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个人简介
My research activity spans the principles of adsorption and adsorption processes. The past 20 years have seen a rapid growth in the development of novel nanoporous materials for gas separations and gas storage. The Carbon Capture Research group collaborates with several national and international centres that provide a wide range of materials for testing and evaluation. Combining experiment and process modelling, materials and processes can be optimised to achieve improved performance and carbon capture applications provide the ideal example to demonstrate this approach given the scale of the challenge and the need to reduce costs.
The key challenge is to determine the fundamental properties of novel nanoporous materials that allow the prediction of the performance of adsorption and membrane separation processes. To achieve this, a suite of experimental techniques are available in the carbon capture laboratory that allow the determination of all the physical parameters in adsorption and membrane units. For novel materials, equilibrium and kinetic properties can be determined using only a few mg of sample using the zero length column apparatuses. These measurements allow the selection of the most promising materials for further scale-up and testing in systems which include the dual piston pressure swing adsorption unit (fast cycles up to one second), a rotary wheel adsorption unit (rapid thermal swing system), and a six-column single or dual stage pressure swing adsorption unit. The larger systems can test both beads/pellets and structured adsorbents that are needed for high throughput processes such as carbon capture applications.
The key challenge is to determine the fundamental properties of novel nanoporous materials that allow the prediction of the performance of adsorption and membrane separation processes. To achieve this, a suite of experimental techniques are available in the carbon capture laboratory that allow the determination of all the physical parameters in adsorption and membrane units. For novel materials, equilibrium and kinetic properties can be determined using only a few mg of sample using the zero length column apparatuses. These measurements allow the selection of the most promising materials for further scale-up and testing in systems which include the dual piston pressure swing adsorption unit (fast cycles up to one second), a rotary wheel adsorption unit (rapid thermal swing system), and a six-column single or dual stage pressure swing adsorption unit. The larger systems can test both beads/pellets and structured adsorbents that are needed for high throughput processes such as carbon capture applications.
研究兴趣
论文共 288 篇作者统计合作学者相似作者
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Riccardo Rea, Anton Tavitian,Darren P. Broom, Matthew D. Gee,Michael J. Benham,Stefano Brandani,Enzo Mangano
Adsorptionpp.1-10, (2024)
Chemie-Ingenieur-Technik/Chemieingenieurtechnikno. 11 (2023): 1800-1810
Franziska Bossl,Stefano Brandani,Valentin C. Menzel, Matilda Rhodes, Mayra S. Tovar-Oliva,Caroline Kirk,Ignacio Tudela
Ultrasonics sonochemistry (2023): 106602-106602
Adsorption (2023)
Huong Giang T. Nguyen,Blaza Toman,Roger D. van Zee,Carsten Prinz,Matthias Thommes,Riaz Ahmad, David Kiska, Jamie Salinger,Ian M. Walton,Krista S. Walton,Darren P. Broom,Michael J. Benham,Humera Ansari,Ronny Pini,Camille Petit,Jürgen Adolphs, Andreas Schreiber, Toshihiro Shigeoka, Yuko Konishi,Kazuyuki Nakai,Matthias Henninger,Thomas Petrzik, Can Kececi,Vladimir Martis, Thomas Paschke,Enzo Mangano,Stefano Brandani
Adsorptionno. 3-4 (2023): 113-124
Journal of chemical and engineering data/Journal of chemical & engineering datano. 7 (2022): 1723-1731
Separation and purification technology (2022): 120210-120210
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作者统计
#Papers: 285
#Citation: 8835
H-Index: 43
G-Index: 82
Sociability: 6
Diversity: 0
Activity: 2
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