SUB-FLOWSHEET Streams Operations SUB-FLOWSHEET Streams OperationsĮach Sub-Flowsheet has its own Environment HONEYWELL - CONFIDENTIAL 4528.R380.02 UniSim Design Architecture Basis EnvironmentFLUID PACKAGE Property Package FLUID PACKAGE Property Package FLUID PACKAGE Property Package CPT LIST Components CPT LIST Components HYPO GROUP Hypo Cpts HYPO GROUP Hypo Cpts How do we do this in USD? Via the two main USD Environments - Basis EnvironmentFlowsheet Environment (T, P, Flow, Composition) - Unit operation information. Process Information - Feed stream conditions. Could be:EOS (PR or SRK) Activity Coefficient Model (NTRL or UNIQUAC) Other (Steam Tables, Antoine, etc.)
Process Simulation What information do we need to enter? Thermodynamic Information - A list of all the components that are needed. Module 1 Getting Started in Steady State Learning Objectives - Methods for moving through the different environments - Selecting property packages and components - Adding streams - Adding unit operations Transitioning from Steady State to Dynamics 4. Pressure Flow Solver and Dynamic Concepts 3. Control Theory Review (reading only) Day One 5. This type of Hands on training is very effective.Tell me and I forget, Show me and I may remember, Involve me and I understand. Structure of Training Material Material is broken into several modules (chapters) Each module will focus on one or more areas Most of your time will be spent working on your own. Add TEG Column + Event Scheduler + Cause & Effect Matrix Add Compressor Section -Add Anti-Surge Loop and Controller Build Steady State Model - Transition to Dynamics - Add Dynamic Details Timing Issues - 9:00 17:00 - Lunch: 12:00 13:00 - If we return from breaks on time, we should be able to stayon track for a 17:00 finish. Housekeeping Items Course Materials this is your own copy to keep Introduction to course area - Location of Washrooms - Coffee/Tea and refreshments - Arrangements for lunch - Use of Cellular phones, please be considerate. Learning/Using UniSim Design Dynamic Option Based around an offshore platform model UniSim Design can bring the steady state and dynamic worlds together - with Integrated Modeling:a steady state case can easily be converted to a dynamic one you can use the same program for both steady state and dynamic simulations steady state cases do not have to be rebuilt in order to create the dynamic simulationĪn introduction to Dynamic Modeling using UniSim Design Dynamic Option - Course Notes assume no knowledge of UniSim DesignSteady State / Dynamic Option Columns distillation, absorbers, short-cut, etc.ĭynamic Capabilities - Most of the steady state operations work in dynamics - PlusControllers (PID & MPC), Digital ops, Relief Valves, Fired Heater, etc. Rotating Equipment pumps, compressors, expanders. Reactors conversion, kinetic, PFR, CSTR, etc. Vessels two and three phase separators, tanks, etc. Heat exchanger equipment heaters, air coolers, LNG, etc.
#Unisim design r380 full#
Steady State Capabilities - Full Component Database, over 3000 available components - Diverse selection of unit operations, including:Piping equipment pipes, valves, mixers, tees, etc. UniSim Design is a process simulation tool.
Getting Help after the course is finishedYou can contact the UniSim Design Support Team: Via Email at Via phone at 1-86 (NALA) +32 (0) (EMEA) Via the internet at 3Ĭourse Outline Introduction to UniSim Design and the UniSim Design Suite What is this course all about? Outline of the course modules Course modules and workshops Introductions About You: - Your name? - Your job role? - How you currently use modeling tools? - Your experience with UniSim Design? - The one thing that you want to take away from this course? About Me? - My Name - My Experience Dynamic Modeling using UniSim Design 4528 (UDS-310) Slides for student useĭynamic Modeling using UniSim Design4528 (UDS-310)Presenter Name Date Client Name (optional)
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