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Lamare, Pierre-Olivier; Aguillon, Nina; Sainte-Marie, Jacques; Grenier, Jérôme; Bonnefond, Hubert; Bernard, Olivier

Gradient-based optimization of a rotating algal biofilm process. (English) Zbl 1429.93157

Automatica 105, 80-88 (2019).
Summary: Microalgae are microorganisms which have been only recently used for biotechnological applications, especially in the perspective of biofuel production. Here we focus on the shape optimization and optimal control of an innovative process where the microalgae are fixed on a support. They are thus successively exposed to light and dark conditions. The resulting growth can be represented by a dynamical system describing the denaturation of key proteins due to an excess of light. A partial differential equations (PDE) model of the rotating algal biofilm (RAB) is then proposed, representing local microalgal growth submitted to the time varying light. An adjoint-based gradient method is proposed to identify the optimal (constant) process folding and the (time varying) velocity of the biofilm. When applied to a realistic case, the optimization points out a particular configuration which significantly increases the productivity compared to a base case where the biofilm is fixed.

Cited in 2 Documents

MSC:

93C20 Control/observation systems governed by partial differential equations
49N90 Applications of optimal control and differential games
92C80 Plant biology
92C75 Biotechnology

Keywords:

adjoint-based optimization; PDE control; microalgae; biofilm; biofuel; rotating algal biofilm
Cite Review PDF
Full Text: DOI HAL

References:

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