참고문헌
- F. Rezaei and P. Webley, Optimum structured adsorbents in gas separation processes, Chem. Eng. Sci., 64, 5182-5191 (2009).
- F. Rezaei and P. Webley, Optimal design of engineered gas adsorbents: pore-scale level, Chem. Eng. Sci., 69, 270-278 (2012).
- F. Akhtara, L. Andersson, S. Ogunwumi, N. Hedin, and L. Bergstroma, Structuring adsorbents and catalysts by processing of porous powders, J. Eur. Ceram. Soc., 34, 1643-1666 (2014).
- S. Mitchell, N.-L. Michels, and J. Perez-Ramirez, From powder to technical body: the undervalued science of catalyst scale up, Chem. Soc. Rev., 42, 6094-6112 (2013).
-
M. Adamowska and P. D. Costa, Structured Pd/
${\gamma}$ -$Al_2O_3$ prepared by washcoated deposition on a ceramic honeycomb for compressed natural gas applications, J. Nanopart., 2015, 601941 (2015). - J. K. Hochmuth, K. Wassermann, and R. J. Farrauto, Car exhaust cleaning, Reference Module in Chemistry, Molecular Sciences and Chemical Engineering, Comprehensive Inorganic Chemistry II, 7, 505-523 (2013).
- S. W. Han, I. H. Kim, D. H. Kim, K. J. Park, E. J. Park, M. Jeoung, and Y. D. Kim, Temperature regulated-chemical vapor deposition for incorporating NiO nanoparticles into mesoporous media, Appl. Surf. Sci., 385, 597-604 (2016).
- I. H. Kim, H. O. Seo, E. J. Park, S. W. Han, and Y. D. Kim, Low temperature CO oxidation over iron oxide nanoparticles decorating internal structures of a mesoporous alumina, Sci. Rep., 7, 1-11 (2017).
- J. W. Han, J. S. Park, M. S. Choi, and H. Lee, Uncoupling the size and support effects of Ni catalysts for dry reforming of methane, Appl. Catal. B, 203, 625-632 (2017).
-
F. R. Shamskar, M. Rezaei, and F. Meshkani, The influence of Ni loading on the activity and coke formation of ultrasound-assisted co-precipitated Ni-
$Al_2O_3$ nanocatalyst in dry reforming of methane, Int. J. Hydrogen Energy, 42, 4155-4164 (2017). - H. S. Bengaard, J. K. Norskov, J. Sehested, B. S. Clausen, L. P. Nielsen, A. M. Molenbroek, and J. R. R-Nielsen, Steam reforming and graphite formation on Ni catalysts, J. Catal., 209, 365-384 (2002).
-
C. Liu, J. Ye, J. Jiang, and Y. Par, Progresses in the preparation of coke resistant Ni-based catalyst for steam and
$CO_2$ reforming of methane, ChemCatChem, 3, 529-541 (2011). -
B. Caprariis, P. Filippis, V. Palma, A. Petrullo, A. Ricca, C. Ruocco, and M. Scarsella, Rh, Ru and Pt ternary perovskites type oxides
$BaZr_{(1-x)}Me_xO_3$ for methane dry reforming, Appl. Catal. A, 517, 47-55 (2016). -
M. Jeong, S. Y. Kim, D. H. Kim, S. W. Han, I. H. Kim, M. Lee, Y. K. Hwang, and Y. D. Kim, High-performing and durable MgO/Ni catalysts via atomic layer deposition for
$CO_2$ reforming of methane (CRM), Appl. Catal. A, 515, 45-50 (2016). - H. Jeong, Dry reforming of methane over promoters added Ni/HY catalysts, Clean Technol., 23, 213-220 (2017).