(334d) Optimization of Photosynthetic Hydrogen Yield From Platinized Photosystem I Complexes | AIChE

(334d) Optimization of Photosynthetic Hydrogen Yield From Platinized Photosystem I Complexes

Authors 

Le, R. K. - Presenter, University of Tennessee - Knoxville
Iwuchukwu, I. J. - Presenter, University of Georgia
Iwuchukwu, E. A. - Presenter, University of Tennessee - Knoxville
Bruce, B. D. - Presenter, University of Tennessee - Knoxville
Sawhney, R. S. - Presenter, University of Tennessee - Knoxville
Frymier, P. D. - Presenter, University of Tennessee - Knoxville


Fractional factorial design was utilized to optimize light-dependent
hydrogen production by platinized Photosystem I isolated from the
cyanobacterium Thermosynechoccocus
elongatus
BP-1 using response surface methodology (RSM).  Using JMP, statistical data analysis
software, a model equation was developed to predict an optimum for hydrogen
evolved, after platinization, under the optimal conditions for temperature,
light intensity and platinum salt concentration.  The total H2 yield had a
significant dependence on platinum salt concentration and temperature during
platinization.  Light intensity during
platinization had a minimal effect on the total H2 yield.  The surface and contour plots yielding the
model equation indicated that an optimal hydrogen yield would be maximized at a
light intensity of 236 μE m-2 s-1,
platinum salt concentration of 636 μM and temperature of 30.80C.
The predicted optimum was 8.17 µmol H2 h-1 mg chl-1.  To validate the model, an experiment was
performed with observed optimal conditions during platinization, yielding 8.02 µmol
H2 h-1 mg chl-1 during hydrogen evolution, the
highest value observed in the series of experiments.