Basic Information
His Course Covers The Fundamentals and Applications of Process Intensification (pi). Pi in The Spatial Domain# Shape-selective Catalysts and Microstructured Reactors. Pi in The Functional Domain# Membrane Reactors, Static Mixer Reactors and Reactive Distillation. Pi in The Temporal Domain# Oscillatory Flow Reactors, Reverse Flow Reactors and Simulated Moving Bed Reactors. Pi in The Thermodynamic Domain# Utilizing Solar Power, Ultrasound and Microwave Energy In Reacting Systems. Learning Outcomes# at The End of The Course The Students Will Be Able To# 1. Understand The 4 Different Domains of Pi, Their Implementation, And Their Integration. 2. to Learn to Conduct a Literature Survey On Topic of Their Choice In The Field of Pi. 3. Learn to Perform a Critical Analysis of Published Scientific Work In The Field of Pi. 4. Learn to Present Their Analysis Coherently and Practice Giving Al Seminar._ 5. The Students Will Learn to Derive a Mathematical Model For A Reverse-flow-reactor (or a Different System), Solve It Numerically And Analyze The Results.
Faculty: Chemical Engineering
|Graduate Studies
Pre-required courses
(54322 - Reactor Design Principles and 54409 - Reactor Design Principles)