Algal cells harvesting using cost-effective magnetic nano-particles

Algal cells harvesting using cost-effective magnetic nano-particles

Innovative iron-based nanoparticles were synthesized, characterized and tested for the first time for harvesting single and mixed algal culture from real wastewater. The tailor-made magnetic nanoparticles (MNPs; Fe-MNP-I and Fe-MNP-II) achieved a percentage algae harvesting efficiency (%AHE) higher...

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Published in:The Science of the total environment Vol. 720; p. 137621
Main Author: Almomani, Fares
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 10-06-2020
Subjects:
Adsorption
Algae recovery
Biomass concentration
Chlorella vulgaris
Cost-Benefit Analysis
Intact cells
Magnetic Phenomena
Magnetics
Magnetite Nanoparticles
Optimization methodology
Magnetite nanoparticles
Optimization methodology
Intact cells
Algae recovery
Biomass concentration
Online Access:Get full text
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Abstract Innovative iron-based nanoparticles were synthesized, characterized and tested for the first time for harvesting single and mixed algal culture from real wastewater. The tailor-made magnetic nanoparticles (MNPs; Fe-MNP-I and Fe-MNP-II) achieved a percentage algae harvesting efficiency (%AHE) higher than 95% using a concentration of MNPs (CMNP) of 25 ± 0.3 (std. dev = 0.08) mg.L−1, mixing speed (Mspeed) of 120 ± 2 (std. dev = 0.10) rpm, short contact time (Ct) of 7 ± 0.1 (std. dev = 0.05) min and separation time (SPt) of 3 ± 0.1 (std. dev = 0.09) min. The optimum operational conditions for harvesting of Chlorella vulgaris (C.v) were determined at (CMNP = 40 ± 0.4 (std. dev = 0.5) gMNPs.L−1, SPt = 2.5 ± 0.4 (std. dev = 0.1) min, Mspeed = 145 ± 3 (std. dev = 1.50) rpm and Ct = 5 ± 0.3 (std. dev = 0.10) min using surface response methodology. Langmuir model describes better the adsorption behavior of algae-Fe-MNP-I system, while both Langmuir and Freundlich fit well the adsorption behavior of algae-Fe-MNP-II. The maximum adsorption capacity of Spirulina platensis (SP.PL) (18.27 ± 0.07 (std. dev = 0.19) mgDWC.mgparticles−1) was higher than that for Chlorella vulgaris (C.v) (11.52 ± 0.01 (std. dev = 0.34) mgDWC.mgparticles−1) and mixed algal culture (M.X) (17.20 ± 0.07 (std. dev = 0.54) mgDWC.mgparticles−1) over Fe-MNP-I. Zeta potential measurements revealed that the adsorption mechanism between MNPs and algal strains is controlled by electrostatic interaction. The synthesized MNPs were recycled 10 times using alkaline-ultrasonic regeneration procedure. [Display omitted] •Innovative nanoparticles were prepared and use to harvest single and mixed algae cells.•Algae harvesting efficiency of Chlorella vulgaris reached above 95% within 5 min.•Nanoparticles can be reused up to 10 times without significant efficiency loss.•Surface response methodology was used to identified optimum harvesting conditions.•Magnetic separation provides great potential to save time and energy during algal harvesting.
AbstractList Innovative iron-based nanoparticles were synthesized, characterized and tested for the first time for harvesting single and mixed algal culture from real wastewater. The tailor-made magnetic nanoparticles (MNPs; Fe-MNP-I and Fe-MNP-II) achieved a percentage algae harvesting efficiency (%AHE) higher than 95% using a concentration of MNPs (C ) of 25 ± 0.3 (std. dev = 0.08) mg.L , mixing speed (M ) of 120 ± 2 (std. dev = 0.10) rpm, short contact time (C ) of 7 ± 0.1 (std. dev = 0.05) min and separation time (SP ) of 3 ± 0.1 (std. dev = 0.09) min. The optimum operational conditions for harvesting of Chlorella vulgaris (C.v) were determined at (C  = 40 ± 0.4 (std. dev = 0.5) g .L , SP  = 2.5 ± 0.4 (std. dev = 0.1) min, M  = 145 ± 3 (std. dev = 1.50) rpm and C  = 5 ± 0.3 (std. dev = 0.10) min using surface response methodology. Langmuir model describes better the adsorption behavior of algae-Fe-MNP-I system, while both Langmuir and Freundlich fit well the adsorption behavior of algae-Fe-MNP-II. The maximum adsorption capacity of Spirulina platensis (SP.PL) (18.27 ± 0.07 (std. dev = 0.19) mg .mg ) was higher than that for Chlorella vulgaris (C.v) (11.52 ± 0.01 (std. dev = 0.34) mg .mg ) and mixed algal culture (M.X) (17.20 ± 0.07 (std. dev = 0.54) mg .mg ) over Fe-MNP-I. Zeta potential measurements revealed that the adsorption mechanism between MNPs and algal strains is controlled by electrostatic interaction. The synthesized MNPs were recycled 10 times using alkaline-ultrasonic regeneration procedure.
Innovative iron-based nanoparticles were synthesized, characterized and tested for the first time for harvesting single and mixed algal culture from real wastewater. The tailor-made magnetic nanoparticles (MNPs; Fe-MNP-I and Fe-MNP-II) achieved a percentage algae harvesting efficiency (%AHE) higher than 95% using a concentration of MNPs (CMNP) of 25 ± 0.3 (std. dev = 0.08) mg.L−1, mixing speed (Mspeed) of 120 ± 2 (std. dev = 0.10) rpm, short contact time (Ct) of 7 ± 0.1 (std. dev = 0.05) min and separation time (SPt) of 3 ± 0.1 (std. dev = 0.09) min. The optimum operational conditions for harvesting of Chlorella vulgaris (C.v) were determined at (CMNP = 40 ± 0.4 (std. dev = 0.5) gMNPs.L−1, SPt = 2.5 ± 0.4 (std. dev = 0.1) min, Mspeed = 145 ± 3 (std. dev = 1.50) rpm and Ct = 5 ± 0.3 (std. dev = 0.10) min using surface response methodology. Langmuir model describes better the adsorption behavior of algae-Fe-MNP-I system, while both Langmuir and Freundlich fit well the adsorption behavior of algae-Fe-MNP-II. The maximum adsorption capacity of Spirulina platensis (SP.PL) (18.27 ± 0.07 (std. dev = 0.19) mgDWC.mgparticles−1) was higher than that for Chlorella vulgaris (C.v) (11.52 ± 0.01 (std. dev = 0.34) mgDWC.mgparticles−1) and mixed algal culture (M.X) (17.20 ± 0.07 (std. dev = 0.54) mgDWC.mgparticles−1) over Fe-MNP-I. Zeta potential measurements revealed that the adsorption mechanism between MNPs and algal strains is controlled by electrostatic interaction. The synthesized MNPs were recycled 10 times using alkaline-ultrasonic regeneration procedure. [Display omitted] •Innovative nanoparticles were prepared and use to harvest single and mixed algae cells.•Algae harvesting efficiency of Chlorella vulgaris reached above 95% within 5 min.•Nanoparticles can be reused up to 10 times without significant efficiency loss.•Surface response methodology was used to identified optimum harvesting conditions.•Magnetic separation provides great potential to save time and energy during algal harvesting.
ArticleNumber 137621
Author Almomani, Fares
Author_xml – sequence: 1
  givenname: Fares
  orcidid: 0000-0003-2552-3716
  surname: Almomani
  fullname: Almomani, Fares
  email: falmomani@qu.edu.qa
  organization: Department of Chemical Engineering, College of Engineering, Qatar University, P.O. Box 2713, Doha, Qatar
BackLink https://www.ncbi.nlm.nih.gov/pubmed/32146403$$D View this record in MEDLINE/PubMed
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Keywords Magnetite nanoparticles
Optimization methodology
Intact cells
Algae recovery
Biomass concentration
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Snippet Innovative iron-based nanoparticles were synthesized, characterized and tested for the first time for harvesting single and mixed algal culture from real...
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SubjectTerms Adsorption
Algae recovery
Biomass concentration
Chlorella vulgaris
Cost-Benefit Analysis
Intact cells
Magnetic Phenomena
Magnetics
Magnetite Nanoparticles
Optimization methodology
Title Algal cells harvesting using cost-effective magnetic nano-particles
URI https://dx.doi.org/10.1016/j.scitotenv.2020.137621
https://www.ncbi.nlm.nih.gov/pubmed/32146403
https://search.proquest.com/docview/2375512419
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