Advancing on from the year one module Thermofluids 1, you will cover topics such as: vapour compression and vapour absorption, adiabatic saturation of moist air, steady-state one-dimensional conduction of heat conduction, convection heat transfer and introduction to radiant heat transfer. You will spend around four hours per week in lectures and laboratory classes studying for this module.
Acoustics and Lighting
This module introduces you to the fundamentals of acoustic and lighting phenomena as they relate to design within the built environment. During two hours of lectures each week, you’ll be given an overview of the psychological and technical considerations that underpin design requirements and explore the selection of acoustic and lighting strategies relating to the design of buildings through the introduction of appropriate tools and techniques.
Architectural Engineering Design 3
This module aims to introduce you to large scale building services, principally natural ventilation, air conditioning and other environmental control systems, and to discuss the reasons for resorting to and avoiding A/C and the consequent design issues.
- assessments of heat gains and losses, thermal comfort and relevant climatic data
- system types and associated secondary plants
- plant selection, location, sizing and design alternatives
This module is delivered through four hours of lectures each week.
Differential Equations and Calculus for Engineers
You will learn techniques for solving selected classes of ordinary differential equations (ODEs) relevant to the analysis of engineering topics. This module also provides the basic calculus to help analyse engineering problems in two or three dimensions and special solutions of partial differential equations relevant to engineering applications. You will spend around three hours per week in lectures and workshops.
Environmental Performance Modelling
The aim of this module is to introduce you to computer simulation tools and explore how they may be used to understand the energy behaviour of buildings. Specifically, you’ll learn about the methods of examining non-steady state performance of buildings. Starting from a theoretical exploration of transient building response, computer simulation tools are introduced and then used to explore energy flows through buildings.
The simulation process is used to explore and develop an awareness of the relationship between building performance and climate, design, materiality and occupant behaviour. This module is delivered through four hours of lectures each week.
Architectural Engineering Design 4
This module aims to help you develop and extend your skills in designing building services of increasing complexity. You’ll study design topics such as:
- large scale HVAC systems
- utility services
- lighting and fire protection services
- natural ventilation
- sustainable systems
This module expands the design principles of HVAC, along with utility services, and the fire protection systems, into a co-ordinated design. Engineering systems are integrated into a building which is at the design stage. You’ll make design calculations and sketch drawings of system layouts. By the end of the module you should be able to design and commission air distribution systems within buildings, understand various cooling techniques for buildings and have an appreciation of lighting and drainage systems. The module is delivered through a one-hour lecture and a one-hour seminar each week.
Control Systems of Built Environment
This module aims to provide you with a mix of theory and application through computer simulation of control systems with particular focus on buildings technologies. This includes deriving dynamic models of building service, block diagram presentation, time response of systems, and selection and design of a controller. You will spend two hours a week in lectures studying for this module.
Introduction of Renewable Energy
Examining various sources of renewable energy suitable for use in buildings, you will concentrate on wind, water waste heat, solar, geothermal and bio-mass as potential sources of energy. You will investigate the potential contribution they make to a building's energy requirement, the technology used to harness them and limitations associated with their use. For this module you will have a two hour lecture per week.
Project Management and Development
Two main themes are addressed in this module: Project Development issues and Project management issues. Lectures will introduce the process of procurement of land and buildings, project management, development finance and economic factors, strategies and controls, facilities, estate and property management in relation to interests in the architectural profession and the building industry. Risk management and studies on human resources management will also be introduced.
Fluid Mechanics and the Built Environment 2
This module aims to develop an awareness of fluid mechanics and its application within building environment engineering and to teach you the fundamental principles of fluid mechanics and their application to practical problems in building environment design. You’ll spend around four hours per week in lectures and workshops 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