果冻影院

Context and Project description:

Energy systems and the climate are changing rapidly in the UK, requiring dense urban environments to evolve quickly over the coming decades. Resilience is the ability to respond to, cope with, and recover quickly from system change or shocks 鈥� whilst adaptability relates to the capability to change in response to new factors. Increased resilience and adaptability are both urgently needed in our built environment from an energy and climate perspective.

Adaptability and resilience can be embedded in our cities through interventions such as better building design, integration of nature-based solutions, promoting behavioural change, smart metering and control, holistic systems-thinking, and utilisation of new energy generation and storage technologies. Buildings have a key role to play in the wider energy system as an essential component in our national decarbonisation strategy towards net zero, and in contributing to the resilience of local, regional, and national energy system.

This project will explore the interactions and integration of these interventions in real-world building and urban design applications, focusing on early-design stages.

Studentship aims:

The project aims to explore the interactions between energy and climate at the urban scale, resulting in design and engineering solutions which can increase resilience and adaptability.

We foresee that this would involve a review of the energy generation, storage, supply-demand, metering and control landscape, nature-based solutions, climate forecasts and other potential design or social interventions. A modelling approach will be employed, combining environmental micro-climate, building level and local energy system simulation to assess different resilience and adaptability scenarios. The co-benefits will be quantified, such as the effect of green infrastructure on building heating/cooling demand, or the effect of a shift to electric vehicles and active mobility on urban heat island.

The successful candidate will work with internationally respected researchers, supported by their supervisors and by the vibrant and skilled research teams undertaking cutting-edge research in this area. They will also join the wider ERBE cohort (Energy Resilience and the Built Environment Centre) to benefit from high-quality training and support throughout their PhD study.

Person specification:

The applicant should have an interest in climate adaptation and nature-based solutions, environmental simulation, energy markets and technologies, building engineering and urban design, and systems modelling. Strong quantitative skills are necessary and graphic, verbal and written communication skills are desirable.

A minimum of an upper second-class UK Bachelor鈥檚 degree and a Master鈥檚 degree, or an overseas qualification of an equivalent standard, in a relevant subject, is essential. Exceptionally: where applicants have other suitable research or professional experience, they may be admitted without a Master鈥檚 degree; or where applicants have a lower second-class UK Honours Bachelor鈥檚 degree (2:2) (or equivalent) they must possess a relevant Master鈥檚 degree to be admitted.

Applicants must also meet the听minimum language requirements of 果冻影院

Applicants should be familiar with the changes to听.

How to apply

Please submit a pre-application by email to the 果冻影院 ERBE Centre Manager (bseer.erbecdt@ucl.ac.uk) with Subject Reference:听4-year PhD studentship in Urban Climate and Energy System Resilience and Adaptability

The application should include each of the following:
1) A covering letter clearly stating why you are applying and how your interests and experience relate to this project, and your understanding of eligibility according to these guidelines:听
2) CV
3) Complete the听听and听听via the linked Microsoft Forms.

Only shortlisted applicants will be invited for an interview.

• For the interview shortlisted candidates will be asked to show proof of their degree certificate(s) and transcript(s) of degree(s), and proof of their fees eligibility.
• The interview panel will consist of the project鈥檚 academic supervisors at 果冻影院, industry supervisors at Hoare Lea and a representative of the ERBE CDT Academic management. The interview will include a short presentation from the candidate on their ideas of how to approach this PhD project.
• Following the interview, the successful candidate will be invited to make a formal application to the 果冻影院 Research Degree programme for ERBE CDT.

Deadline for applications: Sunday, 12th June 2022 @ 23:59 (UK time)
Interviews week commencing: TBC

For further details about the admission process, please contact:听bseer.erbecdt@ucl.ac.uk

For any further details regarding the project, contact听Dr Esfand Burman,听esfand.burman@ucl.ac.uk

You will be undertaking this project:

• In 果冻影院 at the main (Bloomsbury) campus as part of the new EPSRC-SFI Centre for Doctoral Training in Energy Resilience and the Built Environment (ERBE CDT). This is a collaboration between 果冻影院, Loughborough University and Marine and Renewable Energy Ireland (MaREI). For more information please see听
• Hoare Lea鈥檚 London office is based by Kings Cross, a short walk from 果冻影院鈥檚 Bloomsbury campus. The candidate will be primarily collaborating with our Sustainability and Applied Research & Innovation (ARI) teams

Image credit:听Photo by听听on听