Academics at the University of Edinburgh are joining forces with research scientists from biopharmaceutical company Celgene to develop a new technology that could help to improve cancer treatment.
Dr Simone Dimartino’s research group have won first prize for their science communication video at an international conference in Milan. The video, which was filmed in the style of a 'silent film' from the early 20th century, takes inspiration from Milan Cathedral to illustrate a novel way to separate liquid using 3D printing.
The School of Engineering is part of a network of leading UK universities and international industry bodies aiming to accelerate the switch to green energy and propulsion across road, rail, sea and air freight modes. Three academics from our School are representing the University of Edinburgh in the network: Dr Ignazio Maria Viola who is Co-Investigator on the project, alongside Professor Steve Finney and Professor Markus Müller – all from the School’s Institute for Energy Systems (IES).
Dr Rory Hadden has been working with engineers from the National Institute of Standards and Technology (NIST) in Maryland, USA, the US Forest Service, and New Jersey Forest Fire Service to observe the behaviour of forest fires from within using a 360-degree water-cooled camera. The cutting-edge equipment provides scientists and engineers with the ability to see inside prescribed fires and potentially wildfires using virtual reality technologies together with footage captured using the 360-degree camera.
Our HYPED team recently travelled to Los Angeles, California to compete in the international SpaceX Hyperloop Pod Competition 2019 on Sunday 21 June 2019. Following months of preparation, the team and their hyperloop pod protoype ‘The Flying Podsman’ journeyed over 5,000 miles to SpaceX’s headquarters in Hawthorne to compete alongside 20 of the best hyperloop teams in the world.
Researchers from the School's Institute for Multiscale Thermofluids (IMP) have revealed insights into how minute, yet powerful, bubbles form and collapse on underwater surfaces. The findings could lend valuable insight into damage caused on industrial structures, such as pump components, when these bubbles burst to release tiny but powerful jets of liquid.