In year one you are introduced to the engineering fundamentals and principles required to develop an understanding and appreciation of the important connections between science, engineering, environmental design, building services and technologies.
University Park Campus, Nottingham, UK
Qualification | Entry Requirements | Start Date | UCAS code | Duration | Fees |
---|---|---|---|---|---|
BEng Hons | AAB-ABB | September 2025 | K240 | 3 years full-time | £9,250 per year |
Qualification | Entry Requirements | Start Date | UCAS code | Duration | Fees |
---|---|---|---|---|---|
BEng Hons | AAB-ABB | September 2025 | K240 | 3 years full-time | £9,250 per year |
This course is accredited by the Engineering Council through the Chartered Institution of Building Services Engineers (CIBSE) and offers excellent prospects of obtaining a rewarding job in an advancing industry. Graduates may study for a further year at masters level before gaining the necessary industrial experience to gain Chartered Engineer status, or may work towards Chartership through company training schemes.
This course is accredited by the Engineering Council through the Chartered Institution of Building Services Engineers (CIBSE) and offers excellent prospects of obtaining a rewarding job in an advancing industry. Graduates may study for a further year at masters level before gaining the necessary industrial experience to gain Chartered Engineer status, or may work towards Chartership through company training schemes.
For 30 points/655 including one of HL5 in Mathematics Analysis and Approaches, HL5 in Mathematics Applications and Interpretation or SL6 in Mathematics Analysis and Approaches and HL5 in one of chemistry, physics, biology, computer science, economics, geography, geology or design technology. For 32 points/665 one of HL5 in Mathematics Analysis and Approaches, HL5 in Mathematics Applications and Interpretation or SL6 in Mathematics Analysis and Approaches.
6.0 (no less than 5.5 in any element)
As well as IELTS (listed above), we also accept other English language qualifications. This includes TOEFL iBT, Pearson PTE, GCSE, IB and O level English. Check our English language policies and equivalencies for further details.
For presessional English or one-year foundation courses, you must take IELTS for UKVI to meet visa regulations.
If you need support to meet the required level, you may be able to attend a Presessional English for Academic Purposes (PEAP) course. Our Centre for English Language Education is accredited by the British Council for the teaching of English in the UK.
If you successfully complete your presessional course to the required level, you can then progress to your degree course. This means that you won't need to retake IELTS or equivalent.
Check our country-specific information for guidance on qualifications from your country
AAB-ABB (depending on subjects taken)
A level or Higher Level (IB) maths is essential. Other preferred subjects (for an offer of ABB) are physics, chemistry, biology, design and technology, geography, geology, computing, economics or further maths. Otherwise offer is AAB.
Transfer to MEng is possible during the course subject to satisfactory progression.
GCSE English grade 4 (C).
Excludes general studies, thinking skills, global perspectives and research, critical thinking.
All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2025 entry.
Please note: Applicants whose backgrounds or personal circumstances have impacted their academic performance may receive a reduced offer. Please see our contextual admissions policy for more information.
International students must have valid UK immigration permissions for any courses or study period where teaching takes place in the UK. Student route visas can be issued for eligible students studying full-time courses. The University of Nottingham does not sponsor a student visa for students studying part-time courses. The Standard Visitor visa route is not appropriate in all cases. Please contact the university’s Visa and Immigration team if you need advice about your visa options.
We recognise that applicants have a wealth of different experiences and follow a variety of pathways into higher education.
Consequently, we treat all applicants with alternative qualifications (besides A-levels and the International Baccalaureate) on an individual basis and we gladly accept students with a whole range of less conventional qualifications including:
The entry requirements for alternative qualifications can be quite specific; for example, you may need to take certain modules and achieve a specified grade in those modules. Please contact us to discuss the transferability of your qualification. Please also see the alternative qualifications page for more information.
RQF BTEC Nationals
For those considered for year one entry, our typical offer is as follows:
RQF Level 3 BTEC National Extended Diploma in Engineering – DDD including Distinction in units:
RQF Level 3 BTEC National Diploma in Engineering and A Levels – DD + B in A Level Maths
RQF Level 3 BTEC National Diploma in any subject and A Levels – DD + A in A Level Maths
RQF Level 3 BTEC National Extended Certificate in Engineering and A Levels – D + BB to include A Level Maths
RQF Level 3 BTEC National Extended Certificate in any subject and A Levels – D + AB to include A in A Level Maths
Access to HE Diploma
Access to HE Diploma 24 Level 3 credits at Distinction (to include a minimum of 15 Level 3 credits at Distinction in Mathematics) and 21 Level 3 credits at Merit.
If you have already achieved your EPQ at grade A you will automatically be offered one grade lower in a non-mandatory A level subject. If you are still studying for your EPQ you will receive the standard course offer, and also an alternate offer with a condition of one grade lower in a non-mandatory A level subject if you achieve an A grade in your EPQ. If you qualify for a contextual offer, your EPQ will be taken into consideration and the appropriate adjustment will be made to your offer. Please note that if you qualify for an enhanced contextual offer, your EPQ will not be taken into consideration as we are unable to make any further adjustments to your offer.
At the University of Nottingham, we have a valuable community of mature students and we appreciate their contribution to the wider student population. You can find lots of useful information on the mature students webpage.
AAB-ABB (depending on subjects taken)
A level or Higher Level (IB) maths is essential. Other preferred subjects (for an offer of ABB) are physics, chemistry, biology, design and technology, geography, geology, computing, economics or further maths. Otherwise offer is AAB.
Transfer to MEng is possible during the course subject to satisfactory progression.
GCSE English grade 4 (C).
Excludes general studies, thinking skills, global perspectives and research, critical thinking.
For 30 points/655 including one of HL5 in Mathematics Analysis and Approaches, HL5 in Mathematics Applications and Interpretation or SL6 in Mathematics Analysis and Approaches and HL5 in one of chemistry, physics, biology, computer science, economics, geography, geology or design technology. For 32 points/665 one of HL5 in Mathematics Analysis and Approaches, HL5 in Mathematics Applications and Interpretation or SL6 in Mathematics Analysis and Approaches.
All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2025 entry.
Please note: Applicants whose backgrounds or personal circumstances have impacted their academic performance may receive a reduced offer. Please see our contextual admissions policy for more information.
We recognise that applicants have a wealth of different experiences and follow a variety of pathways into higher education.
Consequently, we treat all applicants with alternative qualifications (besides A-levels and the International Baccalaureate) on an individual basis and we gladly accept students with a whole range of less conventional qualifications including:
The entry requirements for alternative qualifications can be quite specific; for example, you may need to take certain modules and achieve a specified grade in those modules. Please contact us to discuss the transferability of your qualification. Please also see the alternative qualifications page for more information.
RQF BTEC Nationals
For those considered for year one entry, our typical offer is as follows:
RQF Level 3 BTEC National Extended Diploma in Engineering – DDD including Distinction in units:
RQF Level 3 BTEC National Diploma in Engineering and A Levels – DD + B in A Level Maths
RQF Level 3 BTEC National Diploma in any subject and A Levels – DD + A in A Level Maths
RQF Level 3 BTEC National Extended Certificate in Engineering and A Levels – D + BB to include A Level Maths
RQF Level 3 BTEC National Extended Certificate in any subject and A Levels – D + AB to include A in A Level Maths
Access to HE Diploma
Access to HE Diploma 24 Level 3 credits at Distinction (to include a minimum of 15 Level 3 credits at Distinction in Mathematics) and 21 Level 3 credits at Merit.
If you have already achieved your EPQ at grade A you will automatically be offered one grade lower in a non-mandatory A level subject. If you are still studying for your EPQ you will receive the standard course offer, and also an alternate offer with a condition of one grade lower in a non-mandatory A level subject if you achieve an A grade in your EPQ. If you qualify for a contextual offer, your EPQ will be taken into consideration and the appropriate adjustment will be made to your offer. Please note that if you qualify for an enhanced contextual offer, your EPQ will not be taken into consideration as we are unable to make any further adjustments to your offer.
We make contextual offers to students who may have experienced barriers that have restricted progress at school or college. Our standard contextual offer is usually one grade lower than the advertised entry requirements, and our enhanced contextual offer is usually two grades lower than the advertised entry requirements. To qualify for a contextual offer, you must have Home/UK fee status and meet specific criteria – check if you’re eligible.
An Engineering and Physical Sciences foundation year is available for those who are not taking the required subjects.
At the University of Nottingham, we have a valuable community of mature students and we appreciate their contribution to the wider student population. You can find lots of useful information on the mature students webpage.
On this course, you can apply to study abroad at one of our partner institutions or at University of Nottingham China.
If you are successful in applying to study abroad, you will get the opportunity to broaden your horizons and enhance your CV by experiencing another culture. Apply in the first year for exchange in either the autumn or spring semester of second year.
Please note:
In order to study abroad you will need to achieve the relevant academic requirements as set by the university and meet the selection criteria of both the university and the partner institution. The partner institution is under no obligation to accept you even if you do meet the relevant criteria.
If your course does not have a compulsory placement, integrated year in industry or compulsory year abroad where there is already an opportunity to undertake a work placement as part of that experience, you may be able to apply to undertake an optional placement year. While it is the student’s responsibility to find and secure a placement, our Careers and Employability Service will support you throughout this process. Contact placements@nottingham.ac.uk to find out more.
The school/faculty you are joining may also have additional placement opportunities. Please visit the school/faculty website for more information.
Please note:
In order to undertake an optional placement year, you will need to achieve the relevant academic requirements as set by the university and meet any requirements specified by the placement host. There is no guarantee that you will be able to undertake an optional placement as part of your course.
Please be aware that study abroad, compulsory year abroad, optional placements/internships and integrated year in industry opportunities may change at any time for a number of reasons, including curriculum developments, changes to arrangements with partner universities or placement/industry hosts, travel restrictions or other circumstances outside of the university’s control. Every effort will be made to update this information as quickly as possible should a change occur.
On this course, you can apply to study abroad at one of our partner institutions or at University of Nottingham China.
If you are successful in applying to study abroad, you will get the opportunity to broaden your horizons and enhance your CV by experiencing another culture. Apply in the first year for exchange in either the autumn or spring semester of second year.
Please note:
In order to study abroad you will need to achieve the relevant academic requirements as set by the university and meet the selection criteria of both the university and the partner institution. The partner institution is under no obligation to accept you even if you do meet the relevant criteria.
If your course does not have a compulsory placement, integrated year in industry or compulsory year abroad where there is already an opportunity to undertake a work placement as part of that experience, you may be able to apply to undertake an optional placement year. While it is the student’s responsibility to find and secure a placement, our Careers and Employability Service will support you throughout this process. Contact placements@nottingham.ac.uk to find out more.
The school/faculty you are joining may also have additional placement opportunities. Please visit the school/faculty website for more information.
Please note:
In order to undertake an optional placement year, you will need to achieve the relevant academic requirements as set by the university and meet any requirements specified by the placement host. There is no guarantee that you will be able to undertake an optional placement as part of your course.
Please be aware that study abroad, compulsory year abroad, optional placements/internships and integrated year in industry opportunities may change at any time for a number of reasons, including curriculum developments, changes to arrangements with partner universities or placement/industry hosts, travel restrictions or other circumstances outside of the university’s control. Every effort will be made to update this information as quickly as possible should a change occur.
*For full details including fees for part-time students and reduced fees during your time studying abroad or on placement (where applicable), see our fees page.
If you are a student from the EU, EEA or Switzerland, you may be asked to complete a fee status questionnaire and your answers will be assessed using guidance issued by the UK Council for International Student Affairs (UKCISA).
All students will need at least one device to approve security access requests via Multi-Factor Authentication (MFA). We also recommend students have a suitable laptop to work both on and off-campus. For more information, please check the equipment advice.
As a student on this course, you should factor some additional costs into your budget, alongside your tuition fees and living expenses. You should be able to access most of the books you’ll need through our libraries, and the department covers the travel cost of compulsory field trips and personal protective equipment. Please allow around £50 to cover the cost of printing over the three years.
Please note that these figures are approximate and subject to change.
The University of Nottingham offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help. For up to date information regarding tuition fees, visit our fees and finance pages.
In addition to the above, students applying to the Faculty of Engineering may be eligible for faculty-specific or industry scholarships.
We offer a range of international undergraduate scholarships for high-achieving international scholars who can put their Nottingham degree to great use in their careers.
*For full details including fees for part-time students and reduced fees during your time studying abroad or on placement (where applicable), see our fees page.
If you are a student from the EU, EEA or Switzerland, you may be asked to complete a fee status questionnaire and your answers will be assessed using guidance issued by the UK Council for International Student Affairs (UKCISA).
All students will need at least one device to approve security access requests via Multi-Factor Authentication (MFA). We also recommend students have a suitable laptop to work both on and off-campus. For more information, please check the equipment advice.
As a student on this course, you should factor some additional costs into your budget, alongside your tuition fees and living expenses. You should be able to access most of the books you’ll need through our libraries, and the department covers the travel cost of compulsory field trips and personal protective equipment. Please allow around £50 to cover the cost of printing over the three years.
Please note that these figures are approximate and subject to change.
The University of Nottingham offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help. For up to date information regarding tuition fees, visit our fees and finance pages.
In addition to the above, students applying to the Faculty of Engineering may be eligible for faculty-specific or industry scholarships.
Over one third of our UK students receive our means-tested core bursary, worth up to £1,000 a year. Full details can be found on our financial support pages.
* A 'home' student is one who meets certain UK residence criteria. These are the same criteria as apply to eligibility for home funding from Student Finance.
Studying Architectural Environment Engineering gives you the skills and knowledge to directly reduce the carbon footprint of the built environment. You will have the expertise to shape the design of smart and sustainable buildings.
Architectural Environment Engineers work with architects and other professionals to bring buildings to life. You’ll learn about renewable energy generation, smart controls, thermal comfort (heating, cooling and ventilation), the acoustics of spaces and lighting design.
Studying Architectural Environment Engineering gives you the skills and knowledge to directly reduce the carbon footprint of the built environment. You will have the expertise to shape the design of smart and sustainable buildings.
Architectural Environment Engineers work with architects and other professionals to bring buildings to life. You'll learn about renewable energy generation, smart controls, thermal comfort (heating, cooling and ventilation), the acoustics of spaces and lighting design.
Buildings are the world's greatest energy users and because of this, our course has a strong focus on sustainability. You'll become an engineer that can make a difference.
You will have access to excellent facilities including dedicated design spaces, workshops and research labs equipped with the latest renewable energy technologies.
This degree has three years of teaching, meaning that you will only need to complete an additional year of further study if you want to become a chartered engineer. For some students, especially international students, the preferred route is to do our BEng course and then stay on to complete an MSc degree. Take a look at the course page for our four-year MEng in Architectural Environment Engineering course.
This online prospectus has been drafted in advance of the academic year to which it applies. Every effort has been made to ensure that the information is accurate at the time of publishing, but changes (for example to course content) are likely to occur given the interval between publishing and commencement of the course. It is therefore very important to check this website for any updates before you apply for the course where there has been an interval between you reading this website and applying.
Mandatory
Year 1
Architectural Engineering Design 1
Mandatory
Year 1
Performance of Construction Materials
Mandatory
Year 1
Fluid Mechanics and the Built Environment 1
Mandatory
Year 1
Engineering Mathematics
Mandatory
Year 1
Environmental Science for Architects 1
Mandatory
Year 1
Thermofluids 1
Mandatory
Year 1
Architectural Engineering Design 2
Mandatory
Year 1
Electricity and the Built Environment
Mandatory
Year 2
Thermofluids 2
Mandatory
Year 2
Acoustics and Lighting
Mandatory
Year 2
Architectural Engineering Design 3
Mandatory
Year 2
Differential Equations and Calculus for Engineers
Mandatory
Year 2
Environmental Performance Modelling
Mandatory
Year 2
Architectural Engineering Design 4
Mandatory
Year 2
Project Management and Development
Mandatory
Year 2
Fluid Mechanics and the Built Environment 2
Mandatory
Year 2
Smart Energy and the Built Environment
Mandatory
Year 3
Computational Fluid Dynamics for the Built Environment
Mandatory
Year 3
Heat Transfer and Cooling Technology
Mandatory
Year 3
Architectural Engineering Design 5
Mandatory
Year 3
Research Project
Mandatory
Year 3
Energy and Waste
The above is a sample of the typical modules we offer, but is not intended to be construed or relied on as a definitive list of what might be available in any given year. This content was last updated on Thursday 22 August 2024. Due to timetabling availability, there may be restrictions on some module combinations.
In year one you are introduced to the engineering fundamentals and principles required to develop an understanding and appreciation of the important connections between science, engineering, environmental design, building services and technologies.
Your knowledge and competencies in environmental design and building services systems are further developed in year two. Engineering design forms the main core of the year with specialised subjects such as environmental performance modelling, acoustics, lighting and management feeding into the design process. The built environment in its wider context is considered in the study of renewable energy systems.
A final year engineering design module provides the opportunity to deliver a project with a stronger emphasis on building analysis, advanced environmental design and environmental performance modelling. This project is used to develop your skills and ability in utilising appropriate aspects of the material covered in years one, two and three, and to consider in more detail the holistic design of a building, its internal environment and the systems necessary to achieve a sustainable building.
You may be able to choose to study a language as part of this degree.
Learning another language can open career opportunities around the globe and enriches your CV. It could also help you in your studies by being able to access learning materials in other languages.
If you are planning to travel or work abroad it will help you to broaden your cultural understanding.
Our Language Centre offers many languages, and you may start as a beginner or at a more advanced level.
Find out more about learning a language as part of your degree
This module aims to help you develop a basic awareness of the building design process and the design skills and techniques used by engineers. Visits to construction sites help to deepen your understanding of the material covered in lectures and tutorials. The module introduces:
You’ll have two hours of lectures and six hours of tutorials a week for this module.
This module introduces you to some of the technical knowledge and techniques for surveying buildings and structures and identifying common defects using both qualitative and quantitative methods of assessment. Through a two-hour lecture each week you will cover topics such as moisture ingress, surface and interstitial condensation, freeze/thaw resistance, rot and infestation, sulphate attack, carbonation and corrosion.
Building on Level 1 design modules, you’ll be introduced to engineering concepts that inform and enrich the environmental performance of buildings. You’ll cover the fundamentals of fluid mechanics (fluid properties, hydrostatics, fluid dynamics) and then explore some of these through the analysis of flow through piped water systems and the design of hot and cold water services. You’ll spend around three to four hours in lectures and workshops studying for this module.
This module introduces you to the algebra of complex numbers. It provides a key mathematical tool for analysis of linear mathematical and engineering problems.
You will study the complexity of solving general systems of equations using matrix techniques and review the calculus of a single variable.
You will have a three hour lecture and workshops each week.
Introducing you to the environmental agenda as it applies to the architectural profession, you’ll explore the key bioclimatic strategies used to maintain appropriate conditions for the occupants of buildings, thus tying together occupant comfort, building schedule and climate. You’ll have a two-hour lecture per week using both physical modelling and computer simulation techniques to gain a better understanding of the strategies involved and their relationship with building design.
This module introduces the principles, concepts and analysis of thermodynamics, relevant to the applications in building environmental engineering. The topics covered include: dimensions and units, thermodynamic properties, thermodynamic systems, forms of energy, work and heat, ideal gas law, steady flow energy balance equation, 1st law and 2nd law of thermodynamics (closed and open systems, internal energy, enthalpy and entropy, heat engines and the Carnot cycle, refrigerators and heat pumps), steam table and the Rankine cycle.
This module aims to provide you with a basic understanding of design software and techniques for the design of simple building services systems. It also aims to give you practical experience of fabrication skills. The lectures will introduce you to the engineering design principles of building services, including heating, lighting, piping design, water supply, drainage and basic control systems.
In the design project tutorials you’ll develop the basic design skills introduced in Architectural Engineering Design 1 by carrying out a simple services design project for a case-study building. The project makes use of the knowledge gained from the lectures. The engineering fabrication practicals will give you the opportunity to gain hands-on experience of the practical skills used by craftsmen responsible for the installations. You’ll have workshops on metal work, plumbing, electrics and wall building. The module is delivered through two hours of lectures and three hours of practicals a week.
You will be given an understanding of the role that electricity plays in controlling the environment within buildings and the wider built environment through two hours of lectures each week.
This module develops and advances the principles of thermodynamics and fluid mechanics in Thermofluids 1 [ABEE1030] and provides applications to architectural environmental engineering.
Topics may include:
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.
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.
Topics include:
This module is delivered through four hours of lectures each week.
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.
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.
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:
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.
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.
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.
This module will introduce students to smart energy systems, which exploit synergies across multiple sub-systems such as electricity, heating, and transport to optimise energy use and reduce carbon intensity. The importance of data science to enable increased efficiency at the building and systems level will also be highlighted. You will be introduced to renewable energy technologies and investigate their performance in hands-on lab sessions. You will also build a model of a smart energy system in the context of a real-life case study.
This module will introduce you to the techniques and procedures employed in Computational Fluid Dynamics (CFD). It focuses particularly on the development of hands-on experience in the numerical modelling of fluid flows for the built environment. CFD, once the domain of academics, postdoctoral researchers or trained specialists, is becoming progressively more accessible to graduate engineers for research and development as well as design-orientated tasks in the built environment. You’ll learn about the necessary operations that are involved in setting up a fluid problem, solving the numerical problem, and managing some graphical representation of the results. This module is delivered through two hours of lectures and a one-hour workshop each week.
This module will provide you with knowledge of heat transfer and refrigeration technology to inform the analysis and design of heating and cooling systems for building and industrial applications.
You will develop an understanding of heat transfer and refrigeration, relating the underpinning principles and theories to the equipment used in buildings to maintain comfort conditions in buildings. The content is divided into three parts:
In this module you will get the opportunity to create work as part of a ‘consultancy’ team with other students to produce a group report. The project will utilise, extend and develop the fundamental knowledge and skills that you have gained throughout the previous semesters. The initial task is to analyse a current building and, based upon an assessment of the current climate and thermal comfort condition, you will propose a method to take the building towards net zero energy demand. You’ll need to research the relevant standards and apply manual calculations and computer simulation.
The second stage will build upon the initial analysis to develop a building services solution for the building. You’ll produce a professional report documenting a plan for HVAC design. With your team, you’ll investigate appropriate systems and provide reasoning behind the solution you have chosen. You’ll make applicable engineering calculations throughout the design process. We’ll support and encourage you to research the actual plant, consider the physical sizing and detail how this plant would be accommodated in the actual building. Controls will also be considered and the impact that these have upon energy demand. Your team will attend a weekly tutorial session to discuss your work with an individual member of staff where you will receive support, direction and knowledge for fulfilling a successful project.
The project is a year-long level three module. You will undertake detailed research on a chosen topic after discussion with a supervisor. Each project will involve collection of data by means such as experiment, questionnaire or observation, as well as the analysis and interpretation of the data in the context of previous work.
The aim of this module is to give you an understanding of the importance of traditional fossil fuels and biomass fuels to the current and future energy supplies, the environmental impacts of energy consumption, the benefits and types of combined heat and power, and waste treatment and disposal. You will have a two hour lecture per week.
Teaching methods
Assessment methods
On average, you will have around 20 contact hours a week in year one and two. Combined with coursework and self-study, you may spend over 40 hours a week on your studies.
Strong links with UK and international companies offer our graduates excellent prospects for employment, research training and professional recognition. This course involves the use of modern and environmentally friendly technologies to create comfortable and efficient indoor environments. Typically employed within Consulting Engineer practices, graduates in this field apply their skills to design occupant focused, energy efficient buildings incorporating renewable energy, sustainable design, ventilation, lighting, acoustics and electrical/control systems.
Our graduates work for a range of companies including global engineering and construction firms such as Arup and Laing O’Rourke to smaller national and regional consultancies such as Long & Partners.
Average starting salary and career progression
90.7% of undergraduates from the Department of Architecture and Built Environment secured graduate level employment or further study within 15 months of graduation. The average annual starting salary for these graduates was £24,061.
*HESA Graduate Outcomes (2017-2021 cohorts). The Graduate Outcomes % is calculated using The Guardian University Guide methodology. The average annual salary is based on graduates working full-time within the UK.
Studying for a degree at the University of Nottingham will provide you with the type of skills and experiences that will prove invaluable in any career, whichever direction you decide to take.
Throughout your time with us, our Careers and Employability Service can work with you to improve your employability skills even further; assisting with job or course applications, searching for appropriate work experience placements and hosting events to bring you closer to a wide range of prospective employers.
Have a look at our careers page for an overview of all the employability support and opportunities that we provide to current students.
The University of Nottingham is consistently named as one of the most targeted universities by Britain’s leading graduate employers (Ranked in the top ten in The Graduate Market in 2013-2023, High Fliers Research).
University Park Campus covers 300 acres, with green spaces, wildlife, period buildings and modern facilities. It is one of the UK's most beautiful and sustainable campuses, winning a national Green Flag award every year since 2003.
University Park Campus covers 300 acres, with green spaces, wildlife, period buildings and modern facilities. It is one of the UK's most beautiful and sustainable campuses, winning a national Green Flag award every year since 2003.
Faculty of Engineering
4 years full-time
Qualification
MEng Hons
Entry requirements
AAA
UCAS code
K230
Faculty of Engineering
5 years full-time
Qualification
MEng Hons
Entry requirements
AAA
UCAS code
K24A
If you’re looking for more information, please head to our help and support hub, where you can find frequently asked questions or details of how to make an enquiry.
If you’re looking for more information, please head to our help and support hub, where you can find frequently asked questions or details of how to make an enquiry.