- Module code
- Taught during
- Session Two
- Module leader
- Thomas Heenan, Thomas Budd
- None. Standard UCL Summer entry criteria apply.
- Assessment method
- In-class test (30%), Group presentation (70%)
Depletion of traditional fuel stores has been accompanied by increasing pollution levels. Consequently, motivations to lower carbon-emissions have elevated and to ensure this change is achieved on a global scale a multinational agreement was achieved in 2015 at the Paris climate conference whereby 195 countries agreed a legally binding global climate deal. Much of our built environment is dependent on the energy systems that power it. To pave the way for the adoption of novel and advance energy systems, the infrastructure that underpins our cities will need to be reimagined, a fact that can already be seen in the influx of electric car charging points. This module with act both as an extension to ‘Energy and future cities, advanced energy systems’ course, as well as being as a standalone design based module, exploring the potential of our future cities. The symbiotic relationship between cities and the energy systems that drive them will be the key in unlocking the future of our built environment.
Upon successful completion of this module, students will:
- Understand the applications of low-carbon technologies in automotive vehicles and buildings
- Have explored the current and future infrastructure requirements to facilitate decarbonisation
- Understand the implications these technologies could have on the shaping of our future cities
- Explore how multidisciplinary approaches via a combination of both a scientific and design-based techniques for problem solving can lead to novel solutions outside of the spheres of individual topics
This is a level one module (equivalent to first year undergraduate). No prior subject knowledge is required to study this module but students are expected to have a keen interest in the subject area.
Classes (usually three or four hours per day) take place on the Bloomsbury campus from Monday to Friday any time between 9am and 6pm.
- In-class test (40%)
- Group presentation (60%)
Tom Heenan moved from Swansea in 2011 to complete a BEng degree in the Chemical Engineering department at UCL. In 2014 he progressed to a PhD in the electrochemical Innovation Lab and is now a researcher for the Faraday Institute. During this time he has embarked on international collaborations with the likes of NASA (USA), synchrotron particle accelerator facilities (SLS, ESRF, and Diamond) and national labs (ANL, NREL, LBL, NPL). Dissemination of his work has come in the form of international talks and many publications in high-impact journals, for which his work has received numerous awards. Tom has also taught on several undergraduate programs, summer schools and led a non-profit public engagement group (UCell) for many years. Internally within UCL, Tom has been involved in several of the Grand Challenge proposals including two cross-disciplinary projects between the Slade School of Art and UCL Physics.
Tom Budd has been studying and practicing architecture in London over the last 7 years. During this time he has worked within multiple architectural practices, and had the opportunity to take part in projects ranging from a new pedestrian Bridge in Kings Cross to larger scale conceptual studies for future transport systems in London. Most recently, whilst working for Foster and Partner’s, Tom worked with the Norman Foster Foundation on the foundation’s Droneport project, a concept for using drones as a fast paced medical delivery network in remote regions of Africa. Tom is currently coming to the conclusion of his March Part 2 Architecture Degree at the Bartlett School of Architecture, UCL. His final thesis looked into the redesigning of the traditional English village for the future of Britain’s rural Landscape. Tom has taught computing lessons and run workshops on concept visualisation with undergraduate students at the Bartlett School of Architecture, and also worked on the Bartlett summer school programme.