The Chemical Engineering Technical Diploma (CETD) is a comprehensive program designed to provide participants with in-depth technical knowledge and practical skills essential for excelling in the field of chemical engineering. Spanning 40 meticulously designed modules, the program covers fundamental principles, advanced concepts, and hands-on applications in areas such as chemical plant design, process safety, renewable energy, and engineering economics.
Participants will explore a wide range of topics, including thermodynamics, heat transfer, fluid mechanics, and separation processes, while also gaining insights into soft skills like leadership, teamwork, and strategic management. The program integrates real-world case studies, simulations of chemical plants, and specialized modules on modern engineering practices like green energy and data analysis.
This diploma ensures a holistic learning experience, combining theoretical foundations with practical applications and real-world problem-solving. Graduates of the CETD program will be equipped to contribute to industrial innovation, optimize operations, and take on leadership roles in chemical engineering and related industries.
The diploma is divided into 4 levels, each of which contains 10 modules
Who Should Attend:
This diploma is ideal for:
- Recent graduates seeking specialized training in chemical engineering.
- Professionals aiming to enhance their expertise and advance their careers in the field.
- Individuals looking to transition into roles related to chemical plants, petroleum refining, and process safety management.
Course Features
- Lectures 40
- Quiz 0
- Duration 200 hours
- Skill level Intermediate
- Language English
- Students 0
- Certificate No
- Assessments Yes
Curriculum
- 4 Sections
- 40 Lessons
- 200 Hours
- Level 1: Foundation in Chemical EngineeringThis level introduces students to the essential principles of chemical engineering and safety.10
- Level 2: Process Components and OperationsBuilds technical understanding of equipment and processes in chemical plants.10
- Level 3: Chemical Plant Practice and Case StudiesFocuses on practical plant operation, troubleshooting, and process understanding.10
- 3.1Hazard Identification and Risk Assessment
- 3.2Chemical Plant Design and Operation
- 3.3Plant Follow Up
- 3.4Chemical Plant / Petroleum Refining
- 3.5Reactors & Catalyst
- 3.6Waste and Hazardous Waste Management
- 3.7Process Block Diagram, PFD & PID
- 3.8Case Study: Water Treatment
- 3.9Case Study: Nitric Acid Process
- 3.10Leadership & Strategic Management
- Level 4: Advanced Engineering and SimulationExpands to strategic thinking, plant simulations, and modern energy topics.10
- 4.1Principle of Simulation Program
- 4.2Real Plant Simulation
- 4.3Introduction to Integrated Management System (IMS)
- 4.4Introduction to Process Safety Management (PSM)
- 4.5Introduction to Green & Renewable Energy
- 4.6Introduction to Data Analysis
- 4.7Introduction to Plant Design
- 4.8Introduction to Ammonia Process
- 4.9Introduction to Mega Project
- 4.10Introduction to Engineering Economics
Requirements
- A high school diploma (Science or Math stream preferred) or equivalent
- Basic understanding of mathematics and physics
- Proficiency in English (reading and technical comprehension)
- Access to a laptop or desktop for virtual sessions
- Personal motivation and commitment to complete all four levels
Features
- Structured 4-Level Curriculum: Covers foundational to advanced topics in chemical engineering
- Hands-On Case Studies: Includes simulations and real-world case studies such as water treatment and ammonia plant operation
- Project-Based Learning: Apply knowledge in mini-projects and plant design exercises
- International Best Practices: Integrated approach including PFDs, P&IDs, safety, economics, and green energy
- Flexible Delivery: Available in-person, online, or hybrid formats
- Expert Instructors: Delivered by seasoned engineers and industry consultants
- Career Development Focus: Equips participants with employable skills and job-ready capabilities
Target audiences
- Fresh graduates in engineering or applied science fields
- Technicians aiming to shift into process industries
- Junior engineers in chemical, petrochemical, or energy sectors
- Individuals preparing for technical roles in oil, gas, and water treatment plants
- Professionals transitioning from mechanical or electrical fields to chemical process roles
