We have a common first year across the department that introduces the principle engineering sciences together with the fundamental aspects of process engineering design.
At the end of year one you can elect to transfer to any of the courses offered by the department.
Fundamentals of Engineering Design
This module introduces the deliverables, constraints and conventions of the design process. It will enable you to understand the fundamental basis of design, and the design tools most commonly used by engineers in the industry. Each week you will have two three-hour workshops and one one-hour computing session.
Fluid Mechanics
This module covers the essential fluid mechanics needed by engineers to design tanks, vessels, piping systems and pumps. It also forms a basis for later modules on heat and mass transfer in fluids. You'll spend three hours in lectures per week and have regular practical sessions.
Chemistry for Engineers
Content for this module will be confirmed later in 2022 - please keep checking back on this page.
Process Engineering Fundamentals
This module aims to provide you with an understanding of the fundamental material and energy balances that underpin process engineering. You'll study material balances incuding:
- once-through and recycle systems
- flowsheets for continuous processes
- batch processes
- steady and unsteady state operation
- reacting and non-reacting systems
- energy balances
- combustion calculations
- heat balances in chemical and physical systems
- enthalpy/composition diagrams
You'll spend three hours in lectures and have regular practical workshops for this module.
Mathematical Methods for Chemical and Environmental Engineering
Content for this module will be confirmed later in 2022 - please keep checking back on this page.
Introductory Geology
This module provides a basic understanding of geology and includes topics such as:
- introduction to the main rock types and minerals
- rock forming processes
- the composition of the Earth
- geological structures
- natural hazards including volcanism and earthquakes
- geological map interpretation
Engineering Thermodynamics
This module will present the basics of thermodynamics with particular emphasis on applications to process plant. By the end of the module you should be able to analyse most of the common energy-based operations found on process plant.
The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules (including methods of assessment) may change or be updated, or modules may be cancelled, over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. Please refer to the
module catalogue for information on available modules. This content was last updated on Monday 09 August 2021.
During this year you will become familiar with key process engineering concepts including process control, plant design, separation and particle technologies, material properties and sustainable processing. You will also start to specialise in environmental aspects such as environmental assessment.
Chemical and Phase Equilibria
This module is an introduction to chemical thermodynamics and its applications to chemical, vapour/liquid/liquid and solid/liquid equilibria, and correlation and prediction of data. You'll spend two hours in lectures and one hour in a practical session per week studying for this module.
Analytical Measurement
This module is designed to give you a theoretical and practical introduction to the principles of analytical measurement. Particular emphasis of the module is on quality control, quality assurance and accreditation. Teaching is delivered through a blend of lectures, practical workshops and computing sessions.
Environmental Assessment
Content for this module will be confirmed later in 2022 - please keep checking back on this page.
Separation and Particle Technology
Content for this module will be confirmed later in 2022 - please keep checking back on this page.
Advanced Mathematical Modlelling for Process Engineers
Materials and Sustainable Processes
Content for this module will be confirmed later in 2022 - please keep checking back on this page.
Process Design and Control
Content for this module will be confirmed later in 2022 - please keep checking back on this page.
The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules (including methods of assessment) may change or be updated, or modules may be cancelled, over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. Please refer to the
module catalogue for information on available modules. This content was last updated on
Laboratory exercises are more open-ended, using large-scale and industrial equipment. Project management, business and finance are covered.
MEng students wishing to take a year in industry, usually do so between their third and fourth year.
Water Treatment (autumn)
This module will introduce you to a range of knowledge and skills applicable to water and wastewater treatment. You'll gain an understanding in water availability, sources of pollution and the legislative framework for water quality from an EU perspective.
Municipal water and wastewater treatment processes will be covered, focusing on key unit processes including sedimentation, filtration and disinfection. You’ll spend three hours per week studying for this module. Teaching is also complemented by site visits.
Reactor Design
This section is made up of eight topics, which are detailed below. Each topic covers a fundamental principle in reactor design, also how students can combine those principles to derive/optimise the reactor design equations. The textbook Fogler, H. Scott "Elements of chemical reaction engineering", 4th ed., Prentice Hall, 2005 is closely followed. The main topics are:
- mole balances
- conversion and reactor sizing
- rate laws and stoichiometry
- collection and analysis of rate data
- isothermal reactor design
- multiple reactions
- steady-state non-isothermal reactor design
- catalysis and catalytic reactors
Design Project
This is a group design project involving the preparation of heat and mass balances and flow sheets for a particular process scheme and the detailed design of certain important plant items. A study of the control, operational, safety, environmental and economic aspects will be included. You'll spend one hour in a tutorial and make use of self-study sessions each week studying for this module.
Process Engineering Laboratory
In this module you'll be given a laboratory-based problem and you'll need to plan experiments to collect the data required to solve the problem. You'll work in groups but write individual reports covering process assessment, experimental procedure and the description and discussion of the experimental results.
By solving a laboratory-based problem, you should gain the confidence in making decisions in a technical/scientific environment and adopt a rational, efficient approach to problem solving. You'll also become more familiar with the operation of commonly-encountered chemical engineering equipment and improve your skills in collecting, analysing and interpreting experimental data.
Process Simulation 1
This module is an introduction to steady-state process simulation by computer. Students will use a commercial package in a design environment and will develop an understanding of the benefits and drawbacks of such tools. You'll spend one hour in lectures and around three hours in practical sessions per week.
Multicomponent Separations
In this module you’ll look in detail at the process of mass transfer in multi-component separation equipment and multicomponent separation processes. You’ll learn principles of design for distillation and absorption columns and use computer applications. You’ll spend two hours in lectures and one hour in workshops per week studying for this module.
Advanced Transport Phenomena
This module aims to provide an in depth knowledge of heat, mass and momentum transport that is necessary in assessing, analysing and developing chemical, biochemical and environmental processes.
Furthermore, this module fills the gap between first year transport phenomena and the fourth year CFD module while introducing the multi-physics aspect of the discipline. You’ll spend three hours in lectures and three hours in practicals each week studying for this module.
The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules (including methods of assessment) may change or be updated, or modules may be cancelled, over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. Please refer to the
module catalogue for information on available modules. This content was last updated on