Chemical Engineering BEng

The BEng Chemical Engineering degree at the University of Hull is designed for those passionate about transforming raw materials into essential products like food, energy, pharmaceuticals, and more. With strong industry links and a curriculum accredited by the Institution of Chemical Engineers (IChemE) and the Engineering Council, this program equips students with the skills and knowledge needed to excel in the chemical engineering field.

Curriculum Structure

Year 1: Foundations of Engineering

In the first year, students build a solid foundation in chemical engineering principles. Core modules include:

• Mathematics for Engineers (20 credits): Develops analytical and problem-solving skills essential for engineering applications.

• Fundamentals of Engineering (20 credits): Introduces key concepts in mechanical and electrical engineering, covering topics like digital electronics and basic stress analysis.

• Process Safety and Hazard Awareness (20 credits): Provides an understanding of safety protocols and hazard identification in chemical processes.

Year 2: Intermediate Chemical Engineering

Building upon the foundation, the second year delves deeper into chemical engineering topics. Modules include:

• Fluid Mechanics (20 credits): Explores the behavior of fluids in motion and at rest, crucial for designing process systems.

• Thermodynamics for Chemical Engineers (20 credits): Applies thermodynamic principles to chemical processes, aiding in system optimization.

• Chemical Reaction Engineering (20 credits): Focuses on the design and analysis of chemical reactors, emphasizing reaction kinetics and reactor design.

Year 3: Advanced Topics and Industry Engagement

The final year prepares students for professional practice with advanced modules and industry collaboration:

• Process Control and Instrumentation for Chemical Engineers (20 credits): Covers mathematical techniques used to model and control dynamic systems, introducing Laplace and Fourier transform techniques.

• Design Project (40 credits): A comprehensive project sponsored by industry leaders like Croda, Cristal, INEOS, Vivergo, and BP Acetyls, allowing students to apply their knowledge to real-world challenges.

• Sustainable Process Design (20 credits): Focuses on designing processes that minimize environmental impact and enhance sustainability.

Focus Areas

• Process Safety and Hazard Awareness

• Fluid Mechanics and Thermodynamics

• Chemical Reaction Engineering

• Process Control and Instrumentation

• Sustainable Process Design

Learning Outcomes

Graduates of this program will be able to:

• Apply fundamental principles of chemical engineering to solve complex problems.

• Design and optimize chemical processes with a focus on safety and sustainability.

• Utilize advanced tools and techniques for process control and instrumentation.

• Collaborate effectively in multidisciplinary teams to address engineering challenges.

Professional Alignment (Accreditation)

This degree is accredited by the Institution of Chemical Engineers (IChemE) and the Engineering Council, ensuring that the curriculum meets the high standards required for professional practice. Graduates are well-positioned to pursue Chartered Engineer status.

Reputation (Employability Rankings)

• Ranked 4th out of 34 institutions for student satisfaction in chemical engineering.

• 95.2% employability rate for Chemical Engineering graduates (UK domicile full-time first degree leavers; Higher Education Graduate Outcomes statistics, for the academic year 2021/22).

• Ranked joint 1st out of 28 institutions in the UK for Value Added in the Guardian University Rankings 2025.