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.
The aim of this study is to investigate the various factors affecting membrane fouling and its reversibility in forward osmosis. Understanding these could advance the optimisation of forward osmosis, which will encourage the implementation of this process prior to reverse osmosis desalination.
This project aims at identifying the mechanisms involved during the removal of different types of chlorophenols using several biochars during water treatment. Chlorophenols and biochars with different physico-chemical properties will be tested as well as different environmental characteristics.
This Ph.D. aims to investigate the potential of filamentous green macroalgae (Chlorophyta) to bioremediate wastewaters. This will examine the ability of the macroalgae to sequester excess nutrients in effluent streams, as well as its biosorption and bioaccumulation capacity for heavy metals; with an end goal of using the biomass as a feedstock for bioenergy or for metal reclamation.