1. Comparison of Four Quantitative Techniques for Monitoring Microalgae Disruption by Low-Frequency Ultrasound and Acoustic Energy Efficiency
- Author
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Zhipeng Duan, Xiao Tan, Sanjina Upadhyay, Danfeng Zhang, Yuji Jiang, and Keshab Parajuli
- Subjects
Chemistry ,020209 energy ,Sonication ,Acoustic energy ,Biomass ,02 engineering and technology ,General Chemistry ,010501 environmental sciences ,Cell counting ,01 natural sciences ,Algal bloom ,Absorbance ,Suspensions ,Microalgae ,0202 electrical engineering, electronic engineering, information engineering ,Cell disruption ,Environmental Chemistry ,Biological system ,Intracellular ,Ultrasonography ,0105 earth and related environmental sciences - Abstract
Ultrasound has been regarded as an environmental friendly technology to utilize microalgae biomass and control algal blooms. In this study, four quantitative techniques, including cell counting, optical density of algal suspension, pigments release, and protein release, were performed on three species of microalgae ( M. aeruginosa, C. pyrenoidosa, and C. reinhardtii) to develop effective techniques for rapid monitoring of cell disruption and to optimize the acoustic energy efficiency. Results showed optical density of algal suspensions was not an optimal indicator to monitor cell disruption, although it is a common technique for determining cell concentration in microbial cultures. Instead, an accurate and reliable technique was to determine the release of intracellular pigments (absorbance peaks of supernatant) for indicating cell rupture. The protein released during sonication could also be a useful indicator if it is the component of interest. A fitted power functional model showed a strong relationship between cell disruption and energy consumption ( R
- Published
- 2018
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