Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment

Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment

A laboratory based microflotation rig termed efficient FLOtation of Algae Technology (eFLOAT) was used to optimise parameters for harvesting microalgal biomass from eutrophic water systems. This was performed for the dual objectives of remediation (nutrient removal) and resource recovery. Preliminar...

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Main Authors: Jagroop Pandhal, Wai L. Choon, Rahul V. Kapoore, David A. Russo, James Hanotu, I. A. Grant Wilson, Pratik Desai, Malcolm Bailey, William J. Zimmerman, Andrew S. Ferguson
Format: Article
Language:English
Published: MDPI AG 2017-12-01
Series:Biology
Subjects:
environmental microalgae
resource recovery
eutrophication
microflotation
algal bloom
Online Access:https://www.mdpi.com/2079-7737/7/1/4
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spelling doaj-9f375f11b00243c49ad9537c4eff13512020-11-24T22:23:21ZengMDPI AGBiology2079-77372017-12-0171410.3390/biology7010004biology7010004Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact AssessmentJagroop Pandhal0Wai L. Choon1Rahul V. Kapoore2David A. Russo3James Hanotu4I. A. Grant Wilson5Pratik Desai6Malcolm Bailey7William J. Zimmerman8Andrew S. Ferguson9Department of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKCopenhagen Plant Science Centre, Department of Plant and Environmental Sciences, University of Copenhagen, Thorvaldsensvej 40, C 1871 Frederiksberg, DenmarkDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKLink2Energy, 1-3 Bigby Street, Brigg, North Lincolnshire DN20 8EJ, UKDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKDepartment of Chemical and Biological Engineering, The University of Sheffield, Sheffield S1 3JD, UKA laboratory based microflotation rig termed efficient FLOtation of Algae Technology (eFLOAT) was used to optimise parameters for harvesting microalgal biomass from eutrophic water systems. This was performed for the dual objectives of remediation (nutrient removal) and resource recovery. Preliminary experiments demonstrated that chitosan was more efficient than alum for flocculation of biomass and the presence of bacteria could play a positive role and reduce flocculant application rates under the natural conditions tested. Maximum biomass removal from a hyper-eutrophic water retention pond sample was achieved with 5 mg·L−1 chitosan (90% Chlorophyll a removal). Harvesting at maximum rates showed that after 10 days, the bacterial diversity is significantly increased with reduced cyanobacteria, indicating improved ecosystem functioning. The resource potential within the biomass was characterized by 9.02 μg phosphate, 0.36 mg protein, and 103.7 μg lipid per mg of biomass. Fatty acid methyl ester composition was comparable to pure cultures of microalgae, dominated by C16 and C18 chain lengths with saturated, monounsaturated, and polyunsaturated fatty acids. Finally, the laboratory data was translated into a full-size and modular eFLOAT system, with estimated costs as a novel eco-technology for efficient algal bloom harvesting.https://www.mdpi.com/2079-7737/7/1/4environmental microalgaeresource recoveryeutrophicationmicroflotationalgal bloom
collection DOAJ
language English
format Article
sources DOAJ
author Jagroop Pandhal
Wai L. Choon
Rahul V. Kapoore
David A. Russo
James Hanotu
I. A. Grant Wilson
Pratik Desai
Malcolm Bailey
William J. Zimmerman
Andrew S. Ferguson
spellingShingle Jagroop Pandhal
Wai L. Choon
Rahul V. Kapoore
David A. Russo
James Hanotu
I. A. Grant Wilson
Pratik Desai
Malcolm Bailey
William J. Zimmerman
Andrew S. Ferguson
Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment
Biology
environmental microalgae
resource recovery
eutrophication
microflotation
algal bloom
author_facet Jagroop Pandhal
Wai L. Choon
Rahul V. Kapoore
David A. Russo
James Hanotu
I. A. Grant Wilson
Pratik Desai
Malcolm Bailey
William J. Zimmerman
Andrew S. Ferguson
author_sort Jagroop Pandhal
title Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment
title_short Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment
title_full Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment
title_fullStr Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment
title_full_unstemmed Harvesting Environmental Microalgal Blooms for Remediation and Resource Recovery: A Laboratory Scale Investigation with Economic and Microbial Community Impact Assessment
title_sort harvesting environmental microalgal blooms for remediation and resource recovery: a laboratory scale investigation with economic and microbial community impact assessment
publisher MDPI AG
series Biology
issn 2079-7737
publishDate 2017-12-01
description A laboratory based microflotation rig termed efficient FLOtation of Algae Technology (eFLOAT) was used to optimise parameters for harvesting microalgal biomass from eutrophic water systems. This was performed for the dual objectives of remediation (nutrient removal) and resource recovery. Preliminary experiments demonstrated that chitosan was more efficient than alum for flocculation of biomass and the presence of bacteria could play a positive role and reduce flocculant application rates under the natural conditions tested. Maximum biomass removal from a hyper-eutrophic water retention pond sample was achieved with 5 mg·L−1 chitosan (90% Chlorophyll a removal). Harvesting at maximum rates showed that after 10 days, the bacterial diversity is significantly increased with reduced cyanobacteria, indicating improved ecosystem functioning. The resource potential within the biomass was characterized by 9.02 μg phosphate, 0.36 mg protein, and 103.7 μg lipid per mg of biomass. Fatty acid methyl ester composition was comparable to pure cultures of microalgae, dominated by C16 and C18 chain lengths with saturated, monounsaturated, and polyunsaturated fatty acids. Finally, the laboratory data was translated into a full-size and modular eFLOAT system, with estimated costs as a novel eco-technology for efficient algal bloom harvesting.
topic environmental microalgae
resource recovery
eutrophication
microflotation
algal bloom
url https://www.mdpi.com/2079-7737/7/1/4
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