Chemical engineering plays a pivotal role in transforming raw materials into valuable products through innovative and efficient processes. It combines scientific principles with engineering techniques to design systems that optimize production, ensure safety, and support sustainable development. This training program provides a comprehensive understanding of the fundamental concepts of chemical engineering, focusing on the core principles that govern chemical processes. It empowers participants to understand and apply essential techniques in designing, operating, and optimizing chemical processes across various industries.
Explore the fundamental principles of chemical engineering and process design.
Utilize mass and energy balance techniques to analyze and optimize chemical systems.
Analyze and optimize chemical reaction processes and separations.
Use thermodynamic principles to optimize and improve process engineering systems.
Develop problem-solving skills for complex chemical processes.
Chemical Engineers.
Process Engineers.
Engineering Students.
Professionals in the chemical, oil, gas, and pharmaceutical industries.
Plant Operators and Technicians involved in chemical process operations.
Overview of chemical engineering and its applications.
Understanding chemical process design and operations.
Fundamental principles: mass balance and energy balance.
Role of chemical engineering in various industries.
Safety and environmental considerations in chemical engineering.
Principles of conservation of mass and energy.
Performing mass balance calculations for open and closed systems.
Energy balance concepts for chemical processes.
Areas of application of the first and second laws of thermodynamics.
Overview of chemical kinetics and reaction rates.
Reactor design and types: batch, continuous, and plug flow reactors.
Reaction mechanisms and rate laws.
Optimizing chemical reactions for improved yield and efficiency.
Introduction to catalysis in chemical processes.
Fundamental thermodynamic principles and laws.
Phase equilibrium and chemical equilibrium in processes.
Thermodynamic properties of pure substances and mixtures.
Heat engines and refrigeration cycles.
Areas of application of thermodynamics in process design and optimization.
Overview of separation techniques: distillation, filtration, and extraction.
The design and operation of separation equipment.
Areas of applications of mass transfer in separation processes.
Performance optimization of separation systems.
