Aspen HYSYS Tutorial 19f: Pipe (Line) Sizing, Flow Assurance Fundamentals In this session, Dr. Shedrack introduces the fundamentals of flow assurance with a focus on gas hydrate formation. He explains what hydrates are, what conditions they are formed in pipelines, and why they pose a serious risk to safe and continuous operation. The discussion sets the foundation for understanding how engineers predict hydrate conditions and apply practical prevention strategies in real pipeline systems. tinyurl.com/2wk4zd6e #pipesizing, #linesizing, #pipelinesimulation, #aspenhysys, #processengineering, #chemicalengineering, #oilgasengineering, #flowassurance, #gashydrates, #hydrates, #hydratesformation, #plugging, #pressuredrop, #hydraulics, #pipingdesign, #pipesegments, #pipelosses, #engineeringcalculations, #carbonsteelpipe, #stainlesssteelpipe, #pipediameter, #outerdiameter, #innerdiameter, #pipeschedule, #nominaldiameter, #schedule40, #schedule60, #schedule80, #velocitycriteria, #pressuredrop, #pressuregradient, #pressureprofile, #temperatureprofile, #flowprofile, #adjust, #adjusttools, #fluidsengineering, #thermodynamics, #processsimulation, #plantengineering, #productionengineering, #energyindustry, #gasprocessing, #operationsengineering, #pipelinehydraulics, #engineeringtutorial, #stemeducation, #engineeringstudents

Aspen HYSYS Tutorial 19e: Pipe (Line) Sizing, Pipe segments & T,P profiles In this session, Dr. Shedrack introduces pipe hydraulic modeling using a segmented pipeline approach in Aspen HYSYS. The line is represented as a series of connected pipe sections and fittings, allowing pressure drop, heat transfer, and velocity changes to be captured more realistically. By keeping the elevation constant and breaking the line into segments, the setup reflects how real piping networks are analyzed in practice and prepares the model for detailed performance profiling along the entire line. tinyurl.com/mz5msf7u #pipesizing, #linesizing, #pipelinesimulation, #aspenhysys, #processengineering, #chemicalengineering, #oilgasengineering, #flowassurance, #pressuredrop, #hydraulics, #pipingdesign, #pipesegments, #pipelosses, #engineeringcalculations, #carbonsteelpipe, #stainlesssteelpipe, #pipediameter, #outerdiameter, #innerdiameter, #pipeschedule, #nominaldiamater #schedule40, #schedule60, #schedule80, #velocitycriteria, #pressuredro, #pressuregradient, #pressureprofile, #temperatureprofile,#flowprofile, #adjust, #adjusttools, #fluidsengineering, #thermodynamics, #processsimulation, #plantengineering, #productionengineering, #energyindustry, #gasprocessing, #operationsengineering, #pipelinehydraulics, #engineeringtutorial, #stemeducation, #engineeringstudents

InnerDiameter, OuterDiameter, Thicknes

wrong sign in the equation not - x = [ π * [(outerDiameter innerDiameter)/2] ] * (33.3rpm * 22min)

I hate you… x = [ π * [(outerDiameter - innerDiameter)/2] ] * (33.3rpm * 22min)

Working on the escape wheel pinion. Outerdiameter 0.852mm Modul 0.076