Flow of fluids through piping systems valves and pumps

/.../14 FLOW PROBLEMS - LET'S GET SOME PRACTICE !!!/

110 Example #10 _ Sizing an orifice for a given pressure drop and fluid velocity.mp4

100 About this flow problems section.en.srt

100 About this flow problems section.mp4

101 Example #1 _ Determining Reynolds Number (Re) and Friction Factor (f).en.srt

101 Example #1 _ Determining Reynolds Number (Re) and Friction Factor (f).mp4

102 Example #2 _ Y pattern valve resistance coefficient & equivalent lengths.en.srt

102 Example #2 _ Y pattern valve resistance coefficient & equivalent lengths.mp4

103 Example #3 _ Globe valve resistance K, equivalent lengths & flow coefficient Cv.en.srt

103 Example #3 _ Globe valve resistance K, equivalent lengths & flow coefficient Cv.mp4

104 Example #4 _ Gate valve resistance coef. _K_ & equivalent lengths _L_D_ & _L_.en.srt

104 Example #4 _ Gate valve resistance coef. _K_ & equivalent lengths _L_D_ & _L_.mp4

105 Example #5 _ Sizing lift check valves.en.srt

105 Example #5 _ Sizing lift check valves.mp4

106 Example #6 _ Fluid velocity and rate of discharge through a ball valve.en.srt

106 Example #6 _ Fluid velocity and rate of discharge through a ball valve.mp4

107 Example #7 _ Laminar flow in valves, fittings and pipe #1.en.srt

107 Example #7 _ Laminar flow in valves, fittings and pipe #1.mp4

108 Example #8 _ Laminar flow in valves, fittings and pipe #2.en.srt

108 Example #8 _ Laminar flow in valves, fittings and pipe #2.mp4

109 Example #9 _ Determining pressure drop in a piping system.en.srt

109 Example #9 _ Determining pressure drop in a piping system.mp4

110 Example #10 _ Sizing an orifice for a given pressure drop and fluid velocity.en.srt

111 Example #11 _ Bernoulli's Theorem - Pressure drop and fluid velocity.en.srt

111 Example #11 _ Bernoulli's Theorem - Pressure drop and fluid velocity.mp4

112 Example #12 _ Process air - Pressure drop and velocity.en.srt

112 Example #12 _ Process air - Pressure drop and velocity.mp4

113 Example #13 _ Sizing a centrifugal pump for oil pipelines.en.srt

113 Example #13 _ Sizing a centrifugal pump for oil pipelines.mp4

114 Example #14 _ Flow of natural gas through pipelines.en.srt

114 Example #14 _ Flow of natural gas through pipelines.mp4

115 Example #15 _ Water discharging from a reservoir.en.srt

115 Example #15 _ Water discharging from a reservoir.mp4

116 Example #16 _ Gas flow at sonic velocity through pipe.en.srt

116 Example #16 _ Gas flow at sonic velocity through pipe.mp4

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/.../01 ABOUT THE COURSE/

001 Introduction.en.srt

001 Introduction.mp4

002 About Flow Of Fluids Excel Workbook.en.srt

002 About Flow Of Fluids Excel Workbook.mp4

003 Before you start this course.en.srt

003 Before you start this course.mp4

/.../02 PHYSICAL PROPERTIES OF FLUIDS/

004 Introduction.en.srt

004 Introduction.mp4

005 Viscosity.en.srt

005 Viscosity.mp4

006 Kinematic viscosity.en.srt

006 Kinematic viscosity.mp4

007 PRACTICE SESSION _ Determining viscosity using Flow of Fluids Excel Workbook.en.srt

007 PRACTICE SESSION _ Determining viscosity using Flow of Fluids Excel Workbook.mp4

008 Weight density of liquids.en.srt

008 Weight density of liquids.mp4

009 PRACTICE SESSION _ Weight density of liquids using Flow of Fluids Excel Workbook.en.srt

009 PRACTICE SESSION _ Weight density of liquids using Flow of Fluids Excel Workbook.mp4

010 Specific volume.en.srt

010 Specific volume.mp4

011 Weight density of gases and vapors.en.srt

011 Weight density of gases and vapors.mp4

012 PRACTICE SESSION _ Weight density of gases using Flow of Fluids Excel Workbook.en.srt

012 PRACTICE SESSION _ Weight density of gases using Flow of Fluids Excel Workbook.mp4

013 Specific gravity.en.srt

013 Specific gravity.mp4

014 PRACTICE SESSION _ Specific gravity using Flow of Fluids Excel Workbook.en.srt

014 PRACTICE SESSION _ Specific gravity using Flow of Fluids Excel Workbook.mp4

015 Vapor pressure.en.srt

015 Vapor pressure.mp4

016 PRACTICE SESSION_ Determining vapor pressure using Flow of Fluids Excel Workbook.en.srt

016 PRACTICE SESSION_ Determining vapor pressure using Flow of Fluids Excel Workbook.mp4

017 More charts and diagrams - The Chemical Engineer's Reference Folder.en.srt

017 More charts and diagrams - The Chemical Engineer's Reference Folder.mp4

/.../03 NATURE OF FLOW IN PIPE _ LAMINAR AND TURBULENT FLOW/

018 Introduction.en.srt

018 Introduction.mp4

019 Mean velocity of flow.en.srt

019 Mean velocity of flow.mp4

020 PRACTICE SESSION _ Velocity of flow using Flow of Fluids Excel Workbook.en.srt

020 PRACTICE SESSION _ Velocity of flow using Flow of Fluids Excel Workbook.mp4

021 Reynolds number (Re).en.srt

021 Reynolds number (Re).mp4

022 PRACTICE SESSION _ Reynolds number using Flow of Fluids Excel Workbook.en.srt

022 PRACTICE SESSION _ Reynolds number using Flow of Fluids Excel Workbook.mp4

/.../04 BERNOULLI'S THEOREM/

023 Bernoulli's theorem.en.srt

023 Bernoulli's theorem.mp4

/.../05 MEASUREMENT OF PRESSURE/

024 Measurement of pressure.en.srt

024 Measurement of pressure.mp4

/.../06 HEAD LOSS AND PRESSURE DROP THROUGH PIPE/

025 Introduction.en.srt

025 Introduction.mp4

026 Friction factor.en.srt

026 Friction factor.mp4

027 Friction factor using the Colebrook equation.en.srt

027 Friction factor using the Colebrook equation.mp4

028 Explicit approximations of Colebrook.en.srt

028 Explicit approximations of Colebrook.mp4

029 PRACTICE SESSION_ Friction factor using Flow of Fluids Excel Workbook.en.srt

029 PRACTICE SESSION_ Friction factor using Flow of Fluids Excel Workbook.mp4

030 Hazen-Williams formula for flow of water.en.srt

030 Hazen-Williams formula for flow of water.mp4

031 PRACTICE SESSION_ Hazen-Williams using Flow of Fluids Excel Workbook.en.srt

031 PRACTICE SESSION_ Hazen-Williams using Flow of Fluids Excel Workbook.mp4

032 Effect of age and use on pipe friction.en.srt

032 Effect of age and use on pipe friction.mp4

/.../07 COMPRESSIBLE FLOW IN PIPE/

033 Introduction.en.srt

033 Introduction.mp4

034 Definition of a perfect gas.en.srt

034 Definition of a perfect gas.mp4

035 Speed of sound and Mach number.en.srt

035 Speed of sound and Mach number.mp4

036 Approaches to compressible flow problems.en.srt

036 Approaches to compressible flow problems.mp4

037 Application of the Darcy equation to compressible fluids.en.srt

037 Application of the Darcy equation to compressible fluids.mp4

038 Complete isothermal equation.en.srt

038 Complete isothermal equation.mp4

039 Simplified isothermal gas pipeline equation.en.srt

039 Simplified isothermal gas pipeline equation.mp4

040 Other commonly used equations for compressible flow in long pipelines.en.srt

040 Other commonly used equations for compressible flow in long pipelines.mp4

041 Comparison of equations for compressible flow in pipelines.en.srt

041 Comparison of equations for compressible flow in pipelines.mp4

042 Modifications to the isothermal flow equation.en.srt

042 Modifications to the isothermal flow equation.mp4

043 Limiting flow of gases and vapors.en.srt

043 Limiting flow of gases and vapors.mp4

044 PRACTICE SESSION_ Expansion factor _Y_ & ∆P using Flow of Fluids Excel Workbook.en.srt

044 PRACTICE SESSION_ Expansion factor _Y_ & ∆P using Flow of Fluids Excel Workbook.mp4

/.../08 FLOW OF FLUIDS THROUGH VALVES AND FITTINGS/

045 Introduction.en.srt

045 Introduction.mp4

046 Types of valves used in piping systems.en.srt

046 Types of valves used in piping systems.mp4

047 Types of fittings used in piping systems.en.srt

047 Types of fittings used in piping systems.mp4

048 Pressure drop attributed to valves and fittings.en.srt

048 Pressure drop attributed to valves and fittings.mp4

049 Relationship of pressure drop to velocity of flow.en.srt

049 Relationship of pressure drop to velocity of flow.mp4

050 Hydraulic resistance.en.srt

050 Hydraulic resistance.mp4

051 Causes of head loss in valves and fittings.en.srt

051 Causes of head loss in valves and fittings.mp4

052 Equivalent length _L_D_.en.srt

052 Equivalent length _L_D_.mp4

053 Resistance coefficient _K_.en.srt

053 Resistance coefficient _K_.mp4

054 Resistance coef. K for pipelines, valves and fittings in series and in parallel.en.srt

054 Resistance coef. K for pipelines, valves and fittings in series and in parallel.mp4

055 Flow coefficient _Cv_.en.srt

055 Flow coefficient _Cv_.mp4

056 Use of flow coefficient _Cv_ for piping and components.en.srt

056 Use of flow coefficient _Cv_ for piping and components.mp4

057 Flow coefficient Cv for pipelines, valves and fittings in series and in parallel.en.srt

057 Flow coefficient Cv for pipelines, valves and fittings in series and in parallel.mp4

058 Laminar flow conditions.en.srt

058 Laminar flow conditions.mp4

059 Contraction and enlargement.en.srt

059 Contraction and enlargement.mp4

060 PRACTICE SESSION_ Contraction & enlargement using Flow of Fluids Excel Workbook.en.srt

060 PRACTICE SESSION_ Contraction & enlargement using Flow of Fluids Excel Workbook.mp4

061 Valves with reduced seats.en.srt

061 Valves with reduced seats.mp4

062 PRACTICE SESSION_ Valve resistance coef. _K_ using Flow of Fluids Excel Workbook.en.srt

062 PRACTICE SESSION_ Valve resistance coef. _K_ using Flow of Fluids Excel Workbook.mp4

063 Resistance of bends.en.srt

063 Resistance of bends.mp4

064 PRACTICE SESSION_ Resistance of bends using Flow of Fluids Excel Workbook.en.srt

064 PRACTICE SESSION_ Resistance of bends using Flow of Fluids Excel Workbook.mp4

065 Hydraulic resistance of Tees and Wyes.en.srt

065 Hydraulic resistance of Tees and Wyes.mp4

066 Hydraulic resistance of Tees and Wyes _ Converging flow.en.srt

066 Hydraulic resistance of Tees and Wyes _ Converging flow.mp4

067 Hydraulic resistance of Tees and Wyes _ Diverging flow.en.srt

067 Hydraulic resistance of Tees and Wyes _ Diverging flow.mp4

068 PRACTICE SESSION_ Resistance of _T_ and _Y_ using Flow of Fluids Excel Workbook.en.srt

068 PRACTICE SESSION_ Resistance of _T_ and _Y_ using Flow of Fluids Excel Workbook.mp4

069 Discharge of fluids through valves, fittings and pipe.en.srt

069 Discharge of fluids through valves, fittings and pipe.mp4

/.../09 REGULATING FLOW WITH CONTROL VALVES/

070 Introduction.en.srt

070 Introduction.mp4

071 Valve components.en.srt

071 Valve components.mp4

072 Inherent characteristic curve.en.srt

072 Inherent characteristic curve.mp4

073 Installed characteristic curve.en.srt

073 Installed characteristic curve.mp4

074 Pressure, Velocity and Energy profiles through a control valve.en.srt

074 Pressure, Velocity and Energy profiles through a control valve.mp4

075 Cavitation, Choked Flow and Flashing.en.srt

075 Cavitation, Choked Flow and Flashing.mp4

076 Sizing and selection.en.srt

076 Sizing and selection.mp4

077 Sizing for INcompressible flow.en.srt

077 Sizing for INcompressible flow.mp4

078 Sizing for compressible flow.en.srt

078 Sizing for compressible flow.mp4

079 Conversion of Cv to Kv.en.srt

079 Conversion of Cv to Kv.mp4

/.../10 MEASURING FLOW WITH DIFFERENTIAL PRESSURE METERS/

080 Introduction.en.srt

080 Introduction.mp4

081 Orifices, Nozzles and Venturi Tubes.en.srt

081 Orifices, Nozzles and Venturi Tubes.mp4

082 Orifice plate.en.srt

082 Orifice plate.mp4

083 Limits of use of orifice plates.en.srt

083 Limits of use of orifice plates.mp4

084 Flow nozzle.en.srt

084 Flow nozzle.mp4

085 Limits of use of flow nozzles.en.srt

085 Limits of use of flow nozzles.mp4

086 Venturi meter.en.srt

086 Venturi meter.mp4

087 Limits of use of Venturi meters.en.srt

087 Limits of use of Venturi meters.mp4

/.../11 LIQUID FLOW THROUGH ORIFICES, NOZZLES AND VENTURI/

088 Introduction.en.srt

088 Introduction.mp4

089 Differential pressure and pressure loss.en.srt

089 Differential pressure and pressure loss.mp4

090 Pressure loss coefficient.en.srt

090 Pressure loss coefficient.mp4

091 Rate of flow and flow coefficient _C_.en.srt

091 Rate of flow and flow coefficient _C_.mp4

092 Discharge coefficient _Cd_ _ Definition.en.srt

092 Discharge coefficient _Cd_ _ Definition.mp4

093 Discharge coefficient _Cd_ _ Orifice plates.en.srt

093 Discharge coefficient _Cd_ _ Orifice plates.mp4

094 Discharge coefficient _Cd_ _ Flow nozzles.en.srt

094 Discharge coefficient _Cd_ _ Flow nozzles.mp4

095 Discharge coefficient _Cd_ _ Venturi meters.en.srt

095 Discharge coefficient _Cd_ _ Venturi meters.mp4

096 PRACTICE SESSION_ Discharge coefficient _Cd_ using flow of fluids excel workbook.en.srt

096 PRACTICE SESSION_ Discharge coefficient _Cd_ using flow of fluids excel workbook.mp4

/.../12 COMPRESSIBLE FLOW THROUGH ORIFICES, NOZZLES AND VENTURI/

097 Flow of gases and Net Expansibility Factor _Y_.en.srt

097 Flow of gases and Net Expansibility Factor _Y_.mp4

/.../13 DOWNLOADABLE RESOURCES/

098 2020-2021-Course-release-schedule.pdf

098 2020-Affiliate-Program.pdf

098 2020-Company-profile.pdf

098 Bonus.pdf

098 Charts-Diagrams.pdf

098 Downloadable resources.en.vtt

098 Downloadable resources.mp4

098 Flow-of-Fluids-Solved-problems.pdf

098 Pump-catalog.pdf

098 Summary-of-course-formulas.pdf

098 Table-of-content-Flow-of-Fluids-Excel-Workbook.pdf

098 Table-of-content-The-chemical-engineers-reference-folder.pdf

098 Valve-catalog.pdf

099 BONUS - WATCH ME.mp4

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