Chemical Process Intensification the complete guide in 2020

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About Course

Chemical Process Intensification

This Chemical Process course covers the developments in several intensified technologies, with particular emphasis on their application in chemical processes. The course is intended to be a useful resource for practicing engineers and chemists alike who are interested in applying intensified reactor and/or separator systems in chemical industries. It will provide a basic knowledge of chemical engineering principles and process intensification for chemists and engineers who may be unfamiliar with these concepts. It will be a valuable tool for chemical engineers who wish to fully apply their background in reaction and separation engineering to the design and implementation of green processing technologies based on process intensification principles. Students on undergraduate and postgraduate degree programs that cover topics on advanced reactor designs, process intensification, will gain a better understanding of the practical applications in different areas.

Chemical Process COURSE LAYOUT

Week 1: Introduction on Process Intensification:
History, Philosophy, and Concept, Principle Features, Strategies, and domain-based techniques

Week 2: Mechanism involved in the process intensification
Intensification by fluid flow process, Mechanism of Intensification by mixing, Intensification in Reactive system

Week 3: Role of Process intensification in sustainable development
Problems leading to sustainable development, Concept, Issues, and Challenges, Strategies in process design

Week 4: Design Techniques for Process Intensifications
Scales and stages of process intensification, Methods, and Tools for Achieving sustainable design, Multi-level Computer-aided tools
Week 5: Stochastic Optimization for Process Intensification
Introduction on Stochastic Optimization, Optimization Algorithms, Applications of Optimization Algorithms
Week 6: Process intensification by cavitation Introduction and Mechanism of Cavitation-based PI, Cavitational Reactor Configurations and activity, Parametric effects on cavitation
Week 7: Process Intensification by monolith reactor Introduction of monolith reactor, Preparation of monolithic catalyst, Application of monolithic catalyst, Hydrodynamics, transport of monolithic reactor
Week 8: Interfacial area based PI
Overview of interfacial area based processes, Ejector induced downflow system for PI, Hydrodynamics, and transport in downflow system,
Week 9: Process intensification in distillation
Introduction and Principles, Types of Intensified Distillation Units, Design of membrane-assisted distillation
Week 10:Process intensification in the extraction
Introduction and Principles, Supercritical extraction for process intensification,
Week 11: Process intensification by membrane
Introduction to the membrane and its principles, Membrane engineering in process intensification
Week 12: Micro Process Technology in process intensification Introduction to microprocessor technology, Process Intensification by Microreactors, Hydrodynamics and transport in microchannel based microreactor

INTENDED AUDIENCE: Chemical, mechanical Engg graduate/Postgraduate/Research Scholar/ Scientist/Academician/Industrial R&D.

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Course Content

Chemical Process Intensification

  • Chemical Process Intensification [Introduction Video]
    00:00
  • Lec 01: History, Philosophy and Concept
    00:00
  • Lec 02: Principle Features
    00:00
  • Lec 03: Strategies and domain based techniques
    00:00
  • Lec 04 : Intensification by fluid flow process
    00:00
  • Lec 05 : Mechanism of Intensification by mixing
    00:00
  • Lec 06 : Intensification in Reactive system
    00:00
  • Lec 07 : Problems Leading to Sustainable Development
    00:00
  • Lec 08 : Concept, Issues and Challenges
    00:00
  • Lec 09 : Strategies in Process Design
    00:00
  • Lec 10 : Scales and Stages of Process Intensification
    00:00
  • Lec 11 : Methods and Tools for Achieving Sustainable Design
    00:00
  • Lec 12 : Multi-level Computer Aided Tools
    00:00
  • Lec 13 : Introduction on Stochastic Optimization
    00:00
  • Lec 14 : Optimization Algorithms
    00:00
  • Lec 15 : Applications of Optimization Algorithms
    00:00
  • Lec 16 : Introduction and Mechanism of Cavitation-based PI
    00:00
  • Lec 17 : Cavitational Reactor Configurations and Activity
    00:00
  • Lec 18 : Parametric Effects on Cavitation
    00:00
  • Lec 19 : Introduction of Monolith Reactor
    00:00
  • Lec 20 : Preparation of Monolithic Catalyst
    00:00
  • Lec 21 : Application of Monolithic Catalyst
    00:00
  • Lec 22 : Hydrodynamics, Transport of Monolithic Reactor
    00:00
  • Lec23 : Overview of Interfacial Area Based Processes
    00:00
  • Lec 24 : Ejector Induced Downflow System for PI
    00:00
  • Lec 25 : Hydrodynamics and Transport in Downflow System
    00:00
  • Lec 26 : Introduction and Principles
    00:00
  • Lec 27 : Types of Intensified Distillation Units
    00:00
  • Lec 28 : Design of membrane-assisted distillation
    00:00
  • Lec 29 : Introduction and Principles
    00:00
  • Lec 30 : Supercritical Extraction for Process Intensification
    00:00
  • Lec 31 : Introduction to Membrane and its Principles
    00:00
  • Lec 32 : Membrane Engineering in Process Intensification
    00:00
  • Lec 33: Introduction to microprocess technology
    00:00
  • Lec 34: Process Intensification by Microreactors
    00:00
  • Lec 35: Hydrodynamics and transport in microchannel based microreactor
    00:00

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