Course Information KC45803 Sem 1 2022/23

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Faculty: Faculty of Engineering Page: 1 of 2 Programme: Chemical Engineering

Course code: KC45803 Academic Session/Semester: 2022-2023/1

Course name: Advanced Process Simulation Pre/co requisite (course name and code, if applicable):

Credit hours: 3

Course Synopsis This course has been designed to illustrate the advanced use of process simulation as a tool for the analysis of chemical processes. The course is a mix of self-study, team-based activities and projects with the main objective is to design sustainable, green and energy-efficient complex chemical processes using a commercial process simulator, Aspen HYSYS. Several real-industrial problems will be used as team-based projects where each team will systematically design the simulation solutions of those projects in achieving several design objectives. Step-by-step tasks need to be completed in satisfying design requirements. This course implements active learning, cooperative learning as well as blended learning in all teaching and learning activities.

Course Learning Outcomes (CLOs)

At the end of this semester, students will be able to:

1. Formulate solutions for analysing complex chemical engineering heat integration design problems in achieving an energy-efficient process.

2. Design solutions for analysing complex chemical engineering process design with recycle problems in achieving an optimal process.

3. Design solutions for analysing complex chemical engineering process design problems in achieving an energy-efficient and optimal process.

4. Evaluate the state-of-the-art technologies for chemical engineering process design in achieving an energy-efficient and optimal process.

Course Schedule

Tuesday 15:00 – 17:00 (Makmal Umum 2, FKJ) Thursday 16:00 – 17:00 (Makmal Umum 2, FKJ)

Course lecturer Name Office Contact no. E-mail

Assoc. Prof. Ts. Dr. Mohd Kamaruddin bin Abd Hamid

A-11 0137790426 kamaruddinhamid@ums.

edu.my

Mapping of the Course Learning Outcomes (CLO) to the Programme Learning Outcomes (PLO), Teaching &

Learning (T&L) methods and Assessment methods:

No. Course Learning Outcomes PLO Taxonomies Level

T&L Methods Assessment Methods CLO 1 Formulate solutions for analysing complex

chemical engineering heat integration design problems in achieving an energy- efficient process.

PLO 2 C6 (formulate) Active learning, Cooperative Learning, Blended Learning

Mid-Term Test, Progress Report, Project Report CLO 2 Design solutions for analysing complex

chemical engineering process design with recycle problems in achieving an optimal process.

PLO 2 C6 (design) Active learning, Cooperative Learning, Blended Learning

Mid-Term Test, Progress Report, Project Report CLO 3 Design solutions for analysing complex

chemical engineering process design problems in achieving an energy-efficient and optimal process.

PLO 2 C6 (design) Active learning, Cooperative Learning, Blended Learning

Progress Report, Project Report

CLO 4 Evaluate the state-of-the-art technologies for chemical engineering process design in achieving an energy-efficient and optimal process.

PLO 12

C5 (evaluate) Active learning, Cooperative Learning, Blended Learning

Literature review reports

Details on Innovative T&L practices:

No. Type Implementation

1. Active learning Conducted through in-class activities.

2. Cooperative learning Conducted through design projects. Students in a team of five will be given two

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Faculty: Faculty of Engineering Page: 2 of 2 Programme: Chemical Engineering

Course code: KC45803 Academic Session/Semester: 2022-2023/1

Course name: Advanced Process Simulation Pre/co requisite (course name and code, if applicable):

Credit hours: 3

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