BEng (Hons)

Building Services Engineering

Teaching & Learning

The tabs below detail what and how you will study in each year of your course. The balance of assessments and overall workload is indicative and may be subject to change.

What you'll learn

Gain an understanding of the design phases of a modern building services engineering project. This module will advance your ability to critically analyse and evaluate the process involved with the environmental criteria into a building services scenario/strategy. You'll acquire the knowledge and skills needed for the design of complex mechanical and electrical services. You'll also learn to develop design solutions, informed by the construction and functional requirements of the building.
Discover the advanced mathematical techniques and analytical processes essential in providing solutions to building services engineering problems. You'll begin to appreciate Matrix algebra and its application to engineering situations. You'll understand and apply advanced calculus techniques and learn to use advanced geometry and statistical analysis to solve engineering-related problems.
Develop an understanding of the underpinning scientific principles and techniques used in a wide range of building services applications. You'll explore core fundamental principles and formulae of fluid mechanics, heat transfer, acoustics, lighting and associated systems.
Immerse yourself in the analysis and application of fluid mechanics and heat transfer related to building services design and implementation. You'll examine thermodynamic laws and process cycles relevant to the systems and equipment used in building services engineering.
Explore the scientific and engineering principles related to electrical and electronics systems used in the control and optimisation of building services systems and installations. This module will help you develop the knowledge and skills needed for the design of complex electrical and electronics systems. You'll begin to understand the processes involved in providing energy efficient and sustainable power supply and distribution systems for BSE systems. You'll also learn to apply analytical and mathematical techniques in solving BSE problems.
Build your expertise in the design, installation, operation and maintenance of heating, ventilation and air-conditioning (HVAC) equipment and systems. You'll focus on sustainability and the use of renewable energy systems. This module will provide the opportunity for independent learning, to research areas of HVAC systems. This research will develop your ability to analyse evidence and transform your knowledge into innovative design.
Gain an understanding of the design phases of a modern building services engineering project. This module will advance your ability to critically analyse and evaluate the process involved with the environmental criteria into a building services scenario/strategy. You'll acquire the knowledge and skills needed for the design of complex mechanical and electrical services. You'll also learn to develop design solutions, informed by the construction and functional requirements of the building.
Discover the advanced mathematical techniques and analytical processes essential in providing solutions to building services engineering problems. You'll begin to appreciate Matrix algebra and its application to engineering situations. You'll understand and apply advanced calculus techniques and learn to use advanced geometry and statistical analysis to solve engineering-related problems.
Develop an understanding of the underpinning scientific principles and techniques used in a wide range of building services applications. You'll explore core fundamental principles and formulae of fluid mechanics, heat transfer, acoustics, lighting and associated systems.
Immerse yourself in the analysis and application of fluid mechanics and heat transfer related to building services design and implementation. You'll examine thermodynamic laws and process cycles relevant to the systems and equipment used in building services engineering.
Explore the scientific and engineering principles related to electrical and electronics systems used in the control and optimisation of building services systems and installations. This module will help you develop the knowledge and skills needed for the design of complex electrical and electronics systems. You'll begin to understand the processes involved in providing energy efficient and sustainable power supply and distribution systems for BSE systems. You'll also learn to apply analytical and mathematical techniques in solving BSE problems.
Build your expertise in the design, installation, operation and maintenance of heating, ventilation and air-conditioning (HVAC) equipment and systems. You'll focus on sustainability and the use of renewable energy systems. This module will provide the opportunity for independent learning, to research areas of HVAC systems. This research will develop your ability to analyse evidence and transform your knowledge into innovative design.

What you'll learn

Apply advanced analysis and mathematical techniques to specified engineering problems. You'll learn to communicate solutions to an engineering problem using the correct mathematical terminology and format and effectively communicate the results.
Examine electrical power and lighting applications. You'll cover distribution, principles, legislation and technical aspects for commerce and industry from a local and global perspective. This module will enhance your ability to employ industry related software in the implementation of electrical systems and lighting design. As a result, you'll be able to produce an electrical power distribution systems design for a complex building.
Study building and energy management systems, and controls, with the goal of providing energy efficient and sustainable low and zero carbon buildings and systems. You'll evaluate the data from a given BMS system and learn to provide strategies for optimisation of performance from an energy efficiency and utilisation perspective. This module will also provide the opportunity to research the construction, manufacture and performance of BMS hardware and how these are used in an effective BMS system.
Develop your design skills relating to the evaluation and implementation of a realistic building services project. You'll learn to work effectively as part of a team and develop your ability to evaluate a client's design brief. You'll learn to create an efficient project plan with an emphasis on time, cost and quality. This module will create the opportunity to strengthen your presentation skills and communicate your design practice to an audience.
Study the design and implementation of air conditioning, refrigeration and cooling systems for complex commercial and industrial buildings. You'll learn to analyse data and develop effective low and zero carbon, and sustainable design methodologies. During this module, you'll also have the opportunity to use industry standard software applications in the production of air-conditioning and refrigeration design.
Discover the concepts, philosophies, technologies and software applications supporting the processes and mechanisms employed in digital and collaborative working systems within the construction, built environment and allied industries. You'll gain an understanding of how various software applications and technologies are employed in the production of a built asset, using a holistic building information model/management. You'll look at initial conception, design, costing, scheduling, error checking of model, construction, operation in use, through to demolition/recycling and encapsulated data analytics.
Apply advanced analysis and mathematical techniques to specified engineering problems. You'll learn to communicate solutions to an engineering problem using the correct mathematical terminology and format and effectively communicate the results.
Examine electrical power and lighting applications. You'll cover distribution, principles, legislation and technical aspects for commerce and industry from a local and global perspective. This module will enhance your ability to employ industry related software in the implementation of electrical systems and lighting design. As a result, you'll be able to produce an electrical power distribution systems design for a complex building.
Study building and energy management systems, and controls, with the goal of providing energy efficient and sustainable low and zero carbon buildings and systems. You'll evaluate the data from a given BMS system and learn to provide strategies for optimisation of performance from an energy efficiency and utilisation perspective. This module will also provide the opportunity to research the construction, manufacture and performance of BMS hardware and how these are used in an effective BMS system.
Develop your design skills relating to the evaluation and implementation of a realistic building services project. You'll learn to work effectively as part of a team and develop your ability to evaluate a client's design brief. You'll learn to create an efficient project plan with an emphasis on time, cost and quality. This module will create the opportunity to strengthen your presentation skills and communicate your design practice to an audience.
Study the design and implementation of air conditioning, refrigeration and cooling systems for complex commercial and industrial buildings. You'll learn to analyse data and develop effective low and zero carbon, and sustainable design methodologies. During this module, you'll also have the opportunity to use industry standard software applications in the production of air-conditioning and refrigeration design.
Discover the concepts, philosophies, technologies and software applications supporting the processes and mechanisms employed in digital and collaborative working systems within the construction, built environment and allied industries. You'll gain an understanding of how various software applications and technologies are employed in the production of a built asset, using a holistic building information model/management. You'll look at initial conception, design, costing, scheduling, error checking of model, construction, operation in use, through to demolition/recycling and encapsulated data analytics.

What you'll learn

Build your knowledge of low and near zero building and the systems designed to monitor and evaluate these buildings. This module will focus on the impact these systems have on the carbon reduction agenda, energy efficiency and building performance. You'll enhance your problem-solving abilities regarding energy systems and network analysis. You'll also develop a case study approach to the evaluation of building services systems design, installation and maintenance.
This module will give you hands-on experience of the design and implementation of building energy management systems. You'll build your knowledge of the design, construction, installation and maintenance of structured cabling and network systems. You'll also gain an understanding of the impact of intelligent buildings on energy efficiency, financial implications and facilities management from a global perspective.
Facilities management is the total management of all services and built environment infrastructure that supports the core business of an organisation. This module will provide you with an understanding of the strategic and day to day management of occupational property. You'll learn how to ensure that buildings and services are managed and operated efficiently and effectively.
Gain an in-depth knowledge of the science that underpins building performance and the related methodologies used in the modelling and analysis of building fabric. You'll begin to understand how the external environment affects the performance of a building and its associated systems. Additionally, you'll learn to analyse the performance of building systems and components using fundamental building engineering physics knowledge and appropriate modelling techniques.
Use the research skills you’ve gained throughout your course to prepare a reasoned and structured dissertation. This will include carrying out a sustained piece of research that examines current issues related to the built environment. Your dissertation will demonstrate your data collection, critical analysis and presentation skills.
Build your knowledge of low and near zero building and the systems designed to monitor and evaluate these buildings. This module will focus on the impact these systems have on the carbon reduction agenda, energy efficiency and building performance. You'll enhance your problem-solving abilities regarding energy systems and network analysis. You'll also develop a case study approach to the evaluation of building services systems design, installation and maintenance.
This module will give you hands-on experience of the design and implementation of building energy management systems. You'll build your knowledge of the design, construction, installation and maintenance of structured cabling and network systems. You'll also gain an understanding of the impact of intelligent buildings on energy efficiency, financial implications and facilities management from a global perspective.
Facilities management is the total management of all services and built environment infrastructure that supports the core business of an organisation. This module will provide you with an understanding of the strategic and day to day management of occupational property. You'll learn how to ensure that buildings and services are managed and operated efficiently and effectively.
Gain an in-depth knowledge of the science that underpins building performance and the related methodologies used in the modelling and analysis of building fabric. You'll begin to understand how the external environment affects the performance of a building and its associated systems. Additionally, you'll learn to analyse the performance of building systems and components using fundamental building engineering physics knowledge and appropriate modelling techniques.
Use the research skills you’ve gained throughout your course to prepare a reasoned and structured dissertation. This will include carrying out a sustained piece of research that examines current issues related to the built environment. Your dissertation will demonstrate your data collection, critical analysis and presentation skills.

This course offers the opportunity to take a ‘sandwich’ year – a year of paid employment in industry which will build your skills and experience. This is usually taken between the second and third year of your degree, typically making your course four years in total.

Students who choose the sandwich route find it helps with both their studies and getting a job after graduation. It can build your confidence, contacts, and of course your CV. Leeds Beckett advertise lots of placement opportunities and provide support in helping you find the right placement for you.