Design and performance of an α-type tubular photobioreactor for mass cultivation of microalgae

Ab α-shape tubular photobioreactor was designed and constructed based on knowledge of algal growth physiology using sunlight. The algal culture is lifted 5 m by air to a receiver tank. From the receiver tank, the culture flows down parallel polyvinyl-chloride tubes of 25 m length and 2.5 cm internal diameter, placed at an angle of 25 ° with the horizontal to reach another set of air riser tubes. Again the culture is lifted 5 m to another receiver tank, then flows down parallel tubes connected to the base of the first set of riser tubes. Thus, the bioreactor system looks like the symbol α. As there is no change in the direction of the liquid flow, high liquid flow rate and Reynolds Number can be achieved at relatively low air flow rate in the riser tubes. Due to the high area-volume ratio of the bioreactor, and equable photosynthetically available radiance and culture temperature, biomass density of exceeding 10 g dry weight L-1 and daily output rate of 72 g dry weight m-2 land d-1 were achieved.

[1]  Yuan-Kun Lee,et al.  Effect of photobioreactor inclination on the biomass productivity of an outdoor algal culture , 1991, Biotechnology and bioengineering.

[2]  S. Pirt,et al.  Energetics of Photosynthetic Algal Growth: Influence of Intermittent Illumination in Short (40 s) Cycles , 1981 .

[3]  E. Laws,et al.  Nutrient‐ and light‐limited growth of Thalassiosira fluviatilis in continuous culture, with implications for phytoplankton growth in the ocean , 1980 .

[4]  C. Low,et al.  Productivity of outdoor algal cultures in enclosed tubular photobioreactor. , 1992, Biotechnology and bioengineering.

[5]  J. Benemann,et al.  Vertical tubular reactor for microalgae cultivation , 1988, Biotechnology Letters.

[6]  Yuan-Kun Lee,et al.  High CO2 partial pressure depresses productivity and bioenergetic growth yield of Chlorella pyrenoidosa culture , 1991, Journal of Applied Phycology.

[7]  P. Falkowski,et al.  Light-enhanced dark respiration in phytoplankton: With 1 figure and 1 table in the text , 1985 .

[8]  P. Tapie,et al.  Microalgae production: Technical and economic evaluations , 1988, Biotechnology and bioengineering.

[9]  J. .. Bassham,et al.  In vivo control mechanism of the carboxylation reaction. , 1978, Basic life sciences.

[10]  A. Vonshak,et al.  The kinetics of photoinhibition and its recovery in the red alga Porphyridium cruentum , 1988, Archives of Microbiology.

[11]  Giuseppe Torzillo,et al.  Production of Spirulina biomass in closed photobioreactors , 1986 .

[12]  J. Grobbelaar Turbulence in mass algal cultures and the role of light/dark fluctuations , 1994, Journal of Applied Phycology.

[13]  G. C. Zittelli,et al.  A vertical alveolar panel (VAP) for outdoor mass cultivation of microalgae and cyanobacteria , 1991 .