1.8 KB
  18. More charts and diagrams - The Chemical Engineer's Reference Folder.mp4 37 MB
  4 - NATURE OF FLOW IN PIPE LAMINAR AND TURBULENT FLOW
  19. Introduction.en_US.srt 2.5 KB
  19. Introduction.mp4 9.5 MB
  20. Mean velocity of flow.en_US.srt 614.4 B
  20. Mean velocity of flow.mp4 1.9 MB
  21. PRACTICE SESSION Velocity of flow using Flow of Fluids Excel Workbook.en_US.srt 4.3 KB
  21. PRACTICE SESSION Velocity of flow using Flow of Fluids Excel Workbook.mp4 105.1 MB
  22. Reynolds number (Re).en_US.srt 1.4 KB
  22. Reynolds number (Re).mp4 5.8 MB
  23. PRACTICE SESSION Reynolds number using Flow of Fluids Excel Workbook.en_US.srt 1.5 KB
  23. PRACTICE SESSION Reynolds number using Flow of Fluids Excel Workbook.mp4 11.9 MB
  5 - BERNOULLI'S THEOREM
  24. Bernoulli's theorem.en_US.srt 1.6 KB
  24. Bernoulli's theorem.mp4 5.5 MB
  6 - MEASUREMENT OF PRESSURE
  25. Measurement of pressure.en_US.srt 1 KB
  25. Measurement of pressure.mp4 2.7 MB
  7 - HEAD LOSS AND PRESSURE DROP THROUGH PIPE
  26. Introduction.en_US.srt 2.1 KB
  26. Introduction.mp4 5.6 MB
  27. Friction factor.en_US.srt 5.2 KB
  27. Friction factor.mp4 46.5 MB
  28. Friction factor using the Colebrook equation.en_US.srt 512 B
  28. Friction factor using the Colebrook equation.mp4 2 MB
  29. Explicit approximations of Colebrook.en_US.srt 921.6 B
  29. Explicit approximations of Colebrook.mp4 2.5 MB
  30. PRACTICE SESSION Friction factor using Flow of Fluids Excel Workbook.en_US.srt 4.6 KB
  30. PRACTICE SESSION Friction factor using Flow of Fluids Excel Workbook.mp4 48 MB
  31. Hazen-Williams formula for flow of water.en_US.srt 921.6 B
  31. Hazen-Williams formula for flow of water.mp4 2.8 MB
  32. PRACTICE SESSION Hazen-Williams using Flow of Fluids Excel Workbook.en_US.srt 1.4 KB
  32. PRACTICE SESSION Hazen-Williams using Flow of Fluids Excel Workbook.mp4 9.6 MB
  33. Effect of age and use on pipe friction.en_US.srt 4.6 KB
  33. Effect of age and use on pipe friction.mp4 22.1 MB
  8 - COMPRESSIBLE FLOW IN PIPE
  34. Introduction.en_US.srt 1.3 KB
  34. Introduction.mp4 3.4 MB
  35. Definition of a perfect gas.en_US.srt 1.5 KB
  35. Definition of a perfect gas.mp4 5.9 MB
  36. Speed of sound and Mach number.en_US.srt 1.4 KB
  36. Speed of sound and Mach number.mp4 2.9 MB
  37. Approaches to compressible flow problems.en_US.srt 1.5 KB
  37. Approaches to compressible flow problems.mp4 3 MB
  38. Application of the Darcy equation to compressible fluids.en_US.srt 1.5 KB
  38. Application of the Darcy equation to compressible fluids.mp4 4.4 MB
  39. Complete isothermal equation.en_US.srt 1.3 KB
  39. Complete isothermal equation.mp4 4.7 MB
  40. Simplified isothermal gas pipeline equation.en_US.srt 1.3 KB
  40. Simplified isothermal gas pipeline equation.mp4 5.5 MB
  41. Other commonly used equations for compressible flow in long pipelines.en_US.srt 1.6 KB
  41. Other commonly used equations for compressible flow in long pipelines.mp4 9.9 MB
  42. Comparison of equations for compressible flow in pipelines.en_US.srt 3.7 KB
  42. Comparison of equations for compressible flow in pipelines.mp4 21.2 MB
  43. Modifications to the isothermal flow equation.en_US.srt 6.1 KB
  43. Modifications to the isothermal flow equation.mp4 46.2 MB
  44. Limiting flow of gases and vapors.en_US.srt 5.6 KB
  44. Limiting flow of gases and vapors.mp4 27.7 MB
  45. PRACTICE SESSION Expansion factor Y & ∆P using Flow of Fluids Excel Workbook.en_US.srt 5.5 KB
  45. PRACTICE SESSION Expansion factor Y & ∆P using Flow of Fluids Excel Workbook.mp4 75.3 MB
  9 - FLOW OF FLUIDS THROUGH VALVES AND FITTINGS
  46. Introduction.en_US.srt 2.3 KB
  46. Introduction.mp4 18.6 MB
  47. Types of valves used in piping systems.en_US.srt 819.2 B
  47. Types of valves used in piping systems.mp4 7.3 MB
  48. Types of fittings used in piping systems.en_US.srt 819.2 B
  48. Types of fittings used in piping systems.mp4 3 MB
  49. Pressure drop attributed to valves and fittings.en_US.srt 3 KB
  49. Pressure drop attributed to valves and fittings.mp4 11.8 MB
  50. Relationship of pressure drop to velocity of flow.en_US.srt 3.9 KB
  50. Relationship of pressure drop to velocity of flow.mp4 14.4 MB
  51. Hydraulic resistance.en_US.srt 1.2 KB
  51. Hydraulic resistance.mp4 3.9 MB
  52. Causes of head loss in valves and fittings.en_US.srt 1.3 KB
  52. Causes of head loss in valves and fittings.mp4 5.9 MB
  53. Equivalent length L D.en_US.srt 1.3 KB
  53. Equivalent length L D.mp4 6.4 MB
  54. Resistance coefficient K.en_US.srt 2.4 KB
  54. Resistance coefficient K.mp4 6.8 MB
  55. Resistance coef. K for pipelines, valves and fittings in series and in parallel.en_US.srt 1.9 KB
  55. Resistance coef. K for pipelines, valves and fittings in series and in parallel.mp4 10.8 MB
  56. Flow coefficient Cv.en_US.srt 1.7 KB
  56. Flow coefficient Cv.mp4 5.1 MB
  57. Use of flow coefficient Cv for piping and components.en_US.srt 2.3 KB
  57. Use of flow coefficient Cv for piping and components.mp4 8.6 MB
  58. Flow coefficient Cv for pipelines, valves and fittings in series and in parallel.en_US.srt 614.4 B
  58. Flow coefficient Cv for pipelines, valves and fittings in series and in parallel.mp4 1.1 MB
  59. Laminar flow conditions.en_US.srt 2.3 KB
  59. Laminar flow conditions.mp4 27.7 MB
  60. Contraction and enlargement.en_US.srt 1 KB
  60. Contraction and enlargement.mp4 2.4 MB
  61. PRACTICE SESSION Contraction & enlargement using Flow of Fluids Excel Workbook.en_US.srt 4.3 KB
  61. PRACTICE SESSION Contraction & enlargement using Flow of Fluids Excel Workbook.mp4 23.8 MB
  62. Valves with reduced seats.en_US.srt 2.3 KB
  62. Valves with reduced seats.mp4 10.2 MB
  63. PRACTICE SESSION Valve resistance coef. K using Flow of Fluids Excel Workbook.en_US.srt 1.5 KB
  63. PRACTICE SESSION Valve resistance coef. K using Flow of Fluids Excel Workbook.mp4 12.5 MB
  64. Resistance of bends.en_US.srt 5.9 KB
  64. Resistance of bends.mp4 32.7 MB
  65. PRACTICE SESSION Resistance of bends using Flow of Fluids Excel Workbook.en_US.srt 1.5 KB
  65. PRACTICE SESSION Resistance of bends using Flow of Fluids Excel Workbook.mp4 13.8 MB
  66. Hydraulic resistance of Tees and Wyes.en_US.srt 2.5 KB
  66. Hydraulic resistance of Tees and Wyes.mp4 11.5 MB
  67. Hydraulic resistance of Tees and Wyes Converging flow.mp4 5 MB
  68. Hydraulic resistance of Tees and Wyes Diverging flow.en_US.srt 1.3 KB
  68. Hydraulic resistance of Tees and Wyes Diverging flow.mp4 3.9 MB
  69. PRACTICE SESSION Resistance of T and Y using Flow of Fluids Excel Workbook.en_US.srt 2.6 KB
  69. PRACTICE SESSION Resistance of T and Y using Flow of Fluids Excel Workbook.mp4 26.1 MB
  70. Discharge of fluids through valves, fittings and pipe.en_US.srt 1.6 KB
  70. Discharge of fluids through valves, fittings and pipe.mp4 5 MB
  5. Introduction.en_US.srt 2.5 KB
  5. Introduction.mp4 9.4 MB
  6. Viscosity.en_US.srt 3.1 KB
  6. Viscosity.mp4 11.4 MB
  7. Kinematic viscosity.en_US.srt 3.3 KB
  7. Kinematic viscosity.mp4 33.6 MB
  8. PRACTICE SESSION Determining viscosity using Flow of Fluids Excel Workbook.en_US.srt 4.8 KB
  8. PRACTICE SESSION Determining viscosity using Flow of Fluids Excel Workbook.mp4 36.2 MB
  9. Weight density of liquids.en_US.srt 512 B
  9. Weight density of liquids.mp4 1.2 MB
  3. About Flow Of Fluids Excel Workbook.en_US.srt 1.3 KB
  3. About Flow Of Fluids Excel Workbook.mp4 10.9 MB
  4. Before you start this course.en_US.srt 2.3 KB
  4. Before you start this course.mp4 14.7 MB
  99. 2020 Affiliate Program.pdf 1 MB
  99. 2020 Company profile.pdf 2.4 MB
  99. 2020-2021 Course release schedule.pdf 1.3 MB
  99. Charts & Diagrams.pdf 1.7 MB
  99. Downloadable resources.en_US.srt 0 B
  99. Downloadable resources.mp4 630.9 KB
  99. Flow of Fluids - Solved problems.pdf 2.3 MB
  99. Flow of Fluids Excel Workbook.pdf 591.9 KB
  99. Flow of fluids.xlsm 110.5 MB
  99. HX Excel Workbook.pdf 886.2 KB
  99. Pump catalog.pdf 26.1 MB
  99. Summary of course formulas.pdf 4.2 MB
  99. The Chemical Engineer Reference Folder.pdf 1.6 MB
  99. Valve catalog.pdf 810.4 KB
  98. Flow of gases and Net Expansibility Factor Y.en_US.srt 2.4 KB
  98. Flow of gases and Net Expansibility Factor Y.mp4 19.9 MB
  89. Introduction.en_US.srt 2.2 KB
  89. Introduction.mp4 8.5 MB
  90. Differential pressure and pressure loss.en_US.srt 2.1 KB
  90. Differential pressure and pressure loss.mp4 8.2 MB
  91. Pressure loss coefficient.en_US.srt 409.6 B
  91. Pressure loss coefficient.mp4 1.2 MB
  92. Rate of flow and flow coefficient C.en_US.srt 2.3 KB
  92. Rate of flow and flow coefficient C.mp4 18 MB
  93. Discharge coefficient Cd Definition.en_US.srt 614.4 B
  93. Discharge coefficient Cd Definition.mp4 2.4 MB
  94. Discharge coefficient Cd Orifice plates.en_US.srt 2 KB
  94. Discharge coefficient Cd Orifice plates.mp4 16.5 MB
  95. Discharge coefficient Cd Flow nozzles.en_US.srt 512 B
  95. Discharge coefficient Cd Flow nozzles.mp4 1.6 MB
  96. Discharge coefficient Cd Venturi meters.en_US.srt 819.2 B
  96. Discharge coefficient Cd Venturi meters.mp4 3.2 MB
  97. PRACTICE SESSION Discharge coefficient Cd using flow of fluids excel workbook.en_US.srt 4.4 KB
  97. PRACTICE SESSION Discharge coefficient Cd using flow of fluids excel workbook.mp4 56.7 MB
  81. Introduction.mp4 9.9 MB
  82. Orifices, Nozzles and Venturi Tubes.en_US.srt 6.9 KB
  82. Orifices, Nozzles and Venturi Tubes.mp4 33.3 MB
  83. Orifice plate.en_US.srt 2.4 KB
  83. Orifice plate.mp4 6.8 MB
  84. Limits of use of orifice plates.en_US.srt 1.7 KB
  84. Limits of use of orifice plates.mp4 4.7 MB
  85. Flow nozzle.en_US.srt 2.7 KB
  85. Flow nozzle.mp4 15.3 MB
  86. Limits of use of flow nozzles.en_US.srt 1.4 KB
  86. Limits of use of flow nozzles.mp4 9 MB
  87. Venturi meter.en_US.srt 2.6 KB
  87. Venturi meter.mp4 11.7 MB
  88. Limits of use of Venturi meters.en_US.srt 1.3 KB
  88. Limits of use of Venturi meters.mp4 12.6 MB
  71. Introduction.en_US.srt 4.5 KB
  71. Introduction.mp4 15.6 MB
  72. Valve components.en_US.srt 1.8 KB
  72. Valve components.mp4 11.7 MB
  73. Inherent characteristic curve.en_US.srt 1.1 KB
  73. Inherent characteristic curve.mp4 4.3 MB
  74. Installed characteristic curve.en_US.srt 1.2 KB
  74. Installed characteristic curve.mp4 4.1 MB
  75. Pressure, Velocity and Energy profiles through a control valve.en_US.srt 1.6 KB
  75. Pressure, Velocity and Energy profiles through a control valve.mp4 6.1 MB
  76. Cavitation, Choked Flow and Flashing.en_US.srt 4.8 KB
  76. Cavitation, Choked Flow and Flashing.mp4 18.5 MB
  77. Sizing and selection.en_US.srt 1.6 KB
  77. Sizing and selection.mp4 3.7 MB
  78. Sizing for INcompressible flow.en_US.srt 6 KB
  78. Sizing for INcompressible flow.mp4 52.6 MB
  79. Sizing for compressible flow.en_US.srt 4 KB
  79. Sizing for compressible flow.mp4 14.9 MB
  80. Conversion of Cv to Kv.en_US.srt 204.8 B
  80. Conversion of Cv to Kv.mp4 721.4 KB

Description


Flow of fluids through piping systems , valves and pumps
https://WebToolTip.com
Last updated 11/2025

MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch

Language: English | Duration: 7h 6m | Size: 3.01 GB
Learn to size valves & piping systems, calculate pressure drop, flow of liquids & gases through pipe , fittings & valves
What you'll learn

Understand the main physical properties of fluids (viscosity, vapor pressure, specific gravity, weight density...)

Understand the theory of flow in pipe : Laminar vs Turbulent flow

Understand and learn how to use the Bernoulli Theorem for pressure drop, head loss or flow velocity assessment

Learn how to calculate the pressure drop "dP" and the head loss "hL" through any piping system

Learn how to determine the friction factor "f" of any piping system

Learn how to calculate the flow of compressible and incompressible fluids in pipe

Learn how to calculate the resistance coefficient "K" of any piping component (pipes, valves, bends, reducers, Tees, Wyes...)

Learn what the flow coefficient "Cv" of a control valve means and how to use it in assessing flows and pressure drops

Know what a control valve is and its main components

Understand the theory of regulating flow with control valves

Understand the concepts of cavitation and choking in control valves through graphics and 3D animations

Learn how to size and select a control valve when designing and operating any piping system for both gases and liquids

Understand the theory of flow measurement using differential pressure meters such as Orifice Plates, Flow Nozzles and Venturi Meters

Learn how to calculate the flow of compressible and incompressible fluids through Orifice Plates, Flow Nozzles and Venturi Meters

Learn how to size and select a flow meter when designing and operating any piping system for both gases and liquids
Requirements

Some engineering or field knowledge is preferable but not mandatory. All the concepts are explained in depth using an easy to understand language to allow students to build their knowledge from the ground up

Having attended our "Flow of Fluids Excel Workbook" training course is a plus but not mandatory

Having attended our "Piping Systems : Drafting & Design" training course is a plus but not mandatory

Having attended our "Valves : Principles, Operation & Design" training course is a plus but not mandatory

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