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

  • CategoryOther
  • TypeTutorials
  • LanguageEnglish
  • Total size3 GB
  • Uploaded Byfreecoursewb
  • Downloads71
  • Last checkedApr. 06th '26
  • Date uploadedApr. 05th '26
  • Seeders 10
  • Leechers11

Infohash : 193AB5C2CC76D0E494C4CF624B2513E31E72D659

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

Files:

[ WebToolTip.com ] Udemy - Flow of fluids through piping systems , valves and pumps
  • Get Bonus Downloads Here.url (0.2 KB)
    • ~Get Your Files Here ! 1 - WR Training
    • 1. Welcome to WR Training.en_US.srt (0.0 KB)
    • 1. Welcome to WR Training.mp4 (29.0 MB)
    10 - REGULATING FLOW WITH CONTROL VALVES
    • 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 (6.0 KB)
    • 78. Sizing for INcompressible flow.mp4 (52.6 MB)
    • 79. Sizing for compressible flow.en_US.srt (4.0 KB)
    • 79. Sizing for compressible flow.mp4 (14.9 MB)
    • 80. Conversion of Cv to Kv.en_US.srt (0.2 KB)
    • 80. Conversion of Cv to Kv.mp4 (721.4 KB)
    11 - MEASURING FLOW WITH DIFFERENTIAL PRESSURE METERS
    • 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 (9.0 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)
    12 - LIQUID FLOW THROUGH ORIFICES, NOZZLES AND VENTURI
    • 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 (0.4 KB)
    • 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 (18.0 MB)
    • 93. Discharge coefficient Cd Definition.en_US.srt (0.6 KB)
    • 93. Discharge coefficient Cd Definition.mp4 (2.4 MB)
    • 94. Discharge coefficient Cd Orifice plates.en_US.srt (2.0 KB)
    • 94. Discharge coefficient Cd Orifice plates.mp4 (16.5 MB)
    • 95. Discharge coefficient Cd Flow nozzles.en_US.srt (0.5 KB)
    • 95. Discharge coefficient Cd Flow nozzles.mp4 (1.6 MB)
    • 96. Discharge coefficient Cd Venturi meters.en_US.srt (0.8 KB)
    • 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)
    13 - COMPRESSIBLE FLOW THROUGH ORIFICES, NOZZLES AND VENTURI
    • 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)
    14 - DOWNLOADABLE RESOURCES
    • 99. 2020 Affiliate Program.pdf (1.0 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 (0.0 KB)
    • 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)
    15 - FLOW PROBLEMS - LET'S GET SOME PRACTICE !!!
    • 1. Course feedback.html (17.9 KB)
    • 100. About this flow problems section.en_US.srt (2.0 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 (49.0 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

Code:

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