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Modeling the Performance of an Anaerobic Moving Bed Biofilm Reactor
  • Yuhang Cai,
  • Joshua P. Boltz,
  • Bruce Rittmann
Yuhang Cai
Northeast Normal University
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Joshua P. Boltz
Arizona State University

Corresponding Author:jboltz@woodardcurran.com

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Bruce Rittmann
Arizona State University
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Abstract

Sub-models representing transformation processes by microorganisms and hydrolases, a one-dimensional (1-D) biofilm, and a bioreactor were integrated to simulate organic-matter fermentation and methane (CH 4) production in an anaerobic moving bed biofilm reactor (AnMBBR). The integrated models correctly represented all experimental observations and identified mechanisms underlying how and why AnMBBR performance changed when the volumetric loading rate (VLR) of total chemical oxygen demand (TCOD) increased from 3.9 to 19.5 kg COD T/m 3-d. The fractional removal of TCOD and CH 4 production decreased as the VLR of TCOD increased due in part to an increasing biofilm thickness that filled the interior channels of plastic carriers and led to a decrease in biofilm surface area and an increase in the mass-transfer boundary layer. Also, the ~25-day duration for each VLR of TCOD was too short to allow the biofilm to establish a new quasi steady state with respect to biofilm thickness. The mechanistic understanding of how biofilm characteristics and process performance respond to increased VLR of TCOD can be applied in engineering practice to improve AnMBBR process design and operation.
10 Sep 2024Submitted to Biotechnology and Bioengineering
11 Sep 2024Submission Checks Completed
11 Sep 2024Assigned to Editor
11 Sep 2024Review(s) Completed, Editorial Evaluation Pending
09 Oct 2024Reviewer(s) Assigned
05 Dec 2024Editorial Decision: Revise Major