Atomic scale information for the design of nanomaterials. This project aims to develop a new tool to measure the 3-D distribution of atoms within nanoparticles. For the rational design of nanoparticles, it is necessary to compare the atomic scale structure to the resulting performance. But this information is hard to access. This projects aims to develop new methods so that atom probe microscopy can be applied to experimentally measure the precise 3-D location and identity of the individual atom ....Atomic scale information for the design of nanomaterials. This project aims to develop a new tool to measure the 3-D distribution of atoms within nanoparticles. For the rational design of nanoparticles, it is necessary to compare the atomic scale structure to the resulting performance. But this information is hard to access. This projects aims to develop new methods so that atom probe microscopy can be applied to experimentally measure the precise 3-D location and identity of the individual atoms within nanoparticles, and apply them in the development of alloy catalyst nanoparticles that could make the sustainable production of liquid fuels from biomass commercially viable. These new tools would be useful across the wide range of engineering applications for which nanomaterials are currently being developed.Read moreRead less
One-dimensional nanostructured catalysts for heterogeneous catalytic conversion of biomass to furan derivatives. A sustainable future depends on the partial replacement of petrochemicals, and the use of bioresources synthesise fine chemicals and fuels. This project will develop new-generation novel catalysts to make this possible by syntheisising essential starting compounds from biomass using a green chemical process.
Reducing gas and ash corrosion in advanced power generation. Advanced power generation using new coal combustion technologies increases energy efficiency and makes carbon dioxide capture possible, but increases the corrosion problems. This project aims to determine the corrosion behaviour of chromia-scale forming iron- and nickel-base alloys in the presence of deposits (coal ashes and salts) under carbon dioxide rich gas atmospheres. The increased understanding of alloy behaviour in hot corrosiv ....Reducing gas and ash corrosion in advanced power generation. Advanced power generation using new coal combustion technologies increases energy efficiency and makes carbon dioxide capture possible, but increases the corrosion problems. This project aims to determine the corrosion behaviour of chromia-scale forming iron- and nickel-base alloys in the presence of deposits (coal ashes and salts) under carbon dioxide rich gas atmospheres. The increased understanding of alloy behaviour in hot corrosive ashes and gases, will permit more effective materials design and selection leading to more efficient and economic technologies for reliable and low cost carbon capture in energy production, waste-energy conversion and related industries.Read moreRead less
High temperature corrosion induced by multiple secondary oxidants . Heat resisting chromia-forming alloys passivate successfully in clean, dry air at temperatures up to about 950°C. However, this performance is degraded by secondary oxidants (carbon, sulphur, chlorine, water vapour), leading to corrosion failure in important industries. The project aims to investigate the effect of these secondary oxidants on corrosion behaviour of chromia-forming alloys, to identify interactions between multipl ....High temperature corrosion induced by multiple secondary oxidants . Heat resisting chromia-forming alloys passivate successfully in clean, dry air at temperatures up to about 950°C. However, this performance is degraded by secondary oxidants (carbon, sulphur, chlorine, water vapour), leading to corrosion failure in important industries. The project aims to investigate the effect of these secondary oxidants on corrosion behaviour of chromia-forming alloys, to identify interactions between multiple oxidants within the scale, to establish the mechanisms of oxide scale penetration by foreign species, and to evaluate scales on different alloy types. The results will provide a basis for improved design/selection of heat resisting chromia-forming alloys, key to power generation industries.Read moreRead less