Research article

Comparison of performance in an anaerobic digestion process: one-reactor vs two-reactor configurations

  • Received: 02 January 2019 Accepted: 25 February 2019 Published: 22 March 2019
  • The present work compares two types of configurations for a two-reaction (acidogenesis and methanogenesis) anaerobic digestion model. These configurations are as follows: (ⅰ) a single bioreactor, where the acidogenesis and methanogenesis reactions occur inside and, (ⅱ) two bioreactors connected sequentially, where each reaction occurs separately in each reactor. The mathematical models that describe the mentioned configurations are analyzed at steady state, comparing the following criteria: the stability of the processes (stability properties of desired equilibria) and soluble organic matter removal performance (substrate levels at steady states), concluding that separation of the reactions in two bioreactors does not improve the stability of the process nor the soluble organic matter removal capacity, unless the improvement of the growth functions of both microorganism populations is considerably important at the moment of separating them into two reactors.

    Citation: Andrés Donoso-Bravo, Pedro Gajardo, Matthieu Sebbah, Diego Vicencio. Comparison of performance in an anaerobic digestion process: one-reactor vs two-reactor configurations[J]. Mathematical Biosciences and Engineering, 2019, 16(4): 2447-2465. doi: 10.3934/mbe.2019122

    Related Papers:

  • The present work compares two types of configurations for a two-reaction (acidogenesis and methanogenesis) anaerobic digestion model. These configurations are as follows: (ⅰ) a single bioreactor, where the acidogenesis and methanogenesis reactions occur inside and, (ⅱ) two bioreactors connected sequentially, where each reaction occurs separately in each reactor. The mathematical models that describe the mentioned configurations are analyzed at steady state, comparing the following criteria: the stability of the processes (stability properties of desired equilibria) and soluble organic matter removal performance (substrate levels at steady states), concluding that separation of the reactions in two bioreactors does not improve the stability of the process nor the soluble organic matter removal capacity, unless the improvement of the growth functions of both microorganism populations is considerably important at the moment of separating them into two reactors.


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