Engineered systems for pollution abatement; chemical reaction engineering; reaction kinetics and rate data analysis; design and modeling of reactors; single and multiple reactions; ideal and nonideal reactors; single and multi-parameter models; biochemical reaction engineering; process control. Laboratory procedures: reactor systems performance: Batch, CSTR and PFR. Includes: Experiential Learning Activity Prerequisite(s): CHEM 1002 or CHEM 1101, MATH 2004 (or concurrent), and second-year status in Engineering. Additional recommended background: ENVE 2001. Lectures three hours a week, problem analysis 2 hours a week, laboratory 1.5 hours alternate weeks. [0.5 credits]
Engineered systems for pollution abatement; chemical reaction engineering; reaction kinetics and rate data analysis; design and modeling of reactors; single and multiple reactions; ideal and nonideal reactors; single and multi-parameter models; biochemical reaction engineering; process control. Laboratory procedures: reactor systems performance: Batch, CSTR and PFR. Includes: Experiential Learning Activity Prerequisite(s): CHEM 1002 or CHEM 1101, MATH 2004 (or concurrent), and second-year status in Engineering. Additional recommended background: ENVE 2001. Lectures three hours a week, problem analysis 2 hours a week, laboratory 1.5 hours alternate weeks. [0.5 credits]
