Course Details
| Year | Fee |
|---|---|
| 1st Year | MYR 30,800.00 |
| Description | Fee |
|---|---|
| Application (International Full Time Student ONLY) | MYR 2,600.00 |
| Personal Bond | MYR 3,000.00 |
| Registration (Insurance & Commitment Fee) | MYR 1,600.00 |
Overview
The Master of Science in Process Integration - ODL program at UTP University is crafted to address the challenges faced by process system engineers across various industries. It equips you to tackle these challenges with innovative solutions.The program emphasizes the application of the latest advancements in process system engineering and analysis techniques, moving away from traditional practices. Key areas of focus include heat integration, modeling, optimization, process safety, control, and operability. These elements aim to optimize the use of raw materials and energy, contributing to sustainability.In collaboration with industry experts, UTP's MSc in Process Integration encourages students to think beyond conventional methods, preparing them to shape a promising future. The program aims to create a pipeline of skilled process integration specialists, offering learning objectives grounded in real-world industry scenarios and changes.
Entry Requirement
- A bachelor's degree with a minimum CGPA of 2.50 or equivalent
For other qualifications and certificates (e.g., UEC, Foundation, STAM, etc..) please contact our educational consultants or submit your application for Admission assessment.
Curriculum
SEMESTER 1
- Heat Integration
- Modeling
- Elective I
- Elective II
- Research Methodology
SEMESTER 2
- Operability & Control
- Optimisation
- Elective III
- Elective IV
- Data Analytics
SEMESTER 3
- Process Safety
- Environmental Design for Aqueous Emissions
- Environmental Designs for Atmospheric Emissions
- Advance Distillation Design
- Project Management
- Design Projects
- Refinery and Petrochemical Processes
- Cogeneration and Site Utility Systems
TECHNICAL ELECTIVES
Structure A
Choose any FOUR (4) technical electives below.
- Advanced Distillation Design
- Cogeneration & Site Utility
- Environmental Design for Aqueous Emissions
- Environmental Design for Atmospheric Emission
- Refinery and Petrochemical Processes
- Refinery Optimization
- Synthesis of Reaction and Separation Systems
Structure B
Choose any FOUR (4) technical electives below.
- Advanced Distillation Design
- Cogeneration & Site Utility
- Environmental Design for Aqueous Emissions
- Environmental Design for Atmospheric Emission
- Process Safety
- Refinery and Petrochemical Processes
- Synthesis of Reaction and Separation Systems
