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References 43 [26] S. Cavenati, C. Grande, and A. Rodrigues, “Removal of carbon dioxide from natural gas by vacuum pressure swing adsorption,” Energy and Fuels, vol. 20, pp. 2648 – 2659, 2006. [27] C.-H. Lee, J. Yang, and H. Ahn, “Effects of carbon-to-zeolite ratio on layered bed h2 PSA for coke oven gas,” AIChE J., vol. 45, pp. 535 – 545, 1999. [28] J. Yeh and H. Pennline, “Study of CO2 absorption and desorption in a packed column,” En. Fuels. [29] S. Matsumoto, “Recent advances in automobile exhaust catalysts,” Catal. Today, vol. 90, pp. 183 – 190, 2004. [30] R. Burch, J. Breen, and F. Meunier, “A review of the selective reduction of nox with hydrocarbons under lean-burn conditions with non-zeolitic oxide and platinum group metal catalysts,” Appl. Catal. B: Env., vol. 32, pp. 283 – 303, 2002. [31] R. Heck, “Catalytic abatement of nitrogen oxides stationary applications,” Catal. Today, vol. 53, pp. 519 – 523, 1999. [32] F. Tielens, J. Denayer, I. Daems, G. Baron, W. Mortier, and P. Geerlings, “NOx selective catalytic reduction over supported metallic catalysts,” Catal. To- day, vol. 147S, pp. S279 – S284, 2009. [33] S. Ergun, “Fluid flow through packed columns,” Chem. Eng. Prog., vol. 48, pp. 89 – 94, 1952. [34] A. Cybulski and J. A. Moulijn, Structured catalysts and reactors. New York: Marcel Dekker Inc., 1998. [35] D. Ruthven, “Past progress and future challenges in adsorption research,” Ind. Chem. Eng. Res., vol. 39, pp. 2127 – 2131, 2000. [36] Y. Li, S. Perera, and B. Crittenden, “Zeolite monoliths for air separation. Part 1: Manufacture and characterization,” Chem. Eng. Res. and Des., Transactions of the Institute of Chemical Engineers, Part A, vol. 76, no. A8, pp. 921 – 930, 1998. [37] L. Li, B. Xue, J. Chen, N. Guan, F. Zhang, D. Liu, and H. Feng, “Direct synthesis of zeolite coatings on cordierite supports by in situ hydrothermal method,” Appl. Catal. A: Gen., vol. 292, no. 1-2, pp. 312 – 321, 2005. [38] F. Brandani, A. Rouse, S. Brandani, and D. Ruthven, “Adsorption kinetics and dynamic behavior of a carbon monolith,” Adsorption, vol. 10, no. 2, pp. 99 – 109, 2004. [39] Y. Li, S. Perera, and B. Crittenden, “Zeolite monoliths for air separation. Part 2: Oxygen enrichment, pressure drop and pressurization,” Chem. Eng. Res. Des., Transactions of the Institute of Chemical Engineers, Part A, vol. 76, no. A8, pp. 931 – 941, 1998.PDF Image | Structured Zeolite Adsorbents for PSA Applications
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