This course presents the concepts of process engineering and applies them to a wide array of systems. Basic process engineering tools are developed in the first half of the course that are then used to solve complex process systems in the second half. The course is designed to appeal to many sectors of the engineering profession. Examples are taken from many process systems including, but not limited to: manufacturing; geological systems; health care; food production; environmental systems; financial systems; biological systems; water treatment; and unit operations. Weekly hours: 1.5 Lecture hours and 1.5 Practicum/Lab hoursRestriction(s): Restricted to students in the College of Engineering. Prerequisite(s) or Corequisite(s): MATH 134.3. Note: There will be costs in addition to tuition fees.
This course presents the concepts of process engineering and applies them to a wide array of systems. Basic process engineering tools are developed in the first half of the course that are then used to solve complex process systems in the second half. The course is designed to appeal to many sectors of the engineering profession. Examples are taken from many process systems including, but not limited to: manufacturing; geological systems; health care; food production; environmental systems; financial systems; biological systems; water treatment; and unit operations. Weekly hours: 1.5 Lecture hours and 1.5 Practicum/Lab hoursRestriction(s): Restricted to students in the College of Engineering. Prerequisite(s) or Corequisite(s): MATH 134.3. Note: There will be costs in addition to tuition fees.
