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BIBLIOGRAPHY [88] Ljung, L., 1987. System Identification: Theory for the User. PTR Prentice Hall. [89] Ljung, L., 1994. Modeling of Dynamic Systems. PTR Prentice Hall. [90] Luyben, M., Floudas, C., 1994. Analyzing the interaction of design and control–1. a multiobjective framework and application to binary distilla- tion synthesis. Computers & Chemical Engineering 18 (10), 933 – 969, an International Journal of Computer Application in Chemical Engineering. [91] Maciejowski, J. M., 2002. Predictive Control with Constraints. Pearson Ed- ucation. [92] Malcolm, A., Polan, J., Zhang, L., Ogunnaike, B. A., Linninger, A. A., 2007. Integrating systems design and control using dynamic flexibility analysis. AIChE Journal 53 (8), 2048–2061. [93] Malek, A., Farooq, S., 1996. Comparison of isotherm models for hydrocar- bon adsorption on activated carbon. AIChE Journal 42 (11), 3191–3201. [94] Malek, A., Farooq, S., 1998. Hydrogen purification from refinery fuel gas by pressure swing adsorption. AIChE Journal 44 (9), 1985–1992. [95] Martin, Pehnt, 2001. Life-cycle assessment of fuel cell stacks. International Journal of Hydrogen Energy 26 (1), 91 – 101. [96] M ́erel, J., Clausse, M., Meunier, F., 2006. Carbon dioxide capture by in- direct thermal swing adsorption using 13x zeolite. Environmental Progress 25 (4), 327–333. [97] Merel, J., Clausse, M., Meunier, F., 2008. Experimental investigation on co2 postcombustion capture by indirect thermal swing adsorption using 13x and 5a zeolites. Industrial & Engineering Chemistry Research 47 (1), 209–215. 188PDF Image | Operation and Control of Pressure Swing Adsorption Systems
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