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KMID : 1094720160210060767
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Biotechnology and Bioprocess Engineering
2016 Volume.21 No. 6 p.767 ~ p.776
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Internally illuminated photobioreactor using a novel type of light-emitting diode (LED) bar for cultivation of Arthrospira platensis
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Yim Sung-Kun
Ki Dae-Won
Doo Hong-Soo
Kim Hyuk
Kwon Tae-Ho
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Abstract
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The biochemical properties of Spirulina platensis in an internally illuminated photobioreactor (IlPBR) were investigated under different light-emitted diode (LED) wavelengths; blue (¥ëmax= 450 and 460 nm), green (¥ëmax= 525 nm), red (¥ëmax = 630 and 660 nm), and white (6,500K), with various light intensities (200, 500, 1,000, and 2,000 ¥ìmol/m2/sec) were examined. The highest specific growth rate, maximum biomass, and phycocyanin productivity occurred under the red LEDs (0.39/day, 0.10 g/L/day, and 0.14 g/g-cell/day, respectively) at 1,000 ¥ìmol/m2/sec; the lowest growth rate was obtained under blue LEDs. Indeed, the size of trichomes was changed into short form under blue LEDs at all light intensities or all LEDs at 2,000 ¥ìmol/m2/sec for the first 2 days after inoculation, and S. platensis did not grow in the IlPBR under the dark condition. These results provide a base for different approaches for designing the pilot scale photobioreactor and developing cost-effective light sources.
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KEYWORD
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photobioreactor, LED bar, Spirulina platensis, specific growth rate, biomass productivity
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