Miss Underwood's doctoral research seeks to develop and test new nano-composite materials for the use in water treatment. She wishes to improve upon the existing nano zero-valent iron technologies as well as to explore how specific nanotechnologies can be applied in an economic and incentivized fashion for successful technological adoption.
The project's key objectives are to develop accurate 3D models of complex near surface soil formations and antenna design variants and so produce complete soil/system GPR models that can be used to assess and predict the performance of a GPR system.
This project aims to create a generally applicable framework for transferring academic innovations in the modelling of particulate materials into industrial practice in the UK. The process of twin-screw granulation has been selected as an exemplar industrial process which is simulated across multiple scales using the coupled methods of population balance modelling and the discrete element method.
The aim of this project is to develop manufacturing upcycling technologies to re-use prepreg scrap and determine the resultant mechanical properties. This project mitigates the environmental impact of conventional composite manufacturing processes reducing air emissions and energy consumption. It also contributes towards a sustainable economy reducing the waste disposal fees paid by commercial companies and recovering commercial value from the composite scrap.