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Thursday, 16 March 2023

Aspen Plus V11 : Chemical Reactors (Video Lectures)

 Aspen Plus V11 : Chemical Reactors (Video Lectures)

46 lectures (3h 1m) | Video: MP4, 1280x720 | Audio: AAC, 44100 Hz | 1.16 GB  

Download Link: https://bit.ly/3yMlE1q (Part 1) (fikper.com)
Download Link: https://bit.ly/3Lvjnzp (Part 2) (fikper.com)


Note: Download both Parts (1st Part = 500 MB, 2nd Part = 441 MB). Keep both Parts in a unique Folder. Extract using Winrar / Winzip. Share and Enjoy :)

What you'll learn?
Identify and explain the various classes of reactor models available in Aspen Plus (PFR, CSTR…)
Model Plug Flow and Continuous Stirred Tank Reactors
Enter reaction stoichiometry and kinetic data for simple (POWERLAW) and complex (LHHW) reaction types
Use the Model Analysis Tools to run sensitivity analysis and optimize the operating conditions of a chemical reactor
Use the Model Analysis Tools to run sensitivity analysis and optimize the selectivity of a given chemical reaction

Overview
Section 1: ABOUT THIS ASPEN PLUS MODULE
Lecture 1 Introducing this Aspen Plus module
Lecture 2 Software and hardware
Section 2: ABOUT ASPEN PLUS
Lecture 3 What is Aspen Plus ?
Lecture 4 Why is Aspen Plus so important ?
Lecture 5 Who uses Aspen Plus ?
Lecture 6 How can we translate a chemical process into an Aspen Plus simulation model ?
Section 3: CHEMICAL REACTORS
Lecture 7 Introduction
Lecture 8 Chemical process description
Lecture 9 Reaction kinetic in Aspen Plus environment
Lecture 10 Entering components and property method
Lecture 11 Reactor options in Aspen Plus
Lecture 12 Adding a Plug Flow reactor
Lecture 13 Setting-up the reactor model for a Plug Flow Reactor
Lecture 14 Running the RPlug model and discussing the results
Lecture 15 Adding a compressor and a rectifying column
Lecture 16 Running the Reactor + Compressor + Column model and discussing the results
Lecture 17 Pure component analysis
Lecture 18 Adding a RadFrac distillation column
Lecture 19 Analyzing the results
Lecture 20 Adding the RCSTR reactor
Lecture 21 Running the global model and discussing the results
Lecture 22 Complex reactor kinetics
Lecture 23 LHHW type reaction
Lecture 24 Specifying the driving force for a non-reversible reaction
Lecture 25 Specifying the driving force for a reversible reaction
Lecture 26 Specifying the adsorption term
Lecture 27 Determining kinetic parameters for the methanol reaction
Lecture 28 Determining kinetic parameters for the water-gas shift reaction
Lecture 29 Methanol process description
Lecture 30 Entering components and selecting a property method
Lecture 31 Entering input parameters
Lecture 32 Entering kinetic parameters for the methanol reaction
Lecture 33 Entering kinetic parameters for the water-gas shift reaction
Lecture 34 A couple of advices
Lecture 35 Running the RPlug model and discussing the results
Lecture 36 Determining the reactor's optimum operating temperature a pressure
Section 4: WHAT IS NEXT ?
Lecture 37 Taking your Aspen Plus skills to the next level ?
Lecture 38 Flash Separation & Distillation Module : Introduction
Lecture 39 Liquid-Liquid Extraction Module : Introduction
Lecture 40 Piping System Module : Introduction
Lecture 41 Economic Optimization Module : Introduction
Lecture 42 Heat Exchanger Module : Introduction
Lecture 43 Solids handling Module : Introduction
Lecture 44 Fluidized bed modeling in Aspen Plus
Lecture 45 Aspen Plus Safety Environment : Process description
Lecture 46 BONUS : COUPON CODES

What is the target audience?
Engineers who will be using Aspen Plus in their daily work,
Process engineers doing process design and optimization projects and studies,
Plant engineers checking plant performance under different operating conditions,
Engineers wishing to gain experience in simulating chemical reactors,
Aspen Plus users who need exposure to steady-state simulation as preparation for using Aspen Plus Dynamics®

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