September 1996 Introduction to Aspen Plus Contact Information Phone :	02-761-5800 Fax :	02-761-5803 e-mail :	atasupport@aspentech.com Address :	Room 702 Sinsong Building		25-4 Yoido-dong,		Youngdeungpo-ku, Seoul Course Agenda - Day 1 1. 	Introduction - General Simulation Concepts 2.	The User Interface - Graphical Flowsheet Definition 3.	Basic Input - Getting Around the Graphical User Interface 4.	Unit Operation Models - Overview of Available Unit Operations 5.	RadFrac - Multistage Separation Model 6.	Reactor Models - Overview of Available Reactor Types 7.	Cyclohexane Production Workshop Course Agenda - Day 2 8.	Physical Properties - Overview of Thermodynamic Models, Basic Property Analysis and Reporting  9.	Accessing Variables - Making References to Flowsheet Variables  10.	Sensitivity Analysis - Studying Relationships Between Process Variables 11.	Design Specifications - Meeting Process Objectives 12.	Fortran Blocks - Use of In-Line Fortran 13.	Windows Interoperability - Transferring Data to and from Other Windows Programs Course Agenda - Day 3 14.	Heater and HeatX - Heaters and Heat Exchangers 15.	Pressure Changers - Pumps, Compressors, Pipes and Valves  16.	Flowsheet Convergence - Convergence Blocks, Tear Streams and Flowsheet Sequences  17.	Full-Scale Plant Modeling Workshop - Simulate a Methanol Plant Additional Topics 18.  Maintaining Aspen Plus Simulations - Managing Aspen Plus Files for Storage and Retrieval  19.	Customizing the Look of Your Flowsheet - Creating Process Flow Diagrams 19.	Estimation of Physical Properties - Overview of Property Estimation   20.	Electrolytes - Introduction to the Use of Electrolytes  21.	Solids Handling - Overview of the Solids Capabilities 22.	Optimization - Optimizing a Flowsheet  Additional Topics (Continued) 23.	RadFrac Convergence - Techniques for Converging Difficult Columns  24.  External Fortran - Using External Subroutines to Customize a Flowsheet 25. 	VCM Workshop  Appendices A.	Enthalpy Reference and Heat of Reaction B.	Workshop Instructions C.	Workshop Results  Introduction Objective: Introduce general flowsheet simulation concepts and Aspen Plus features   Introduction What is flowsheet simulation? Use of a computer program to quantitatively model the   characteristic equations of a chemical process Uses underlying physical relationships Mass and energy balance Equilibrium relationships Rate correlations (reaction and mass/heat transfer) Predicts Stream flowrates, compositions, and properties Operating conditions Equipment sizes Advantages of Simulation  Reduces plant design time Allows designer to quickly test various plant configurations  Helps improve current process Answers “what if” questions Determines optimal process conditions within given constraints Assists in locating the constraining parts of a process (debottlenecking) General Simulation Problem What is the composition of stream PRODUCT?            To solve this problem, we need:  Material balances  Energy balances    Approaches to Flowsheet Simulation Sequential Modular Aspen Plus is a sequential mo
1998 aspen培训讲义.英文版.ppt