The mission of the specialized diploma program offered by TEEC Corporation for engineers transitioning to process engineers is to provide a comprehensive and cutting-edge educational experience that equips participants with the requisite skills, knowledge, and mindset to excel in the dynamic field of process engineering. By offering a meticulously crafted curriculum encompassing a broad spectrum of relevant topics, the program aims to empower participants to become adept problem-solvers, innovative thinkers, and industry-ready professionals capable of addressing complex challenges in the engineering domain.
TEEC offers a specialized diploma program for engineers aspiring to advance as process engineers. The program includes 42 modules across two levels, providing a comprehensive skill set and knowledge base.
Level 1: Focuses on foundational topics like process engineering roles, mass and energy balance, advanced thermodynamics, fluid mechanics, plant design, process control, and environment, health, and safety (EHS).
Level 2: Covers advanced subjects such as reactor design, waste management, process hazards, troubleshooting, industry compliance, and integrating renewable energy systems.
Aligned with its mission to be a global knowledge hub for engineers, TEEC fosters a community of lifelong learners and empowers participants to excel, contribute to society, and shape the engineering industry’s future.
Course Features
- Lectures 42
- Quiz 0
- Duration 210 hours
- Skill level All levels
- Language English
- Students 0
- Certificate No
- Assessments Yes
Curriculum
- 2 Sections
- 42 Lessons
- 210 Hours
- Level 121
- 1.1The Role of the Process Engineer
- 1.2Introduction to Process Chemical Engineering
- 1.3Advanced Mass and Energy Balance
- 1.4Advanced Thermodynamics
- 1.5Advanced Fluid Mechanics
- 1.6Advanced Heat Exchanger
- 1.7Piping & Valves
- 1.8High Pressure Vessel
- 1.9Tanks (Case Study: Ammonia tank)
- 1.10Machinery
- 1.11Pumping System
- 1.12Compressors
- 1.13Turbine
- 1.14Advanced Process control & Instrumentation
- 1.15Plant Design
- 1.16Advanced Simulation Program
- 1.17Environment, Health and Safety EHS
- 1.18Plant Model (Nitric Acid Plant)
- 1.19Cases Studies
- 1.20Introduction to Process Engineering Advanced level
- 1.21Teamwork & Time Management
- Level 221
- 2.1Reactor
- 2.2Catalysts
- 2.3Waste and Hazardous Waste Management
- 2.4Process Hazard Analysis, PHA
- 2.5Hazop study, real Cases Studies
- 2.6Manual and Stander Operating Procedures “SOP”
- 2.7Plant Follow-up
- 2.8Troubleshooting analysis
- 2.9Comply with the Standards
- 2.10Near Miss/ Incident
- 2.11Management of Change MOC
- 2.12Work Permits
- 2.13Introduction to Integrated Management System IMS
- 2.14Introduction to Process system Management PSM
- 2.15Introduction to renewable Energy
- 2.16Introduction to Green H2 and Green Ammonia
- 2.17Real plant Model
- 2.18Introduction to Data Analysis
- 2.19Fourth Industrial Revolution 4.0
- 2.20leadership & Strategic Management
- 2.21Project
Requirements
- A bachelor’s degree in chemical, mechanical, or industrial engineering (or equivalent).
- Basic understanding of thermodynamics and process operations.
- Access to a laptop or desktop with a stable internet connection.
- English language proficiency (course content and materials are in English).
- Motivation to work on real-world industrial scenarios.
Features
- Comprehensive, case-based training designed by industry experts.
- Real-world simulation exercises and design calculations.
- Certification recognized across the energy and manufacturing sectors.
- Full online access to video lectures, materials, and quizzes.
- Lifetime access to course updates and future resources.
Target audiences
- Fresh graduates seeking their first role in process engineering.
- Junior process engineers aiming to improve technical and analytical skills.
- Engineers transitioning from maintenance or operations to design roles.
- Professionals in oil, gas, petrochemical, fertilizer, or power sectors.
- Technical consultants, supervisors, and commissioning engineers.
