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Design and Performance of a Solar Photobioreactor Utilizing Spatial Light Dilution

Authors:
Dan Dye, Jeff Muhs, Byard Wood, and Ronald C. Sims

 

Journal:
Journal of Solar Energy Engineering

Abstract:
A photobioreactor with an optical system that spatially dilutes solar photosynthetic active radiation has been designed, built, and tested at the Utah State University Biofuels Center. This photobioreactor could be used to produce microalgal biomass for a number of purposes, such as feedstock for an energy conversion process or high-value products such as pharmaceuticals and nutraceuticals. In addition, the reactor could be used to perform services such as removing nitrates, phosphates, and other contaminants from waste water, as well as scrubbing toxic gases and carbon dioxide from flue gas. Preliminary tests were performed that compared growth and productivity kinetics of this reactor with that of a control reactor simulating a pond. Tests indicated higher specific growth rates and higher areal and volumetric yields compared with the control reactor. The maximum specific growth rate, volumetric yield, and areal yield were 0.21 day−1, 0.059 gm L−1 day−1, and 15 gm m−2 day−1, respectively. Over 10 days of sequential-batch operation, the prototype photobioreactor converted direct-normal solar energy to energy stored in biomass at an average efficiency of 1%. The areal productivity, as mass per aperture per time, was three times higher than that of the control reactor, indicating the photobioreactor design investigated holds promise.

Citation:

Dye, D., Muhs, J., Wood, B., Sims, R., 2011. Design and Performance of a Solar Photobioreactor Utilizing Spatial Light Dilution. J. Sol. Energy Eng. Trans.-ASME 133.

Link to paper:

http://dx.doi.org/10.1115/1.4003419