Chemical Engineering Process Simulation, Second Edition
- 5h 27m
- Dominic Foo
- Elsevier Science and Technology Books, Inc.
- 2022
Chemical Engineering Process Simulation, Second Edition guides users through chemical processes and unit operations using the main simulation software used in the industrial sector. The book helps predict the characteristics of a process using mathematical models and computer-aided process simulation tools, as well as how to model and simulate process performance before detailed process design takes place. Content coverage includes steady-state and dynamic simulation, process design, control and optimization. In addition, readers will learn about the simulation of natural gas, biochemical, wastewater treatment and batch processes.
- Provides an updated and expanded new edition that contains 60-70% new content
- Guides readers through chemical processes and unit operations using the primary simulation software used in the industrial sector
- Covers the fundamentals of process simulation, theory and advanced applications
- Includes case studies of various difficulty levels for practice and for applying developed skills
- Features step-by-step guides to using UniSim Design, SuperPro Designer, Symmetry, Aspen HYSYS and Aspen Plus for process simulation novices
About the Author
Dominic Foo is a Professor of Process Design and Integration at the University of Nottingham Malaysia and is the Founding Director for the Centre of Excellence for Green Technologies. He is a Fellow of the Institution of Chemical Engineers (IChemE), Fellow of the Academy of Sciences Malaysia (ASM), Fellow of the Institution of Engineers Malaysia (IEM), Chartered Engineer (CEng) with the Engineering Council UK, Professional Engineer (PEng) with the Board of Engineer Malaysia (BEM), ASEAN Chartered Professional Engineers (ACPE), as well as the President for the Asia Pacific Confederation of Chemical Engineering (APCChE). He is top 1% world-renowned scientist according to Stanford List, working in process integration for resource conservation and CO2 reduction. Professor Foo is an active author, with eight books, more than 190 journal papers and made more than 240 conference presentations, with more than 30 keynote/plenary speeches. Professor Foo is the Editor-in-Chief for Process Integration and Optimization for Sustainability (Springer Nature), Subject Editor for Process Safety & Environmental Protection (Elsevier), and editorial board members for several other renowned journals. He is the winners of the Innovator of the Year Award 2009 of IChemE, Young Engineer Award 2010 of IEM, Outstanding Young Malaysian Award 2012 of Junior Chamber International (JCI), Outstanding Asian Researcher and Engineer 2013 (Society of Chemical Engineers, Japan), and Top Research Scientist Malaysia 2016 (ASM).
In this Book
-
How to Use This Book
-
Introduction to Process Simulation
-
Registration of New Components
-
Physical Property Estimation and Phase Behavior for Process Simulation
-
Simulation of Recycle Streams
-
Basics of Process Simulation with UniSim Design
-
Design and Simulation of Distillation Processes
-
Modeling and Optimization of Separation and Heating Medium Systems for Offshore Platform
-
Basics of Process Simulation with Symmetry
-
Process Modeling and Analysis of a Natural Gas Dehydration Process Using Tri-Ethylene Glycol (TEG) via Symmetry
-
Basics of Batch Process Simulation with SuperPro Designer
-
Modeling of Citric Acid Production Using SuperPro Designer
-
Design and Optimization of Wastewater Treatment Plant (WWTP) for the Poultry Industry
-
Basics of Process Simulation with Aspen HYSYS
-
Process Simulation and Design for Acetaldehyde Production
-
Dynamic Simulation for Process Control with Aspen HYSYS
-
Basics of Process Simulation with Aspen Plus
-
Design and Evaluation of Alternative Processes for the Manufacturing of Bio-Jet Fuel (BJF) Intermediate
-
Production of Diethyl Carbonate from Direct CO2 Conversion
-
Multiplatform Optimization on Unit Operation and Process Designs
-
Flexible Design Strategy for Process Controllability