Chemical Engineering is an engineering field that focuses on the design, development, and improvement of industrial processes that involve chemical and physical reactions to transform raw materials into value-added products. This specialization includes a wide range of fields such as petrochemical industries, pharmaceutical manufacturing, energy, advanced materials, and waste processing. Here’s a comprehensive look at the main aspects of the chemical engineering major:

Chemical and physical basics:

• Study the basic principles of general chemistry, organic chemistry, and physical chemistry.
• Understand basic physics such as thermodynamics, mechanics, and heat transfer.

Engineering analysis and design:

• Learn how to analyze and design industrial processes and units such as chemical reactors, distillation towers, and heat exchangers.
• Use engineering software and computer modeling to simulate operations and analyze performance.

Transfers:

• Study of heat transfer, mass transfer, and momentum transfer in industrial systems.
• Apply these concepts to improve process efficiency and reduce waste.

Thermodynamics:

• Understand the basic laws of thermodynamics and their application to industrial processes.
• Design systems that achieve thermal balance and high efficiency.

Chemical reactions and biochemical engineering:

• Analysis and design of chemical reactors for various applications.
• Study of biochemical reactions and applications of chemical engineering in vital industries.

Environmental engineering and waste treatment:

• Developing techniques to improve the environmental performance of industrial processes.
• Designing waste and water treatment systems and achieving environmental sustainability.

Material technology:

• Study and development of advanced materials such as polymers, ceramics, and nanomaterials.
• Understand the properties of materials and how to optimize them to meet the requirements of different applications.

Safety engineering and risk management:

• Analyze and evaluate risks associated with chemical processes.
• Develop strategies to ensure the safety of workers, the environment and the community.

Process control and performance improvement:

• Studying automatic control systems to improve production processes.
• Use advanced control techniques to ensure quality and efficiency.

Project management and manufacturing:

• Learn project management principles and apply them in industrial contexts.
• Plan and implement projects to ensure delivery on time and within budget.

Research and development:

• Participate in research and development projects to improve chemical processes and products.
• Publishing research and participating in scientific conferences to share results and innovations.

Practical training and applied projects:

• Obtain practical experience through training in engineering companies and projects.
• Apply theoretical knowledge in real business environments to develop practical and effective solutions.

Professional ethics and practices:

• Understand ethical and professional issues in chemical engineering.
• Adherence to engineering standards and laws to ensure the safety and quality of projects.

The Chemical Engineering major provides broad opportunities to work in multiple fields such as petrochemical industries, pharmaceutical manufacturing, food industries, energy, water treatment, and engineering consulting. This major contributes to the development of technology and the improvement of industrial processes, which enhances efficiency, productivity and sustainability in various industries.