Two-Phase Gas/Liquid Pipe Flow and Relief Sizing Originally delivered Feb 15, 2012 Developed by: AIChE Type: Archived WebinarLevel: Intermediate PDHs: 1.00 Share This Post: Preview Webinar: This webinar covers methods for identifying flow regimes and determining friction loss in two-phase distributed and homogeneous gas/liquid pipe flows and sizing relief valves for frozen and flashing homogeneous two-phase flow. Viewers learn to: Identify Two-Phase Separated Flow Regimes in Horizontal and Vertical Pipe Flows Define Flow Parameters that govern Two-Phase Gas/Liquid Pipe Flow Size Safety Relief Valves for Frozen and Flashing Equilibrium or non-Equilibrium Homogeneous Two-Phase Flow Use Calculational Methods for Friction Loss in Homogeneous and Separated Two-Phase Flow Engineers and engineering supervisors concerned with handling two-phase gas/liquid fluids in pipe flow and relief systems will benefit from viewing. Presenter(s): Ronald Darby Ron Darby has been on the faculty in the Chemical Engineering Department at Texas A&M University for the past 38 years. His research activities include complex fluid flow, rheology, viscoelastic fluids, turbulent drag reduction, heat and mass transfer, emergency relief design, multi-phase flow, and electrochemical engineering. He has written two books, Viscoelastic Fluids and Chemical Engineering Fluid Mechanics as well as many technical papers, book chapters, and presentations.Read more Once the content has been viewed and you have attested to it, you will be able to download and print a certificate for PDH credits. If you have already viewed this content, please click here to login. Checkout Checkout Do you already own this? Log In for instructions on accessing this content. Pricing AIChE Member Credits 1 AIChE Members $69.00 AIChE Undergraduate Student Members Free AIChE Graduate Student Members Free Non-Members $99.00 Webinar content is available with the kind permission of the author(s) solely for the purpose of furthering AIChE’s mission to educate, inform and improve the practice of professional chemical engineering. All other uses are forbidden without the express consent of the author(s).