Numerical study of the dynamics of air separation process by pressure swing adsorption

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Using mathematical modelling and the finite element method, we carry out the calculation experiments to study the system connections and regularities of pressure swing adsorption process under the conditions of air separation and oxygen concentration (production). We study the influence of mode and construction variables on the dynamics and technological indicators of the effectiveness of this process. Namely, we study the influence of input variables (composition and temperature of atmospheric air, air pressure at the compressor outlet) on output variables (extraction degree, oxygen purity, unit capacity, etc.) of the studied object in a wide range of control variables (adsorption-desorption cycle time, pressure ratios at adsorption and desorption stages, and oxygen-enriched reverse air flow coefficient). Also, we study the influence of construction parameters (layer height, particle diameter and maximum adsorption volume of the adsorbent) on the amount of adsorption, which is equilibrium with the current concentration of the adsorptive in the gas mixture flow on the outer surface of the adsorbent granules, the value of the kinetic adsorption coefficient (the coefficient of external mass transfer of the adsorptive (mainly nitrogen) from the gas phase into the adsorbent). The results of calculation experiments allow to establish the most promising mode and construction parameters for the optimal design of oxygen enrichment systems by pressure swing adsorption with varying pressure.

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Pressure swing adsorption, oxygen, zeolite 13x, mathematical modelling, numerical study, цеолит 13x

Короткий адрес: https://sciup.org/147232976

IDR: 147232976   |   DOI: 10.14529/mmp190407

Список литературы Numerical study of the dynamics of air separation process by pressure swing adsorption

  • Шумяцкий, Ю.И. Промышленные адсорбционные процессы / Ю.И. Шумяцкий. - М.: КолосС, 2009.
  • Shokroo, E. Comparative Study of Zeolite 5A and Zeolite 13X in Air Separation by Pressure Swing Adsorption / E. Shokroo, D. Farsani, H. Meymandi, N. Yadoliahi // Korean Journal of Chemical Engineering. - 2016. - V. 33, № 4. - P. 1391-1401.
  • Wu, C. Experimental Study of a Novel Rapid Pressure-Swing Adsorption Based Medical Oxygen Concentrator: Effect of the Adsorbent Selectivity of N2 over O2 / C. Wu, R. Vermula, M. Kothare, S. Sircar // Industrial and Engineering Chemistry Research. - 2016. - V. 55, № 16. - P. 4676-4681.
  • Li, J.H. The Experimental Study of a New Pressure Equalization Step in the Pressure Swing Adsorption Cycle of a Portable Oxygen Concentrator / J.H. Li // Bio-Medical Materials and Engineering. - 2014. - V. 24, № 5. - P. 1771-1779.
  • Chistyakova, T.B. Joint Innovative IT Projects in the Field of Production of Polymeric Sheet Materials / T.B. Chistyakova, A.S. Razygrayev, A.N. Polosin, A.M. Araztaganova // Proceedings of the 2016 IEEE V Forum Strategic Partnership of Universities and Enterprises of Hi-Tech Branches (Science. Education. Innovations). - St. Petersburg: Saint Petersburg Electrotechnical University LETI, 2016. - P. 61-64.
  • Chistyakova, T.B. Computer Modelling System of Industrial Extruders with Adjustable Configuration for Polymeric Film Quality Control / T.B. Chistyakova, A.N. Polosin // Proceedings of 2017 IEEE II International Conference on Control in Technical Systems (CTS). - St. Petersburg: Saint Petersburg Electrotechnical University LETI, 2017. - P. 47-50.
  • Akulinin, E.I. Numerical Study of Cyclic Adsorption Processes of Air Oxygen Enrichment in Dynamics / E.I. Akulinin, O.O. Golubyatnikov, D.S. Dvoretsky, S.I. Dvoretsky // Journal of Physics: Conference Series. - 2019. - V. 1278, № 1. - P. 012005.
  • Ruthven, D. M. Pressure Swing Adsorption / D.M. Ruthven, S. Farooq, K.S. Knaebel. - New York, 1993.
  • Дубинин, М.М. Адсорбция и пористость / М.М. Дубинин. - М.: ВАХЗ, 1972.
  • Лыков, А.В. Тепломассообмен / А.В. Лыков. - М.: Энергия, 1978.
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