화학공학소재연구정보센터(CHERIC) | 연구정보 | 문헌DB

검색결과 : 51건

No.	Article
1	Sorption enhanced steam methane reforming byNi/CaO/mayenite combined systems: Overview of experimental results fromEuropean research projectASCENT Di Giuliano A, Gallucci K, Di Carlo A, Stendardo S, Courson C, Foscolo PU Canadian Journal of Chemical Engineering, 98(9), 1907, 2020
2	Optimization of CCUS supply chains in the UK: A strategic role for emissions reduction Leonzio G, Bogle D, Foscolo PU, Zondervan E Chemical Engineering Research & Design, 155, 211, 2020
3	Determination of Kinetic and Diffusion Parameters Needed to Predict the Behavior of CaO-Based CO2 Sorbent and Sorbent-Catalyst Materials Di Giuliano A, Gallucci K, Foscolo PU Industrial & Engineering Chemistry Research, 59(15), 6840, 2020
4	Scenario Analysis of Carbon Capture, Utilization (Particularly Producing Methane and Methanol), and Storage (CCUS) Systems Leonzio G, Foscolo PU, Zondervan E, Bogle IDL Industrial & Engineering Chemistry Research, 59(15), 6961, 2020
5	Analysis of a 2-D model of a packed bed reactor for methanol production by means of CO2 hydrogenation Leonzio G, Foscolo PU International Journal of Hydrogen Energy, 45(18), 10648, 2020
6	An outlook towards 2030: Optimization and design of a CCUS supply chain in Germany Leonzio G, Foscolo PU, Zondervan E Computers & Chemical Engineering, 125, 499, 2019
7	Methanol production by CO2 hydrogenation: Analysis and simulation of reactor performance Leonzio G, Zondervan E, Foscolo PU International Journal of Hydrogen Energy, 44(16), 7915, 2019
8	Effect of Ni precursor salts on Ni-mayenite catalysts for steam methane reforming and on Ni-CaO-mayenite materials for sorption enhanced steam methane reforming Di Giuliano A, Gallucci K, Foscolo PU, Courson C International Journal of Hydrogen Energy, 44(13), 6461, 2019
9	Development of a Ni-CaO-mayenite combined sorbent-catalyst material for multicycle sorption enhanced steam methane reforming Di Giuliano A, Giancaterino F, Courson C, Foscolo PU, Gallucci K Fuel, 234, 687, 2018
10	Catalytic and sorbent materials based on mayenite for sorption enhanced steam methane reforming with different packed-bed configurations Di Giuliano A, Giancaterino F, Gallucci K, Foscolo PU, Courson C International Journal of Hydrogen Energy, 43(46), 21279, 2018