화학공학소재연구정보센터
검색결과 : 82건
No. Article
1 Electrochemical reforming of methane using SrZr0.5Ce0.4Y0.1O3-delta proton-conductor cell combined with paper-structured catalyst
Maeda S, Shiratori Y, Kurashina D, Fujisaki T, Leonard K, Matsumoto H
International Journal of Hydrogen Energy, 45(7), 4026, 2020
2 Hydrogen production by ethanol steam reforming: A study of Co- and Ce-based catalysts over FeCrAlloy monoliths
Escalante Y, Galetti AE, Gomez MF, Furlong OJ, Nazzarro MS, Barroso MN, Abello MC
International Journal of Hydrogen Energy, 45(41), 20956, 2020
3 Paper-structured catalyst containing CeO2-Ni flowers for dry reforming of methane
Tu PH, Le DN, Dao TD, Tran QT, Doan TCD, Shiratori Y, Dang CM
International Journal of Hydrogen Energy, 45(36), 18363, 2020
4 A Comprehensive Review Covering Conventional and Structured Catalysis for Methanol to Propylene Conversion
Ali MA, Ahmed S, Al-Baghli N, Malaibari Z, Abutaleb A, Yousef A
Catalysis Letters, 149(12), 3395, 2019
5 3D-foam-structured nitrogen-doped graphene-Ni catalyst for highly efficient nitrobenzene reduction
Wang ZY, Pu Y, Wang D, Shi J, Wang JX, Chen JF
AIChE Journal, 64(4), 1330, 2018
6 Periodic open cellular structures (POCS) for intensification of multiphase reactors: Liquid holdup and two-phase pressure drop
Lammermann M, Horak G, Schwieger W, Freund H
Chemical Engineering and Processing, 126, 178, 2018
7 Intensifying heat transfer in Fischer-Tropsch tubular reactors through the adoption of conductive packed foams
Fratalocchi L, Giorgio C, Groppi VG, Lietti L, Tronconi E
Chemical Engineering Journal, 349, 829, 2018
8 A fundamental investigation of gas/solid mass transfer in open-cell foams using a combined experimental and CFD approach
Bracconi M, Ambrosetti M, Maestri M, Groppi G, Tronconi E
Chemical Engineering Journal, 352, 558, 2018
9 CFD modeling of the influence of carrier thermal conductivity for structured catalysts in the WGS reaction
Palma V, Pisano D, Martino M
Chemical Engineering Science, 178, 1, 2018
10 Development of a robust and efficient biogas processor for hydrogen production. Part 2: Experimental campaign
Camacho YSM, Bensaid S, Lorentzou S, Vlachos N, Pantoleontos G, Konstandopoulos A, Luneau M, Meunier FC, Guilhaume N, Schuurman Y, Werzner E, Herrmann A, Rau F, Krause H, Rezaei E, Ortona A, Gianella S, Khinslzy A, Antonini M, Marchisio L, Vilardo F, Trimis D, Fino D
International Journal of Hydrogen Energy, 43(1), 161, 2018