NOC:Chemical Process Intensification


Lecture 1 - History, Philosophy and Concept


Lecture 2 - Principle Features


Lecture 3 - Strategies and domain based techniques


Lecture 4 - Intensification by fluid flow process


Lecture 5 - Mechanism of Intensification by mixing


Lecture 6 - Intensification in Reactive system


Lecture 7 - Problems leading to sustainable development


Lecture 8 - Concept, Issues and Challenges


Lecture 9 - Strategies in process design


Lecture 10 - Scales and stages of process intensification


Lecture 11 - Methods and Tools for Achieving sustainable design


Lecture 12 - Multi-level Computer aided tools


Lecture 13 - Introduction on Stochastic Optimization


Lecture 14 - Optimization Algorithms


Lecture 15 - Applications of Optimization Algorithms


Lecture 16 - Introduction and Mechanism of Cavitation-based PI


Lecture 17 - Cavitational Reactor Configurations and activity


Lecture 18 - Parametric effects on cavitation


Lecture 19 - Introduction of monolith reactor


Lecture 20 - Preparation of monolithic catalyst


Lecture 21 - Application of monolithic catalyst


Lecture 22 - Hydrodynamics, transport of monolithic reactor


Lecture 23 - Overview of interfacial area based processes


Lecture 24 - Ejector induced downflow system for PI


Lecture 25 - Hydrodynamics and transport in downflow system


Lecture 26 - Introduction and Principles


Lecture 27 - Types of Intensified Distillation Units


Lecture 28 - Design of membrane-assisted distillation


Lecture 29 - Introduction and Principles


Lecture 30 - Supercritical extraction for process intensification


Lecture 31 - Introduction to membrane and its principles


Lecture 32 - Membrane engineering in process intensification


Lecture 33 - Introduction to microprocess technology


Lecture 34 - Process Intensification by Microreactors


Lecture 35 - Hydrodynamics and transport in microchannel based microreactor