An integrated
photobioreactor and foam fractionation unit for the growth and harvest of Chaetoceros
spp. in open systems
A.
Csordas, J.-K. Wang-2004
Aquacultural Engineering, 30(1-2): 15-30
Abstract:
The separation of cells from large volume cultures by
centrifugation is a costly and time-consuming process that has prompted the
exploration of alternative propitious separation strategies. Foam
fractionation is a technique that can be used to concentrate large cell
culture volumes, significantly decreasing centrifugation time requirements.
A foam fractionation system is relatively inexpensive and easy to maintain.
This study was aimed at empirically determining optimal levels of the major
factors influencing foam fractionation of the marine diatom Chaetoceros
spp. in a pilot scale, open culture, integrated photobioreactor and foam
fractionation unit.
The experimental system consisted of eight 220 l
fiberglass photobioreactors that served as growth chambers and foam
fractionating units. Bubble size, air flow rate (AFR), cell density (CD),
overflow height (OH), pH and foam fractionation run time (RT) were factors
investigated while harvesting the outdoor open cultures. Flocculating agents
and surfactants were not added to the diatom cultures at any time.
Experiments were conducted to determine how variable levels influence dry
weight yield, harvesting efficiency (HE) and foam volume collected.
Experimentally determined setpoints resulted in harvesting efficiencies
exceeding 90% while extracting less than 12% of the total culture volume in
a period of 30 min. These results indicate that foam fractionation is a
practical tool for harvesting Chaetoceros spp. diatoms.
(Department of Biological and Agricultural
Engineering, University of California at Davis, Davis, CA 95616, USA, e-mail
of A. Csordas: atcsordas@ucdavis.edu,
e-mail of J.-K. Wang: jawkai@hawaii.edu)