CHE 31. 1st Semester AY 2010-2011 FINAL STANDING
Section W | Section X
Classcards will be available at the department on 19 October 2010.
Enjoy the semestral break!
MEBAMBASEJR
CHE 31. INTRODUCTION TO CHEMICAL ENGINEERING (Credit: 3 Units)
The course is intended to provide students a clear overview of the field of chemical engineering and introduce them to the elementary principles involved in the analysis of chemical processes with emphasis on material and energy balance calculations as applied to steady-state chemical systems.
Course Prerequisites: CHEM 32 and MATH 37
Professor-in-charge: Manolito E. Bambase Jr.
LECTURE TOPICS
Part 1. Fundamental Concepts in Chemical Engineering Calculations
Lecture 1. Units and Dimensions
Lecture 2. Regression and Nonlinear Axes
Lecture 3. Fundamental Process Variables
Lecture 4. The Chemical Equation and Stoichiometry
Part 2. Gasses and Phase Equilibrium
Lecture 5. Ideal Gas Calculations
Lecture 6. Real Gas Relationships
Lecture 7. Vapor-Liquid Equilibria
Part 3. Material Balances
Lecture 8. The Balance Concept
Lecture 9. Solving Material Balance Problems Involving Non-Reactive Processes
Lecture 10. Solving Material Balance Problems Involving Reactive Processes
Lecture 11. Combustion Processes
Lecture 12. Recycle, Bypass, and Purge Calculations
Part 4. Energy Balances
Lecture 13. Concepts and Units
Lecture 14. Calculation of Enthalpy Changes
Lecture 15. Solving Energy Balance Problems Involving Non-Reactive Processes
Lecture 16. Solving Energy Balance Problems Involving Reactive Processes
REFERENCES
1. Elementary Principles of Chemical Processes (3rd Edition) by RM Felder and RW Rousseau
2. Basic Principles and Calculations in Chemical Engineering (7th Edition) by DM Himmelblau and JB Riggs
3. (FREE!) Wikibooks - Introduction to Chemical Engineering Processes
Section W | Section X
Classcards will be available at the department on 19 October 2010.
Enjoy the semestral break!
MEBAMBASEJR
CHE 31. INTRODUCTION TO CHEMICAL ENGINEERING (Credit: 3 Units)
The course is intended to provide students a clear overview of the field of chemical engineering and introduce them to the elementary principles involved in the analysis of chemical processes with emphasis on material and energy balance calculations as applied to steady-state chemical systems.
Course Prerequisites: CHEM 32 and MATH 37
Professor-in-charge: Manolito E. Bambase Jr.
LECTURE TOPICS
Part 1. Fundamental Concepts in Chemical Engineering Calculations
Lecture 1. Units and Dimensions
Lecture 2. Regression and Nonlinear Axes
Lecture 3. Fundamental Process Variables
Lecture 4. The Chemical Equation and Stoichiometry
Part 2. Gasses and Phase Equilibrium
Lecture 5. Ideal Gas Calculations
Lecture 6. Real Gas Relationships
Lecture 7. Vapor-Liquid Equilibria
Part 3. Material Balances
Lecture 8. The Balance Concept
Lecture 9. Solving Material Balance Problems Involving Non-Reactive Processes
Lecture 10. Solving Material Balance Problems Involving Reactive Processes
Lecture 11. Combustion Processes
Lecture 12. Recycle, Bypass, and Purge Calculations
Part 4. Energy Balances
Lecture 13. Concepts and Units
Lecture 14. Calculation of Enthalpy Changes
Lecture 15. Solving Energy Balance Problems Involving Non-Reactive Processes
Lecture 16. Solving Energy Balance Problems Involving Reactive Processes
REFERENCES
1. Elementary Principles of Chemical Processes (3rd Edition) by RM Felder and RW Rousseau
2. Basic Principles and Calculations in Chemical Engineering (7th Edition) by DM Himmelblau and JB Riggs
3. (FREE!) Wikibooks - Introduction to Chemical Engineering Processes