Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology

Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology

In this work, the dependency of the volumetric hydrogen production rate of ammonium-limited Rhodobacter capsulatus chemostat cultures on their imposed biomass concentration and dilution rate was investigated. A deceleration-stat experiment was performed by lowering the dilution rate from 1.0 d-1 to zero aimed at a constant biomass concentration of 4.0 g L-1 at constant incident light intensity. The results displayed a maximal volumetric hydrogen production rate of 0.6 mmol m-3 s-1, well below model predictions. Possibly the high cell density limited the average light availability, resulting in a sub-optimal specific hydrogen production rate. To investigate this hypothesis, a gradient-stat experiment was conducted at constant dilution rate of 0.4 d-1 at constant incident light intensity. The biomass concentration was increased from 0.7 to 4.0 g L-1 by increasing the influent ammonium concentration. Up to a biomass concentration of 1.5 g L-1, the volumetric hydrogen production rate of the system increased according to model predictions, after which it started to decline. The results obtained provide strong evidence that the observed decline in volumetric hydrogen production rate at higher biomass concentrations was at least partly caused by a decrease in light availability

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Main Authors: Hoekema, S., van Breukelen, F.R., Janssen, M.G.J., Tramper, J., Wijffels, R.H.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:a-stat, flat-panel photobioreactor, light-intensity, limited continuous cultures, nitrogenase activity, photoproduction, photosynthetic bacterium, purple nonsulfur bacterium, rhodopseudomonas-palustris, spirulina-platensis,
Online Access:https://research.wur.nl/en/publications/exploration-of-the-hydrogen-producing-potential-of-rhodobacter-ca
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spelling dig-wur-nl-wurpubs-3858962025-01-22 Hoekema, S. van Breukelen, F.R. Janssen, M.G.J. Tramper, J. Wijffels, R.H. Article/Letter to editor Biotechnology Progress 25 (2009) 5 ISSN: 1520-6033 Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology 2009 In this work, the dependency of the volumetric hydrogen production rate of ammonium-limited Rhodobacter capsulatus chemostat cultures on their imposed biomass concentration and dilution rate was investigated. A deceleration-stat experiment was performed by lowering the dilution rate from 1.0 d-1 to zero aimed at a constant biomass concentration of 4.0 g L-1 at constant incident light intensity. The results displayed a maximal volumetric hydrogen production rate of 0.6 mmol m-3 s-1, well below model predictions. Possibly the high cell density limited the average light availability, resulting in a sub-optimal specific hydrogen production rate. To investigate this hypothesis, a gradient-stat experiment was conducted at constant dilution rate of 0.4 d-1 at constant incident light intensity. The biomass concentration was increased from 0.7 to 4.0 g L-1 by increasing the influent ammonium concentration. Up to a biomass concentration of 1.5 g L-1, the volumetric hydrogen production rate of the system increased according to model predictions, after which it started to decline. The results obtained provide strong evidence that the observed decline in volumetric hydrogen production rate at higher biomass concentrations was at least partly caused by a decrease in light availability en application/pdf https://research.wur.nl/en/publications/exploration-of-the-hydrogen-producing-potential-of-rhodobacter-ca 10.1002/btpr.196 https://edepot.wur.nl/53701 a-stat flat-panel photobioreactor light-intensity limited continuous cultures nitrogenase activity photoproduction photosynthetic bacterium purple nonsulfur bacterium rhodopseudomonas-palustris spirulina-platensis Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic a-stat
flat-panel photobioreactor
light-intensity
limited continuous cultures
nitrogenase activity
photoproduction
photosynthetic bacterium
purple nonsulfur bacterium
rhodopseudomonas-palustris
spirulina-platensis
a-stat
flat-panel photobioreactor
light-intensity
limited continuous cultures
nitrogenase activity
photoproduction
photosynthetic bacterium
purple nonsulfur bacterium
rhodopseudomonas-palustris
spirulina-platensis
spellingShingle a-stat
flat-panel photobioreactor
light-intensity
limited continuous cultures
nitrogenase activity
photoproduction
photosynthetic bacterium
purple nonsulfur bacterium
rhodopseudomonas-palustris
spirulina-platensis
a-stat
flat-panel photobioreactor
light-intensity
limited continuous cultures
nitrogenase activity
photoproduction
photosynthetic bacterium
purple nonsulfur bacterium
rhodopseudomonas-palustris
spirulina-platensis
Hoekema, S.
van Breukelen, F.R.
Janssen, M.G.J.
Tramper, J.
Wijffels, R.H.
Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology
description In this work, the dependency of the volumetric hydrogen production rate of ammonium-limited Rhodobacter capsulatus chemostat cultures on their imposed biomass concentration and dilution rate was investigated. A deceleration-stat experiment was performed by lowering the dilution rate from 1.0 d-1 to zero aimed at a constant biomass concentration of 4.0 g L-1 at constant incident light intensity. The results displayed a maximal volumetric hydrogen production rate of 0.6 mmol m-3 s-1, well below model predictions. Possibly the high cell density limited the average light availability, resulting in a sub-optimal specific hydrogen production rate. To investigate this hypothesis, a gradient-stat experiment was conducted at constant dilution rate of 0.4 d-1 at constant incident light intensity. The biomass concentration was increased from 0.7 to 4.0 g L-1 by increasing the influent ammonium concentration. Up to a biomass concentration of 1.5 g L-1, the volumetric hydrogen production rate of the system increased according to model predictions, after which it started to decline. The results obtained provide strong evidence that the observed decline in volumetric hydrogen production rate at higher biomass concentrations was at least partly caused by a decrease in light availability
format Article/Letter to editor
topic_facet a-stat
flat-panel photobioreactor
light-intensity
limited continuous cultures
nitrogenase activity
photoproduction
photosynthetic bacterium
purple nonsulfur bacterium
rhodopseudomonas-palustris
spirulina-platensis
author Hoekema, S.
van Breukelen, F.R.
Janssen, M.G.J.
Tramper, J.
Wijffels, R.H.
author_facet Hoekema, S.
van Breukelen, F.R.
Janssen, M.G.J.
Tramper, J.
Wijffels, R.H.
author_sort Hoekema, S.
title Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology
title_short Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology
title_full Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology
title_fullStr Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology
title_full_unstemmed Exploration of the hydrogen producing potential of Rhodobacter capsulatus chemostat cultures: The application of deceleration-stat and gradient-stat methodology
title_sort exploration of the hydrogen producing potential of rhodobacter capsulatus chemostat cultures: the application of deceleration-stat and gradient-stat methodology
url https://research.wur.nl/en/publications/exploration-of-the-hydrogen-producing-potential-of-rhodobacter-ca
work_keys_str_mv AT hoekemas explorationofthehydrogenproducingpotentialofrhodobactercapsulatuschemostatculturestheapplicationofdecelerationstatandgradientstatmethodology
AT vanbreukelenfr explorationofthehydrogenproducingpotentialofrhodobactercapsulatuschemostatculturestheapplicationofdecelerationstatandgradientstatmethodology
AT janssenmgj explorationofthehydrogenproducingpotentialofrhodobactercapsulatuschemostatculturestheapplicationofdecelerationstatandgradientstatmethodology
AT tramperj explorationofthehydrogenproducingpotentialofrhodobactercapsulatuschemostatculturestheapplicationofdecelerationstatandgradientstatmethodology
AT wijffelsrh explorationofthehydrogenproducingpotentialofrhodobactercapsulatuschemostatculturestheapplicationofdecelerationstatandgradientstatmethodology
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