FURTHER INFORMATION

This is a full time, fixed term post for 11 months.
For informal enquiries and information about the post please contact Dr Ioannis Karmpadakis on i.karmpadakis@imperial.ac.uk or Dr Costanza Rodda on c.rodda@imperial.ac.uk.
Any queries regarding the application process should be directed to Briony Webb (b.webb@imperial.ac.uk).
Full information about the post is available in the job description.
We are an equal opportunity employer and welcome applications from all backgrounds and disabilities. We will ensure that individuals with disabilities are provided reasonable adjustments to participate in the interview process and to perform crucial job functions, as well as other support including staff networks. Please contact us to request accommodation.

AVAILABLE DOCUMENTS

Attached documents are available under links. Clicking a document link will initialize its download.
Please note that job descriptions are not exhaustive, and you may be asked to take on additional duties that align with the key responsibilities mentioned above.
We reserve the right to close the advert prior to the closing date stated should we receive a high volume of applications. It is therefore advisable that you submit your application as early as possible to avoid disappointment.
If you encounter any technical issues while applying online, please don’t hesitate to email us at support.jobs@imperial.ac.uk. We’re here to help.

ABOUT THE ROLE

Applications are encouraged for a Research Associate position to work on the project: Closing the gap in Upper Ocean mixing using surface waves. The research conducted within this project will provide new physical insights in turbulent mixing in the thermocline induced by surface waves using laboratory experiments.
This project strives to investigate: (a) the wind-wave interactions and capture their influence on thermocline mixing and (b) the coupling of physical mixing processes with environmental variables, improving understanding of upper ocean dynamics. By determining how energy from wind-induced currents and wave-induced motions contributes to turbulent kinetic energy and mixing at the thermocline, this research seeks to improve predictive models for ocean mixing, with implications for climate studies and environmental engineering applications.

WHAT YOU WOULD BE DOING

You will design and carry out experimental investigations in the Hydrodynamics Laboratory at the Dept. of Civil and Environmental Engineering.
You will work under the direction of Dr Ioannis Karmpadakis and Dr Costanza Rodda to carry out data analysis and design and implement physical model testing. You will also be required to write reports for submission to research sponsors, and to present findings to colleagues and at conferences. You will also work to submit publications to refereed journals and to attract external research funding.