Setembro 2018 vol. 1 num. 5 - XXII Congresso Brasileiro de Engenharia Química

Oral - Open Access.

Idioma principal

OPTIMAL DESIGN OF A CO2 REMOVAL SECTION FOR A BIOGAS-BASED OXIDATIVE COUPLING OF METHANE PROCESS

PENTEADO, A. T ; GODINI, H. R ; ESCHE, E ; LOVATO, G ; RODRIGUES, J. A. D ; REPKE, J ; , ;

Oral:

Biogas can be used as a renewable feedstock for ethylene production via Oxidative Coupling of Methane (OCM). The aim of this study is the development of an optimal process design for the CO2 removal section of a biogas-based OCM process. For doing so, a rigorous Aspen Plus simulation model is linked to external optimization routines in Matlab aiming at minimizing the Total Annualized Cost for the CO2 removal.

Oral:

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Palavras-chave: OXIDATIVE,

Palavras-chave: OXIDATIVE,

DOI: 10.5151/cobeq2018-CO.021

Referências bibliográficas
  • [1] ALBANEZ R., CHIARANDA B. C., FERREIRA R. G., FRANÇA A. L. P., HONÓRIO C. D.,
  • [2] RODRIGUES J. A. D., RATUSZNEI S. M., ZAIAT E. M. Anaerobic Biological Treatment of
  • [3] Vinasse for Environmental Compliance and Methane Production. Applied Biochemistry and
  • [4] Biotechnology, v. 178 (1), p. 21-43, 2016.
  • [5] ALMEIDA W. A., RATUSZNEI S. M., ZAIAT E.M., RODRIGUES J. A. D. AnSBBR Applied
  • [6] to Biomethane Production for Vinasse Treatment: Effects of Organic Loading, Feed Strategy
  • [7] and Temperature. Brazilian Journal of Chemical Engineering, v. 34(3), p. 759-773, 201
  • [8] CURRIE J., WILSON D. I. Opti: Lowering the barrier between open source optimizers and the
  • [9] industrial matlab user. Proceedings of the Foundations of Computer-Aided Process Operations.
  • [10] Savannah, Georgia, USA, 2012.
  • [11] FIRJAN. Quanto custa a energia elétrica para a pequena e média indústria no Brasil? Pesquisas
  • [12] e Estudos Econômicos, Publicações do Sistema Firjan, 2017
  • [13] LE DIGABEL S. Algorithm 909. ACM Transactions on Mathematical Software v. 37(4), p. 1–
  • [14] 15, 2011
  • [15] PENTEADO A. T., MIJIN K., GODINI H. R., ESCHE E., REPKE J.-U. Biogas as a renewable
  • [16] feedstock for green ethylene production via oxidative coupling of methane: Preliminary
  • [17] feasibility study. Chemical Engineering Transactions v. 61, p. 589-594, 20
  • [18] PENTEADO A., ESCHE E., SALERNO D., GODINI H. R., WOZNY G. Design and
  • [19] Assessment of a Membrane and Absorption Based Carbon Dioxide Removal Processs for
  • [20] Oxidative Coupling of Methane.” Ind. Eng. Chem. Res. v. 55, p. 7473-7483, 2016.
  • [21] STANSCH Z., MLECZKO L., BAERNS E M. Comprehensive Kinetics of Oxidative Coupling
  • [22] of Methane over the La2O3/CaO Catalyst. Ind. Eng. Chem. Res. v. 36 (7), p. 2568–2579, 1997.
  • [23] STÜNKEL S., ILLMER D., DRESCHER A., SCHOMÄCKER R., WOZNY G. On the design,
  • [24] development and operation of an energy efficient CO2 removal for the oxidative coupling of
  • [25] methane in a miniplant scale. Applied Thermal Engineering, v. 43, p. 141-147, 2012.
  • [26] STÜNKEL S., TRIVEDI H., GODINI H. R., JASO S., HOLST N., ARNDT S., STEINBACH
  • [27] J., SCHOMÄCKER R. Oxidative Coupling of Methane: Process Design, Development and
  • [28] Operation in a Mini-Plant Scale. Chemie Ingenieur Technik, v. 84(11), p. 1989-1996, 2012.
Como citar:

PENTEADO, A. T; GODINI, H. R; ESCHE, E; LOVATO, G; RODRIGUES, J. A. D; REPKE, J; , ; "OPTIMAL DESIGN OF A CO2 REMOVAL SECTION FOR A BIOGAS-BASED OXIDATIVE COUPLING OF METHANE PROCESS", p. 4151-4154 . In: . São Paulo: Blucher, 2018.
ISSN 2359-1757, DOI 10.5151/cobeq2018-CO.021

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