Business Online Course by Udemy, On Sale Here
Assess flow of liquids and gases, calculate pressure drop, size pipes, control valves, orifice plates & flow meters
An excellent training about Industry
Flow of Fluids Excel Workbook
Dear students, To accompany our course on Flow of fluids through pipe, fittings, valves and pumps and help you assess flow of liquids and gases, calculate pressure drops, size pipes, control valves and flow meter devices, we have developed an Excel VBA based engineering tool: Flow of Fluids Excel WorkbookFlow of Fluids Excel Workbook simulates the operation of small piping systems transporting liquids and industrial gases under a variety of operating conditions. Flow of Fluids Excel Workbook is based on industry recognized principles and standards from ASME, HI, IEC, AWWA, ISA, and ANSI. Flow of Fluids Excel Workbook is easy-to-use and has a highly intuitive user interface. Flow of Fluids Excel Workbook presents formulas and data for: 1. Physical properties determination for a variety of fluids (specific gravity, viscosity, vapor pressure.)2. Pressure drop and head loss calculations through pipes, fittings and valves3. Flow calculations for incompressible and compressible fluids through pipes, fittings, valves and pumps4. Sizing piping systems for incompressible and compressible fluids5. Flow resistance coefficients calculations for pipes, fittings and valves6. Flow calculations for incompressible and compressible fluids through flow meters (Orifice Plates, Nozzles and Venturi meters)7. Centrifugal pump calculation (Pump head, NPSH, Specific speed, affinity laws)8. Converting variables and process parameters to a numerious alternative units of measurementINSTRUCTION TO DOWNLOAD FLOW OF FLUIDS EXCEL WORKBOOK: 1. Upon enrolling in, expand the first section “ABOUT THE FLOW OF FLUIDS”2. Under the lecture “Presentation”, click on the folder “resources” => A list of 3 downloadable files will appear3. Click on “Flow of Fluids Excel Workbook”4. A download window will open. Select the location where you want to save the Excel file5. Once downloaded and saved on your computer, you can start using the fileIMPORTANTNOTE: The video lectures included in this materiel are quick tutorials to show you how to use the Flow of Fluids Excel Workbook. Please watch these videos and follow the instructions provided. In case of any problem, feel free to ask us for help in the Q & A section. This Excel workbook includes Visual Basic for Application function subroutines. Macros must be enabled for them to workENJOYTHISAMAZINGTOOL: -)-FLOW OF FLUIDS EXCEL WORKBOOK: TABLE OF CONTENTAn ExcelVBA based engineering tool by WR TrainingA. PHYSICAL PROPERTIES OF FLUIDS1PROPERTIES OF WATER AND STEAMa. SATURATION PROPERTIES WITH TEMPERATUREb. SATURATION PROPERTIES WITH PRESSUREc. PROPERTIES GIVEN PRESSURE AND TEMPERATUREd. PROPERTIES GIVEN PRESSURE AND ENTHALPY2DYNAMIC VISCOSITY OF GASES3KINEMATIC VISCOSITY4WEIGHT DENSITY OF LIQUIDSa. FORMULA 1b.FORMULA 2c.FORMULA 35SPECIFIC GRAVITY OF LIQUIDSa. FORMULA 1b.FORMULA 26SPECIFIC GRAVITY – DEG API7SPECIFIC GRAVITY – DEG BEAUME8SPECIFIC VOLUME9WEIGHT DENSITY OF IDEAL GASES10WEIGHT DENSITY OF REAL GASES11GAS COMPRESSIBILITY FACTOR12SPECIFIC GRAVITY OF GASES13BOILING POINT PURE COMPONENT14VAPOR PRESSURE: PURE COMPONENT15VAPOR PRESSURE: MIXTUREB. NATURE OF FLOW IN PIPE1RATE OF FLOW AT FLOWING CONDITIONa. FORMULA 1b.FORMULA 22RATE OF FLOW (gpm)a.FORMULA 1b.FORMULA 2c.FORMULA 33MEAN VELOCITY OF FLOW IN PIPEa. FORMULA 1b.FORMULA 2c.FORMULA 34REYNOLDS NUMBERa. FORMULA 1b.FORMULA 2c.FORMULA 3d.FORMULA 4e.FORMULA 5f.FORMULA 6g.FORMULA 7C.BERNOULLI’S THEOREM1TOTAL HEAD OR FLUID ENERGY2LOSS OF STATIC PRESSURE HEAD (hL) DUE TO FLUID FLOWD. HEAD LOSS, PRESSURE DROP AND FRICTION FACTOR THROUGH PIPE1LOSS OF STATIC PRESSURE HEADa. FORMULA 1b.FORMULA 2c.FORMULA 3d.FORMULA 4e.FORMULA 5f.FORMULA 62PIPE PRESSURE DROPa. FORMULA 1b.FORMULA 2c.FORMULA 3d.FORMULA 4e.FORMULA 5f.FORMULA 6g.FORMULA 73PRESSURE DROP FOR LAMINAR FLOW ACCORDING TO POISEUILLE’S LAW4PRESSURE DROP FOR TURBULENT FLOW ACCORDING TO HAZEN-WILLIAMS FORMULA5FRICTION FACTOR FOR LAMINAR FLOW6FRICTION FACTOR FOR TURBULENT FLOWa. COLEBROOK EQUATIONb. SERGHIDE EQUATIONc. SWAMEE-JAIN EQUATIONE. GAS CALCULATIONS1PERFECT GAS LAWa. DETERMINING THE NUMBER OF MOLES OF A PERFECT GASb. DETERMINING THE PRESSURE OF A PERFECT GASc. DETERMINING THE TEMPERATURE OF A PERFECT GASd. DETERMINING THE VOLUME OF A PERFECT GAS2NON-IDEAL GAS LAWa. DETERMINING THE NUMBER OF MOLES OF A NON-IDEAL GASb. DETERMINING THE PRESSURE OF A NON-IDEAL GASc. DETERMINING THE TEMPERATURE OF A NON-IDEAL GASd. DETERMINING THE VOLUME OF A NON-IDEAL GAS3STANDARD ACTUAL GAS FLOWF. COMPRESSIBLE FLOW IN STRAIGHT HORIZONTAL PIPELINE1COMPLETE ISOTHERMAL EQUATIONG. GAS PIPELINES: MASS FLOW RATE EQUATIONH. HORIZONTAL GAS PIPELINES: STANDARD VOLUMETRIC FLOW RATE EQUATIONS1GENERAL STANDARD VOLUMETRIC FLOW RATE2WEYMOUTH STANDARD VOLUMETRIC FLOW RATE EQUATION FOR SIZING HORIZONTAL GAS PIPELINES IN FULLY TURBULENT FLOW3PANHANDLE “A” STANDARD VOLUMETRIC FLOW RATE EQUATION FOR SIZING HORIZONTAL GAS PIPELINES IN PARTIALLY TURBULENT FLOW4PANHANDLE “B” STANDARD VOLUMETRIC FLOW RATE EQUATION FOR SIZING HORIZONTAL GAS PIPELINES IN FULLY TURBULENT FLOWI. ELEVATED GAS PIPELINES: STANDARD VOLUM
Udemy is the leading global marketplace for learning and instruction
By connecting students all over the world to the best instructors, Udemy is helping individuals reach their goals and pursue their dreams.
Study anytime, anywhere.
Reviews
There are no reviews yet.