110 Example #10 _ Sizing an orifice for a given pressure drop and fluid velocity.mp4 - 128 MB
107 Example #7 _ Laminar flow in valves, fittings and pipe #1.mp4 - 117 MB
111 Example #11 _ Bernoulli's Theorem - Pressure drop and fluid velocity.mp4 - 107 MB
112 Example #12 _ Process air - Pressure drop and velocity.mp4 - 83.7 MB
115 Example #15 _ Water discharging from a reservoir.mp4 - 77.3 MB
114 Example #14 _ Flow of natural gas through pipelines.mp4 - 77.1 MB
106 Example #6 _ Fluid velocity and rate of discharge through a ball valve.mp4 - 75.5 MB
116 Example #16 _ Gas flow at sonic velocity through pipe.mp4 - 74.2 MB
109 Example #9 _ Determining pressure drop in a piping system.mp4 - 73.9 MB
113 Example #13 _ Sizing a centrifugal pump for oil pipelines.mp4 - 68.9 MB
105 Example #5 _ Sizing lift check valves.mp4 - 66.6 MB
108 Example #8 _ Laminar flow in valves, fittings and pipe #2.mp4 - 54.3 MB
101 Example #1 _ Determining Reynolds Number (Re) and Friction Factor (f).mp4 - 51 MB
102 Example #2 _ Y pattern valve resistance coefficient & equivalent lengths.mp4 - 44.9 MB
103 Example #3 _ Globe valve resistance K, equivalent lengths & flow coefficient Cv.mp4 - 24.7 MB
104 Example #4 _ Gate valve resistance coef. _K_ & equivalent lengths _L_D_ & _L_.mp4 - 19.7 MB
100 About this flow problems section.mp4 - 11 MB
110 Example #10 _ Sizing an orifice for a given pressure drop and fluid velocity.en.srt - 20.4 kB
111 Example #11 _ Bernoulli's Theorem - Pressure drop and fluid velocity.en.srt - 18.4 kB
107 Example #7 _ Laminar flow in valves, fittings and pipe #1.en.srt - 17.3 kB
115 Example #15 _ Water discharging from a reservoir.en.srt - 13.4 kB
116 Example #16 _ Gas flow at sonic velocity through pipe.en.srt - 12.5 kB
105 Example #5 _ Sizing lift check valves.en.srt - 11.9 kB
113 Example #13 _ Sizing a centrifugal pump for oil pipelines.en.srt - 11.4 kB
114 Example #14 _ Flow of natural gas through pipelines.en.srt - 11 kB
106 Example #6 _ Fluid velocity and rate of discharge through a ball valve.en.srt - 11 kB
109 Example #9 _ Determining pressure drop in a piping system.en.srt - 10.3 kB
108 Example #8 _ Laminar flow in valves, fittings and pipe #2.en.srt - 9.69 kB
112 Example #12 _ Process air - Pressure drop and velocity.en.srt - 7.91 kB
101 Example #1 _ Determining Reynolds Number (Re) and Friction Factor (f).en.srt - 6.8 kB
102 Example #2 _ Y pattern valve resistance coefficient & equivalent lengths.en.srt - 6.27 kB
103 Example #3 _ Globe valve resistance K, equivalent lengths & flow coefficient Cv.en.srt - 4.35 kB
104 Example #4 _ Gate valve resistance coef. _K_ & equivalent lengths _L_D_ & _L_.en.srt - 3 kB
100 About this flow problems section.en.srt - 2.28 kB
016 PRACTICE SESSION_ Determining vapor pressure using Flow of Fluids Excel Workbook.mp4 - 91.9 MB
012 PRACTICE SESSION _ Weight density of gases using Flow of Fluids Excel Workbook.mp4 - 51.8 MB
007 PRACTICE SESSION _ Determining viscosity using Flow of Fluids Excel Workbook.mp4 - 47.9 MB
009 PRACTICE SESSION _ Weight density of liquids using Flow of Fluids Excel Workbook.mp4 - 44.2 MB
017 More charts and diagrams - The Chemical Engineer's Reference Folder.mp4 - 34.8 MB
006 Kinematic viscosity.mp4 - 29 MB
015 Vapor pressure.mp4 - 27.4 MB
005 Viscosity.mp4 - 26.5 MB
014 PRACTICE SESSION _ Specific gravity using Flow of Fluids Excel Workbook.mp4 - 21.8 MB
004 Introduction.mp4 - 16.1 MB
011 Weight density of gases and vapors.mp4 - 8.78 MB
010 Specific volume.mp4 - 6.82 MB
013 Specific gravity.mp4 - 4.28 MB
008 Weight density of liquids.mp4 - 2.03 MB
016 PRACTICE SESSION_ Determining vapor pressure using Flow of Fluids Excel Workbook.en.srt - 6.86 kB
007 PRACTICE SESSION _ Determining viscosity using Flow of Fluids Excel Workbook.en.srt - 5.67 kB
012 PRACTICE SESSION _ Weight density of gases using Flow of Fluids Excel Workbook.en.srt - 4.8 kB
006 Kinematic viscosity.en.srt - 3.69 kB
005 Viscosity.en.srt - 3.56 kB
009 PRACTICE SESSION _ Weight density of liquids using Flow of Fluids Excel Workbook.en.srt - 3.41 kB
015 Vapor pressure.en.srt - 3.19 kB
004 Introduction.en.srt - 2.69 kB
014 PRACTICE SESSION _ Specific gravity using Flow of Fluids Excel Workbook.en.srt - 2.48 kB
017 More charts and diagrams - The Chemical Engineer's Reference Folder.en.srt - 2.13 kB
013 Specific gravity.en.srt - 1.38 kB
011 Weight density of gases and vapors.en.srt - 1.08 kB
010 Specific volume.en.srt - 980 B
008 Weight density of liquids.en.srt - 527 B
020 PRACTICE SESSION _ Velocity of flow using Flow of Fluids Excel Workbook.mp4 - 74.2 MB
018 Introduction.mp4 - 23.8 MB
022 PRACTICE SESSION _ Reynolds number using Flow of Fluids Excel Workbook.mp4 - 15.6 MB
021 Reynolds number (Re).mp4 - 9.39 MB
019 Mean velocity of flow.mp4 - 3.61 MB
020 PRACTICE SESSION _ Velocity of flow using Flow of Fluids Excel Workbook.en.srt - 5.25 kB
018 Introduction.en.srt - 2.96 kB
022 PRACTICE SESSION _ Reynolds number using Flow of Fluids Excel Workbook.en.srt - 1.81 kB
021 Reynolds number (Re).en.srt - 1.6 kB
019 Mean velocity of flow.en.srt - 718 B
081 Orifices, Nozzles and Venturi Tubes.mp4 - 70.7 MB
086 Venturi meter.mp4 - 18.2 MB
084 Flow nozzle.mp4 - 16.8 MB
082 Orifice plate.mp4 - 11.6 MB
087 Limits of use of Venturi meters.mp4 - 11.3 MB
085 Limits of use of flow nozzles.mp4 - 11.1 MB
080 Introduction.mp4 - 9.65 MB
083 Limits of use of orifice plates.mp4 - 8.33 MB
081 Orifices, Nozzles and Venturi Tubes.en.srt - 7.66 kB
086 Venturi meter.en.srt - 3.05 kB
084 Flow nozzle.en.srt - 2.86 kB
082 Orifice plate.en.srt - 2.76 kB
080 Introduction.en.srt - 2.19 kB
083 Limits of use of orifice plates.en.srt - 1.81 kB
085 Limits of use of flow nozzles.en.srt - 1.51 kB
087 Limits of use of Venturi meters.en.srt - 1.44 kB
044 PRACTICE SESSION_ Expansion factor _Y_ & ∆P using Flow of Fluids Excel Workbook.mp4 - 55.5 MB
042 Modifications to the isothermal flow equation.mp4 - 42.6 MB
043 Limiting flow of gases and vapors.mp4 - 32.8 MB
041 Comparison of equations for compressible flow in pipelines.mp4 - 26 MB
040 Other commonly used equations for compressible flow in long pipelines.mp4 - 13.4 MB
039 Simplified isothermal gas pipeline equation.mp4 - 9.58 MB
034 Definition of a perfect gas.mp4 - 7.97 MB
038 Complete isothermal equation.mp4 - 7.66 MB
037 Application of the Darcy equation to compressible fluids.mp4 - 7.33 MB
033 Introduction.mp4 - 5.54 MB
036 Approaches to compressible flow problems.mp4 - 4.91 MB
035 Speed of sound and Mach number.mp4 - 4.74 MB
042 Modifications to the isothermal flow equation.en.srt - 7.35 kB
044 PRACTICE SESSION_ Expansion factor _Y_ & ∆P using Flow of Fluids Excel Workbook.en.srt - 7.1 kB
043 Limiting flow of gases and vapors.en.srt - 6.65 kB
041 Comparison of equations for compressible flow in pipelines.en.srt - 4.19 kB
040 Other commonly used equations for compressible flow in long pipelines.en.srt - 1.84 kB
036 Approaches to compressible flow problems.en.srt - 1.84 kB
037 Application of the Darcy equation to compressible fluids.en.srt - 1.8 kB
035 Speed of sound and Mach number.en.srt - 1.71 kB
034 Definition of a perfect gas.en.srt - 1.69 kB
038 Complete isothermal equation.en.srt - 1.54 kB
033 Introduction.en.srt - 1.43 kB
039 Simplified isothermal gas pipeline equation.en.srt - 1.41 kB
077 Sizing for INcompressible flow.mp4 - 45.9 MB
075 Cavitation, Choked Flow and Flashing.mp4 - 35.3 MB
070 Introduction.mp4 - 29 MB
078 Sizing for compressible flow.mp4 - 23.9 MB
071 Valve components.mp4 - 19 MB
074 Pressure, Velocity and Energy profiles through a control valve.mp4 - 9.2 MB
073 Installed characteristic curve.mp4 - 7.39 MB
072 Inherent characteristic curve.mp4 - 7.17 MB
076 Sizing and selection.mp4 - 6.35 MB
079 Conversion of Cv to Kv.mp4 - 1.46 MB
077 Sizing for INcompressible flow.en.srt - 6.81 kB
075 Cavitation, Choked Flow and Flashing.en.srt - 5.46 kB
070 Introduction.en.srt - 5.13 kB
078 Sizing for compressible flow.en.srt - 4.39 kB
071 Valve components.en.srt - 2.03 kB
074 Pressure, Velocity and Energy profiles through a control valve.en.srt - 1.72 kB
076 Sizing and selection.en.srt - 1.7 kB
073 Installed characteristic curve.en.srt - 1.34 kB
072 Inherent characteristic curve.en.srt - 1.23 kB
079 Conversion of Cv to Kv.en.srt - 236 B
026 Friction factor.mp4 - 43.3 MB
029 PRACTICE SESSION_ Friction factor using Flow of Fluids Excel Workbook.mp4 - 41.8 MB
032 Effect of age and use on pipe friction.mp4 - 32.6 MB
031 PRACTICE SESSION_ Hazen-Williams using Flow of Fluids Excel Workbook.mp4 - 11.6 MB
025 Introduction.mp4 - 9.41 MB
030 Hazen-Williams formula for flow of water.mp4 - 4.98 MB
028 Explicit approximations of Colebrook.mp4 - 4.32 MB
027 Friction factor using the Colebrook equation.mp4 - 3.3 MB
026 Friction factor.en.srt - 6.03 kB
032 Effect of age and use on pipe friction.en.srt - 5.58 kB
029 PRACTICE SESSION_ Friction factor using Flow of Fluids Excel Workbook.en.srt - 5.33 kB
025 Introduction.en.srt - 2.39 kB
031 PRACTICE SESSION_ Hazen-Williams using Flow of Fluids Excel Workbook.en.srt - 1.61 kB
028 Explicit approximations of Colebrook.en.srt - 1.09 kB
030 Hazen-Williams formula for flow of water.en.srt - 999 B
027 Friction factor using the Colebrook equation.en.srt - 508 B
096 PRACTICE SESSION_ Discharge coefficient _Cd_ using flow of fluids excel workbook.mp4 - 37.9 MB
091 Rate of flow and flow coefficient _C_.mp4 - 17.3 MB
093 Discharge coefficient _Cd_ _ Orifice plates.mp4 - 14.6 MB
089 Differential pressure and pressure loss.mp4 - 13.9 MB
088 Introduction.mp4 - 13.8 MB
095 Discharge coefficient _Cd_ _ Venturi meters.mp4 - 5.38 MB
092 Discharge coefficient _Cd_ _ Definition.mp4 - 4.21 MB
094 Discharge coefficient _Cd_ _ Flow nozzles.mp4 - 2.84 MB
090 Pressure loss coefficient.mp4 - 2.29 MB
096 PRACTICE SESSION_ Discharge coefficient _Cd_ using flow of fluids excel workbook.en.srt - 5.17 kB
091 Rate of flow and flow coefficient _C_.en.srt - 2.62 kB
088 Introduction.en.srt - 2.57 kB
089 Differential pressure and pressure loss.en.srt - 2.44 kB
093 Discharge coefficient _Cd_ _ Orifice plates.en.srt - 2.19 kB
095 Discharge coefficient _Cd_ _ Venturi meters.en.srt - 968 B
092 Discharge coefficient _Cd_ _ Definition.en.srt - 741 B
090 Pressure loss coefficient.en.srt - 517 B
094 Discharge coefficient _Cd_ _ Flow nozzles.en.srt - 444 B
063 Resistance of bends.mp4 - 31.1 MB
060 PRACTICE SESSION_ Contraction & enlargement using Flow of Fluids Excel Workbook.mp4 - 28.5 MB
058 Laminar flow conditions.mp4 - 26.7 MB
068 PRACTICE SESSION_ Resistance of _T_ and _Y_ using Flow of Fluids Excel Workbook.mp4 - 23.5 MB
049 Relationship of pressure drop to velocity of flow.mp4 - 19.8 MB
061 Valves with reduced seats.mp4 - 19 MB
045 Introduction.mp4 - 16.2 MB
048 Pressure drop attributed to valves and fittings.mp4 - 15.4 MB
065 Hydraulic resistance of Tees and Wyes.mp4 - 15.3 MB
064 PRACTICE SESSION_ Resistance of bends using Flow of Fluids Excel Workbook.mp4 - 12.7 MB
056 Use of flow coefficient _Cv_ for piping and components.mp4 - 12.5 MB
062 PRACTICE SESSION_ Valve resistance coef. _K_ using Flow of Fluids Excel Workbook.mp4 - 11.6 MB
053 Resistance coefficient _K_.mp4 - 10.7 MB
052 Equivalent length _L_D_.mp4 - 10.5 MB
046 Types of valves used in piping systems.mp4 - 10.1 MB
051 Causes of head loss in valves and fittings.mp4 - 9.87 MB
054 Resistance coef. K for pipelines, valves and fittings in series and in parallel.mp4 - 9.78 MB
055 Flow coefficient _Cv_.mp4 - 9.14 MB
069 Discharge of fluids through valves, fittings and pipe.mp4 - 8.6 MB
066 Hydraulic resistance of Tees and Wyes _ Converging flow.mp4 - 8.38 MB
067 Hydraulic resistance of Tees and Wyes _ Diverging flow.mp4 - 6.85 MB
050 Hydraulic resistance.mp4 - 6.2 MB
047 Types of fittings used in piping systems.mp4 - 5.8 MB
059 Contraction and enlargement.mp4 - 4.21 MB
057 Flow coefficient Cv for pipelines, valves and fittings in series and in parallel.mp4 - 2.05 MB
063 Resistance of bends.en.srt - 6.94 kB
060 PRACTICE SESSION_ Contraction & enlargement using Flow of Fluids Excel Workbook.en.srt - 5.08 kB
049 Relationship of pressure drop to velocity of flow.en.srt - 4.42 kB
048 Pressure drop attributed to valves and fittings.en.srt - 3.55 kB
068 PRACTICE SESSION_ Resistance of _T_ and _Y_ using Flow of Fluids Excel Workbook.en.srt - 3.18 kB
065 Hydraulic resistance of Tees and Wyes.en.srt - 2.89 kB
061 Valves with reduced seats.en.srt - 2.66 kB
056 Use of flow coefficient _Cv_ for piping and components.en.srt - 2.65 kB
053 Resistance coefficient _K_.en.srt - 2.58 kB
045 Introduction.en.srt - 2.58 kB
058 Laminar flow conditions.en.srt - 2.54 kB
054 Resistance coef. K for pipelines, valves and fittings in series and in parallel.en.srt - 2.07 kB
062 PRACTICE SESSION_ Valve resistance coef. _K_ using Flow of Fluids Excel Workbook.en.srt - 1.81 kB
055 Flow coefficient _Cv_.en.srt - 1.8 kB
064 PRACTICE SESSION_ Resistance of bends using Flow of Fluids Excel Workbook.en.srt - 1.78 kB
069 Discharge of fluids through valves, fittings and pipe.en.srt - 1.75 kB
051 Causes of head loss in valves and fittings.en.srt - 1.5 kB
052 Equivalent length _L_D_.en.srt - 1.43 kB
067 Hydraulic resistance of Tees and Wyes _ Diverging flow.en.srt - 1.39 kB
050 Hydraulic resistance.en.srt - 1.33 kB
066 Hydraulic resistance of Tees and Wyes _ Converging flow.en.srt - 1.32 kB
059 Contraction and enlargement.en.srt - 1.04 kB
047 Types of fittings used in piping systems.en.srt - 931 B
046 Types of valves used in piping systems.en.srt - 830 B
057 Flow coefficient Cv for pipelines, valves and fittings in series and in parallel.en.srt - 638 B
098 Pump-catalog.pdf - 27.4 MB
099 BONUS - WATCH ME.mp4 - 8.11 MB
098 Summary-of-course-formulas.pdf - 4.36 MB
098 2020-Company-profile.pdf - 2.53 MB
098 Flow-of-Fluids-Solved-problems.pdf - 2.4 MB
098 Charts-Diagrams.pdf - 1.75 MB
098 Table-of-content-The-chemical-engineers-reference-folder.pdf - 1.54 MB
098 2020-2021-Course-release-schedule.pdf - 1.39 MB
098 Downloadable resources.mp4 - 1.25 MB
098 2020-Affiliate-Program.pdf - 1.08 MB
098 Valve-catalog.pdf - 830 kB
098 Table-of-content-Flow-of-Fluids-Excel-Workbook.pdf - 550 kB
098 Bonus.pdf - 535 kB
098 Downloadable resources.en.vtt - 8 B
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Flow of fluids through piping systems , valves and pumps