Through this class, students learn:
What chemical engineers do.
The functions and theoretical background of the basic chemical engineering unit operations.
How to fit experimental data to a thermodynamic model.
How to simulate chemical/biorefinery processes using software packages such as Aspen Plus.
How to quantify the material and energy inputs and outputs for each of chemical /biorefinery process units manually.
How to evaluate the potential of different economic/environmental impacts using software packages such as Aspen Icarus and openLCA.

process design (optional)

80% term projects (40% Midterm Report and Presentation/ 40% Final Report and Presentation)
10% Homeworks
10% Attendance

Lecture Notes – ppt files will be provided (Some lecture materials, including practice examples, will be provided in Korean).

Chapter 1 : What is Biorefinery ?
Chapter 2 : Overview of biobased process (lignocellulosic biomass-to-fuels)
Chapter 3 : Reactor simulation
Chapter 4 : Thermodynamic modeling modification
Chapter 5 : Thermodynamic modeling modification
Chapter 6 : Separator simulation: flash tank
Chapter 7 : Separator simulation: distillation column
Midterm(replaced with a project); project submission and presentation
Chapter 8 : Closed-loop simulation: recycle
Chapter 9 : Heat integration and energy analysis
Chapter 10 : Heat integration and energy analysis
Chapter 11 : Ternary phase separation
Chapter 12 : Ternary phase separation
Chapter 13 : Case studies (Integrating it all together)
Chapter 14 : Case studies (Integrating it all together)
Final exam(replaced with a project); project submission and presentation

Computer-based practice examples will be provided. It is recommended to bring a laptop with ASPEN, MATLAB, and Excel installed.