As part of a DETR funded PiT (Partners in Technology) project the BRE Centre for Fire Safety Engineering (previously the Structures in Fire Group) conducted extensive computational and analytical studies of the behaviour of steel-framed composite structures in fire conditions. This work was undertaken in collaboration with Corus PLC and Imperial College London. The results were presented in the form of a main report, which identified the main findings, together with numerous supplementary reports which explored various phenomena in detail. The reports produced at Edinburgh are available for download as indicated below.
This research project is investigating ways to increase the bio methane potential of food waste through a combination of laboratory and desk based studies. The aim being to increase sustainable heat, power and biofertiliser production through anaerobic digestion.
My research focuses on the removal of selected micro contaminants and potential Endocrine Disrupting Compounds (EDCs) from water and wastewater by means of the photocatalytic process as well as on the investigation of method’s sustainability.
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.
This project will use novel catalytic nanoparticles for water treatment with emphasis given on the removal of emerging micro-pollutants, such as Bisphenol A (BPA).