(631b) New Universal Pressure Drop Correlation for Structured Adsorbents with Parallel Channels of Any Cross-Sectional Shape | AIChE

(631b) New Universal Pressure Drop Correlation for Structured Adsorbents with Parallel Channels of Any Cross-Sectional Shape

Authors 

Sanders, R. - Presenter, University of South Carolina
Ebner, A., University of South Carolina
Ritter, J. A., University of South Carolina
A 1D axial pressure drop correlation was developed for structured adsorbents with parallel channels of any cross-sectional shape. It is based on the Darcy-Weisbach (DW) equation, which includes both laminar and inertial contributions to the pressure drop. This 1D correlation is contrasted against the correlations of both Shah and London,1 and Muzychka and Yovanovich,2 and against in house experimental results. The new correlation is proposed for pressure drop determination in structured adsorbents with parallel channels of any cross-sectional shape, and it was built based on a new, recently published,3 non-experimental methodology that uses 3D Navier–Stokes (NS) computational fluid dynamics (CFD). To resolve the 1D-DW correlation, expressed in terms of a Darcy friction factor involving just two fitting parameters, f1 and f2, an analytic expression derived from the differential 1D-DW model was regressed simultaneously with all the 3D-NS model results for four channel cross-sectional shapes (equilateral triangle, isosceles triangle, square, and rectangle) with air at 1 atm and 25 oC. Then predictions from the differential 1D-DW correlation, now solved numerically in COMSOL, were contrasted against those from the bench-scale experiments using two structured adsorbents at 0.5, 1 and 3 atm of CO2 and He in addition to air at 25 oC. These bench-scale experiments included a Catacel structured adsorbent with parallel triangular channels and a Gore structured adsorbent with parallel trapezoidal channels. A wide range of velocities, pressures, channel dimensions and gas molecular weights were explored. The 1D-DW correlation showed good agreement with experiment for all outlet pressures and all three gases and better prediction than the two alternative correlations indicated above. These results indicated the 1D-DW correlation could be used with confidence in an adsorption process simulator to predict the pressure drop in a structured adsorbent with parallel channels of any cross-sectional shape.

  1. Shah, R .K., London, A. L., Laminar Flow Forced Convection in Ducts: A Source Book for Compact Heat Exchanger Analytical Data.” Chapter VIII, pgs 223 – 246, Academic Press (1978).
  2. Muzychka, Y. S. and M. M. Yovanovich. Pressure Drop in Laminar Developing Flow in Noncircular Ducts: A Scaling and Modeling Approach, Journal of Fluids Engineering 131, 111105-1 – 111105-11 (2009).
  3. Mohammadi, N., Sanders, R. T., Holland, C. E., Ebner, A. D. and James A. Ritter, Non‑Experimental Methodology for Developing Pressure Drop Correlations for Structured Adsorbents with Parallel Channels, Adsorption 29, 29 – 43 (2023).

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