TY - JOUR
T1 - Continuous harvest of marine microalgae using electrolysis
T2 - Effect of pulse waveform of polarity exchange
AU - Kim, Jungmin
AU - Ryu, Byung Gon
AU - Lee, You Jin
AU - Han, Jong In
AU - Kim, Woong
AU - Yang, Ji Won
PY - 2014/4
Y1 - 2014/4
N2 - Advances in harvesting of microalgae are needed for the efficient and economical production of microalgal biodiesel. In addition to improvements in recovery efficiency, developments in harvest technology should focus on reducing the adverse impact of subsequent processes, and should also allow water recycling. We investigated a continuous electrochemical approach for microalgal biodiesel production. Instead of conventional DC, pulsed DC was applied as a method of polarity exchange and its performance was analyzed in terms of recovery efficiency, electricity consumption, and residual Al concentration. Under optimized pulsed-DC conditions, 32 % less electricity was required and 7 % less Al was remained after continuous harvesting and there was no decrease in recovery efficiency compared to the continuous harvesting by conventional DC. We also examined the effect of this new protocol on biodiesel quality and water reusability. There were no differences in the microalgal oil composition before and after electrolytic harvesting. In addition, the harvested oil quality, based on four key parameters, was superior to that produced by other terrestrial crops. Lastly, there was no retardation of growth in recycled medium relative to that in fresh medium.
AB - Advances in harvesting of microalgae are needed for the efficient and economical production of microalgal biodiesel. In addition to improvements in recovery efficiency, developments in harvest technology should focus on reducing the adverse impact of subsequent processes, and should also allow water recycling. We investigated a continuous electrochemical approach for microalgal biodiesel production. Instead of conventional DC, pulsed DC was applied as a method of polarity exchange and its performance was analyzed in terms of recovery efficiency, electricity consumption, and residual Al concentration. Under optimized pulsed-DC conditions, 32 % less electricity was required and 7 % less Al was remained after continuous harvesting and there was no decrease in recovery efficiency compared to the continuous harvesting by conventional DC. We also examined the effect of this new protocol on biodiesel quality and water reusability. There were no differences in the microalgal oil composition before and after electrolytic harvesting. In addition, the harvested oil quality, based on four key parameters, was superior to that produced by other terrestrial crops. Lastly, there was no retardation of growth in recycled medium relative to that in fresh medium.
KW - Microalgal harvest
KW - Nannochloropsis oceanica
KW - Polarity exchange
KW - Pulsed DC
KW - Response surface methodology
UR - http://www.scopus.com/inward/record.url?scp=84903385270&partnerID=8YFLogxK
U2 - 10.1007/s00449-013-1097-x
DO - 10.1007/s00449-013-1097-x
M3 - Article
C2 - 24322506
AN - SCOPUS:84903385270
SN - 1615-7591
VL - 37
SP - 1249
EP - 1259
JO - Bioprocess and Biosystems Engineering
JF - Bioprocess and Biosystems Engineering
IS - 7
ER -