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研究领域

Professor Dianne Wiley is recognised as a world-leader in the development of membrane systems for wastewater treatment and other applications, and in the assessment of carbon capture and storage technologies. As Head of the School of Chemical and Biomolecular Engineering, her current role focuses on guiding the school's overall research program and helping to communicate its results to the research community, industry and the broader public. "My own research falls into two areas. The first is helping industry and governments to understand how we as a global community can make it possible for affordable, reliable carbon capture and storage technologies to take their proper place in mitigating the huge negative impacts of climate change. "The second is helping industry to understand at a fundamental level how to design and operate the next generation of membrane systems for different applications, including wastewater treatment, dairy processing and minerals recovery. "I got involved in both these areas because they were very new at the time, with the potential to have a major effect on the way we reduce environmental impacts globally. As it's turned out, the impact of the development of membranes for water and wastewater treatment has been enormous, and I believe the same will happen with carbon capture and storage. That's what excites me - watching the development of two whole new industries. "I joined the University of Sydney in 2016, because I want to be at a world-class University. I'm excited by the opportunity to engage with the school's researchers on the big issues facing the world today - energy, water, food, health and 'big data'. "My role here is to engage with them to envision their research directions, and then stay out of their way while they get on with the research. I then re-engage with them on a regular basis to help understand the results, drive the fundamental interpretation and development of new knowledge and theories, and communicate these to the research community, industry and the broader public."

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Liang, Y., Fimbres Weihs, G., Wiley, D. (2016). CFD modelling of electro-osmotic permeate flux enhancement in spacer-filled membrane channels. Journal of Membrane Science, 507, 107-118. [More Information] Liang, Y., Fimbres Weihs, G., Setiawan, R., Wiley, D. (2016). CFD modelling of unsteady electro-osmotic permeate flux enhancement in membrane systems. Chemical Engineering Science, 146, 189-198. [More Information] Wang, Z., Fimbres Weihs, G., Neal, P., Wiley, D. (2016). Effects of pipeline distance, injectivity and capacity on CO₂ pipeline and storage site selection. International Journal of Greenhouse Gas Control, 51, 95-105. [More Information] Ho, M., Wiley, D. (2016). Flexible strategies to facilitate carbon capture deployment at pulverised coal power plants. International Journal of Greenhouse Gas Control, 48 Pt 2, 290-299. [More Information] Scholes, C., Ho, M., Wiley, D. (2016). Membrane-Cryogenic Post-Combustion Carbon Capture of Flue Gases from NGCC. Technologies, 14(2), 1-14. [More Information] Ratnayake, P., Setiawan, R., Fimbres Weihs, G., Wiley, D. (2016). Spatio-temporal frequency response analysis of forced slip velocity effect on solute concentration oscillations in a reverse osmosis membrane channel. Computers and Chemical Engineering, 84, 151-161. [More Information] Khorshidi, Z., Florin, N., Ho, M., Wiley, D. (2016). Techno-economic evaluation of co-firing biomass gas with natural gas in existing NGCC plants with and without CO2 capture. International Journal of Greenhouse Gas Control, 49, 343-363. [More Information] Raksajati, A., Ho, M., Wiley, D. (2016). Understanding the Impact of Process Design on the Cost of CO2 Capture for Precipitating Solvent Absorption. Industrial and Engineering Chemistry Research, 55(7), 1980-1994. [More Information] Abanades, J., Arias, B., Lyngfelt, A., Mattisson, T., Wiley, D., Li, H., Ho, M., Mangano, E., Brandani, S. (2015). Emerging CO2 capture systems. International Journal of Greenhouse Gas Control, 40, 126-166. [More Information] Setiawan, R., Ratnayake, P., Bao, J., Fimbres Weihs, G., Wiley, D. (2015). Reduced-order model for the analysis of mass transfer enhancement in membrane channel using electro-osmosis. Chemical Engineering Science, 122, 86-96. [More Information] Khorshidi, Z., Ho, M., Wiley, D. (2015). Techno-economic evaluation of using biomass-fired auxiliary units for supplying energy requirements of CO2capture in coal-fired power plants. International Journal of Greenhouse Gas Control, 32, 24-36. [More Information] Liang, Y., Fimbres Weihs, G., Wiley, D. (2014). Approximation for modelling electro-osmotic mixing in the boundary layer of membrane systems. Journal of Membrane Science, 450, 18-27. [More Information] Fimbres Weihs, G., Wiley, D. (2014). CFD analysis of tracer response technique under cake-enhanced osmotic pressure. Journal of Membrane Science, 449, 38-49. [More Information] Liang, Y., Chapman, M., Fimbres Weihs, G., Wiley, D. (2014). CFD modelling of electro-osmotic permeate flux enhancement on the feed side of a membrane module. Journal of Membrane Science, 470, 378-388. [More Information] Pandit, J., Harkin, T., Anderson, C., Ho, M., Wiley, D., Hooper, B. (2014). CO2 emission reduction from natural gas power stations using a precipitating solvent absorption process. International Journal of Greenhouse Gas Control, 28, 234-247. [More Information] Wang, Z., Fimbres Weihs, G., Neal, P., Wiley, D. (2014). Effect of storage capacity on CO2 pipeline optimisation. Energy Procedia, 63, 2757-2763. [More Information] Khorshidi, Z., Ho, M., Wiley, D. (2014). Energy for CO2 capture: Use of an auxiliary biomass combined heat and power unit. Energy Procedia, 63, 6792-6799. [More Information] Anderson, C., Ho, M., Harkin, T., Wiley, D., Hooper, B. (2014). Large scale economics of a precipitating potassium carbonate CO2 capture process for black coal power generation. Greenhouse Gases: Science and Technology, 4(1), 8-19. [More Information] Scholes, C., Ho, M., Aguiar, A., Wiley, D., Stevens, G., Kentish, S. (2014). Membrane gas separation processes for CO2 capture from cement kiln flue gas. International Journal of Greenhouse Gas Control, 24, 78-86. [More Information] Wang, Z., Fimbres Weihs, G., Cardenas, G., Wiley, D. (2014). Optimal pipeline design for CCS projects with anticipated increasing CO2 flow rates. International Journal of Greenhouse Gas Control, 31, 165-174. [More Information]

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