U U U - Understanding Unregulated Energy (usage) in University Buildings
Lead Research Organisation:
University of Manchester
Department Name: Mechanical Aerospace and Civil Eng
Abstract
PEnergy consumption within buildings for purposes of heating, cooling and lighting is regulated in that constraints are put on these uses by the English Building Regulations. Taken together, these are referred to as regulated energy use.
There is however a significant amount of energy consumption that does not fall into this category. This is referred to as unregulated energy use, at can be a large part of the total energy consumption.
In comparison with regulated energy, very little is known about unregulated usage patterns and quantities.
The university sector has a great diversity of space usage which makes the understanding of unregulated energy usage particularly challenging
The objectives of this project are :
To develop a detailed understanding of unregulated energy usage in university buildings and room types, based upon extensive evaluation of data gathered in case study room types and buildings.
To clarify the key parameters that affect unregulated energy use such as room function/type, equipment types and density, occupation profiles and energy control techniques
To provide predictions of unregulated energy use in response to key parameters
The project outputs are of potential interest across the HE sector and will lead to improved energy efficiency and reduced carbon emissions
There is however a significant amount of energy consumption that does not fall into this category. This is referred to as unregulated energy use, at can be a large part of the total energy consumption.
In comparison with regulated energy, very little is known about unregulated usage patterns and quantities.
The university sector has a great diversity of space usage which makes the understanding of unregulated energy usage particularly challenging
The objectives of this project are :
To develop a detailed understanding of unregulated energy usage in university buildings and room types, based upon extensive evaluation of data gathered in case study room types and buildings.
To clarify the key parameters that affect unregulated energy use such as room function/type, equipment types and density, occupation profiles and energy control techniques
To provide predictions of unregulated energy use in response to key parameters
The project outputs are of potential interest across the HE sector and will lead to improved energy efficiency and reduced carbon emissions
People |
ORCID iD |
Rodger Edwards (Primary Supervisor) | |
Christina Birch (Student) |
Publications
Zeferina V
(2019)
Sensitivity analysis of peak and annual space cooling load at simplified office dynamic building model
in E3S Web of Conferences
Birch C
(2019)
Assessing unregulated electricity consumption in a case study university
in Building Services Engineering Research and Technology
Hoolohan C
(2021)
Responding to the climate emergency: how are UK universities establishing sustainable workplace routines for flying and food?
in Climate Policy
Description | The project analysed electrical consumption in different buildings across different universities, with particular focus placed on laboratory buildings. The main researcher collected half hourly electricity data from four universities, using either historical datasets or live energy management system software. In addition to combining this data with floorplan measurements, the main researcher also collected contextual information by corresponding with building managers. The main significant achievements, so far, for this research include: • The creation of some specific benchmarks for different types of rooms, e.g. biological labs, engineering labs, catering facilities etc. Compared to previous benchmarking schemes (e.g. the CIBSE Guide F benchmarks), university spaces are currently consuming massive amounts of electricity, particularly in laboratory spaces. The newer benchmarks also suggest that other spaces, such as lecture rooms and office buildings, are consuming more than the typical benchmarking range. • A breakdown of electrical consumption across different years in a variety of buildings. This allowed the researcher to understand how the spaces were being used, and presented findings which indicated that holiday-time (in relation to term-time) consumption was much higher than initially predicted. Consumption on Saturdays was also quite substantial, in comparison to consumption on Sundays. This suggested that predominantly universities are not switching-off laboratory equipment sufficiently, and that occupation / usage of these rooms is likely higher than predicted by the Universities Estates. In relation to the award objectives, the findings have helped to ensure that some of the key award objectives have been met. It has helped to populate the current literature, which is currently quite limited for both universities and the Higher Education Sector. It has also uncovered further understandings of usages of laboratory spaces across different universities, which all follow different patterns in consumption. For future research, the researcher has gathered a list of contextual questions that requires further correspondence with building managers and technical staff, for example - if on a certain day there is a massive spike in consumption in a specific lab, what could have caused this peak? |
Exploitation Route | The outcomes of this funding can be taken forward by University Estates, as a benchmarking guide of what electrical consumption can look like across different universities. The suggestions made to the key universities will be anonymised for wider usage, but will still outline any key findings which are generally useful to multiple universities. |
Sectors | Education Energy |
Description | As this research is focused on analysing electrical consumption within universities, part of the aim of the research is to provide Estates with suggestions on ways to reduce electrical consumption in specific buildings. This is from both a sustainability perspective and an economic perspective, as the reduction in electrical consumption will create some cost savings in the specific buildings analysed. The main focus for the research is based on laboratory spaces, which at present typically consume massive amounts of both electricity and gas. By providing the Estates with a list of suggested ways to reduce the electrical consumption, the amount of cost savings should rise significantly. As mentioned above, part of the justification for the research is to reduce consumption for sustainability reasons, which is highlighted as the main societal impact for this research. The four main universities studied all vary considerably, including the analysed building stock. All universities within the UK are aiming to reduce their CO2 emissions, and the researcher highlights that one method of doing this is to reduce consumption within buildings. This is linked in to the list of suggestions for the universities. For both the economic and societal impacts, these mainly have a public sector focus as this research is focused solely on university buildings. The potential challenges that require overcoming are to ensure the suggestions are completely fair and necessary - e.g. certain laboratory spaces may be running as efficiently as possible as equipment needs to be left on 24/7, yet may still consume massive amount of electricity across the year. |
First Year Of Impact | 2020 |
Sector | Education,Energy |
Impact Types | Societal Economic |
Description | Submission to BEIS Inquiry on Energy Efficiency in Buildings |
Geographic Reach | National |
Policy Influence Type | Contribution to a national consultation/review |
URL | https://publications.parliament.uk/pa/cm201719/cmselect/cmbeis/1730/173002.htm |
Description | Data collection - The University of Sheffield |
Organisation | University of Sheffield |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | The main researcher has been in frequent correspondence with this particular university, in order to gather specific room-level data for one of the University's buildings. Data provided by tis organisation is currently being assessed by the main researcher. |
Collaborator Contribution | The partner have provided some room-level data from one specific building, have invited the research team multiple times to inspect the building and have promised future data streams (e.g. occupancy data, floorplan data). There have also been talks about constructing a future PDRA position for the main researcher (on completion of the PhD), in collaboration with this partner. |
Impact | At present and with the data available, the main researcher has assessed half-hourly electrical consumption patterns within two specific rooms. Future outcomes from the research will include specific readings from laboratory equipment, analysis of half-hourly data and suggestions on how UoS may reduce the consumption within these specific rooms. |
Start Year | 2019 |
Description | Annual research group discussions |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Schools |
Results and Impact | The main researcher is based within the Tyndall Centre for Climate Change reserach - Manchester branch. Every year, the group meets with the other Tyndall centres branches, as a way to disseminate information, and each year a public engagement event is held (related to the topic of climate change). The main researcher has presented their work during the last two events; during the last event, a representative from the University of East Anglia showed interest in the researcher's work, so a collaboration has been set-up between UEA and the researcher. |
Year(s) Of Engagement Activity | 2018,2019 |
Description | Cardiff cluster visit |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Schools |
Results and Impact | The researcher attended a Cardiff cluster visit for two days - this event allowed the researcher to promote their work to their wider research group, and during this event the main researcher also did a presentation to disseminate information. |
Year(s) Of Engagement Activity | 2019 |
Description | Coventry workshop |
Form Of Engagement Activity | Participation in an activity, workshop or similar |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Schools |
Results and Impact | Name of the workshop - Investigation of the Impact of Occupant Behavior Different researchers from the UK and China met to discuss different reserach questions related to occpant behaviours in buildings. The main reseracher presented during this workshop and networked with indiviuals from both the UK and China. |
Year(s) Of Engagement Activity | 2019 |