B. Farges scite author profile

B. Farges

3Publications

92Citation Statements Received

66Citation Statements Given

How they've been cited

111

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Affiliations

Institut Pascal, Laboratoire de Génie Chimique, French National Centre for Scientific Research

Publications

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Spectral kinetic modeling and long‐term behavior assessment of Arthrospira platensis growth in photobioreactor under red (620 nm) light illumination

Farges

Laroche

Cornet

et al. 2009

Biotechnology Progress

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The ability to cultivate the cyanobacterium Arhtrospira platensis in artificially lightened photobioreactors using high energetic efficiency (quasi-monochromatic) red LED was investigated. To reach the same maximal productivities as with the polychromatic lightening control conditions (red + blue, P/2e(-) = 1.275), the need to work with an optimal range of wavelength around 620 nm was first established on batch and continuous cultures. The long-term physiological and kinetic behavior was then verified in a continuous photobioreactor illuminated only with red (620 nm) LED, showing that the maximum productivities can be maintained over 30 residence times with only minor changes in the pigment content of the cells corresponding to a well-known adaptation mechanism of the photosystems, but without any effect on growth and stoichiometry. For both poly and monochromatic incident light inputs, a predictive spectral knowledge model was proposed and validated for the first time, allowing the calculation of the kinetics and stoichiometry observed in any photobioreactor cultivating A. platensis, or other cyanobacteria if the parameters were updated. It is shown that the photon flux (with a specified wavelength) must be used instead of light energy flux as a relevant control variable for the growth. The experimental and theoretical results obtained in this study demonstrate that it is possible to save the energy consumed by the lightening device of photobioreactors using red LED, the spectral range of which is defined according to the action spectrum of photosynthesis. This appears to be crucial information for applications in which the energy must be rationalized, as it is the case for life support systems in closed environments like a permanent spatial base or a submarine.

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Simulation of the MELiSSA closed loop system as a tool to define its integration strategy

Poughon

Farges

Dussap

et al. 2009

Advances in Space Research

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Influence of the rapeseed protein hydrolysis process on CHO cell growth

Chabanon

Costa

Farges

et al. 2008

Bioresource Technology

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B. Farges

Spectral kinetic modeling and long‐term behavior assessment of Arthrospira platensis growth in photobioreactor under red (620 nm) light illumination

Simulation of the MELiSSA closed loop system as a tool to define its integration strategy

Influence of the rapeseed protein hydrolysis process on CHO cell growth

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