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研究领域

Carbon Capture Technology Nanomaterials for Adsorption and Catalysis Physical Chemistry of Materials Separation Science and Technology

Current Research Activities Paul Webley’s research area falls into two main areas: adsorption engineering and clean energy technologies. He has established the Adsorption Engineering Laboratory to investigate the applications of adsorbents to separations of gas and liquid mixtures of significance in the environmental and energy areas. His adsorption interests are in producing novel nano-adsorbents and adsorption processes for gas separations in the following industries: CO 2 capture from flue gas and process streams Natural gas and coal seam gas purification and CO 2, N 2 removal O 2/N 2/Ar separation Synthesis gas separation and hydrogen purification Biogas purification Hydrogen and methane storage In the energy area, his interests include: Applications of exergy analysis to improve energy generation and process industries including CO 2 capture technologies Use of irreversible thermodynamics to understand non-linear transport phenomena in energy production Development of novel catalysts for CO 2 utilization technologies including DME synthesis Solar thermal energy conversion and thermal energy storage materials

近期论文

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He Y, Shang J, Zhao Q, Gu Q, Xie K, Li G, Singh R, Xiao P, Xiao Y, Webley P, Webley PA. A comparative study on conversion of porous and non-porous metal-organic frameworks (MOFs) into carbon-based composites for carbon dioxide capture. Polyhedron. Pergamon-Elsevier Science. 2016. Shang J, Li G, Webley P, Liu JZ. A density functional theory study for the adsorption of various gases on a caesium-exchanged trapdoor chabazite. COMPUTATIONAL MATERIALS SCIENCE. Elsevier. 2016, Vol. 122. Ntiamoah A, Ling J, Xiao Y, Webley P, Zhai Y. CO2 Capture by Temperature Swing Adsorption: Use of Hot CO2-Rich Gas for Regeneration. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. American Chemical Society. 2016, Vol. 55, Issue 3. He Y, Shang J, Gu Q, Zhao Q, Xie K, Li G, Singh R, Xiao P, Webley P. Exchange Method Using Acid-Solvent Synergy for Metal-Organic Framework Synthesis (EASY-MOFs) Based on a Typical Pillar-Layered Parent Structure. EUROPEAN JOURNAL OF INORGANIC CHEMISTRY. Wiley-VCH. 2016, Issue 10. Rada ZH, Abid HR, Shang J, Sun H, He Y, Webley P, Liu S, Wang S. Functionalized UiO-66 by Single and Binary (OH)2 and NO2 Groups for Uptake of CO2 and CH4. Industrial and Engineering Chemistry Research. American Chemical Society. 2016, Vol. 55, Issue 29. Fong JCLY, Anderson CJ, Xiao G, Webley P, Hoadley AFA. Multi-objective optimisation of a hybrid vacuum swing adsorption and low-temperature post-combustion CO2 capture. JOURNAL OF CLEANER PRODUCTION. Elsevier. 2016, Vol. 111. Physick AJW, Wales DJ, Owens SHR, Shang J, Webley P, Mays TJ, Ting VP. Novel low energy hydrogen-deuterium isotope breakthrough separation using a trapdoor zeolite. CHEMICAL ENGINEERING JOURNAL. Elsevier Science. 2016, Vol. 288. Tang W, Tang WNH, Danaci D, Singh R, Bhargava SK, Webley P. Oxygen selective iron and cobalt-metalloporphyrin polymers - Extraordinary selectivity at low temperature. MICROPOROUS AND MESOPOROUS MATERIALS. Elsevier Science. 2016, Vol. 222. Ling J, Xiao P, Ntiamoah A, Xu D, Webley P, Zhai Y. Strategies for CO2 capture from different CO2 emission sources by vacuum swing adsorption technology. CHINESE JOURNAL OF CHEMICAL ENGINEERING. Chemical Industry Press. 2016, Vol. 24, Issue 4. Danaci D, Singh R, Xiao Y, Webley P. Assessment of ZIF materials for CO2 capture from high pressure natural gas streams. CHEMICAL ENGINEERING JOURNAL. Elsevier Science. 2015, Vol. 280.

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