Harvesting microalgal biomass using negatively charged polysulfone patterned membranes: Influence of pattern shapes and mechanism of fouling mitigation

Zhao, Zhenyu; Muylaert, Koenraad; Szymczyk, Anthony; Vankelecom, Ivo F.J.

doi:10.1016/j.watres.2020.116530

Cited by 33 publications

(19 citation statements)

References 49 publications

(94 reference statements)

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“…Emerging cleaning strategies attempt to reduce the area wherein shear stress is applied (Bamba et al, 2021;Zhao et al, 2021b). This effect has proved to be efficient at controlling fouling, while securing cell integrity and thus limiting the release of irreversible foulants.…”

Section: Membrane Cleaningmentioning

confidence: 99%

“…In addition, the incorporation of TiO 2 , Fe 2 O 3 , zeolites, silica, and silver has been found to increase the hydrophilicity of the membrane, thereby enhancing the permeate flux (Hu et al, 2015). However, the significantly higher energy demand and the increase in the cost exerted by these modifications represent a bottleneck for these approaches, and, therefore, developing cost-efficient antifouling membrane materials and geometries with high hydrophilicity and mechanical resistance remains a subject of study (Ladner et al, 2010;Zhang and Fu, 2018;Zhang Y. et al, 2019;Zhao et al, 2021b). To this extent, it is necessary to integrate these aspects into the developments of fouling control technology, while comparative techno-economic and environmental assessments of fouling control strategies should be evaluated to decrease the cost and the environmental impact of the process.…”

Section: Developments and Challenges Of Algal Fouling Controlmentioning

confidence: 99%

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Membrane Fouling in Algal Separation Processes: A Review of Influencing Factors and Mechanisms

2021

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The use of algal biotechnologies in the production of biofuels, food, and valuable products has gained momentum in recent years, owing to its distinctive rapid growth and compatibility to be coupled to wastewater treatment in membrane photobioreactors. However, membrane fouling is considered a main drawback that offsets the benefits of algal applications by heavily impacting the operation cost. Several fouling control strategies have been proposed, addressing aspects related to characteristics in the feed water and membranes, operational conditions, and biomass properties. However, the lack of understanding of the mechanisms behind algal biofouling and control challenges the development of cost-effective strategies needed for the long-term operation of membrane photobioreactors. This paper reviews the progress on algal membrane fouling and control strategies. Herein, we summarize information in the composition and characteristics of algal foulants, namely algal organic matter, cells, and transparent exopolymer particles; and review their dynamic responses to modifications in the feedwater, membrane surface, hydrodynamics, and cleaning methods. This review comparatively analyzes (i) efficiency in fouling control or mitigation, (ii) advantages and drawbacks, (iii) technological performance, and (iv) challenges and knowledge gaps. Ultimately, the article provides a primary reference of algal biofouling in membrane-based applications.

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Section: Membrane Cleaningmentioning

confidence: 99%

Section: Developments and Challenges Of Algal Fouling Controlmentioning

confidence: 99%

Membrane Fouling in Algal Separation Processes: A Review of Influencing Factors and Mechanisms

2021

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“…Introducing surface negative charge in a wave-patterned membrane was recently reported to be an effective approach to alleviate fouling, exhibiting 100% harvesting efficiency of Desmodesmus sp. with membrane permeances of up to 1000 L/m 2 h bar [ 69 ].…”

Section: Development Work On Membrane-aided Harvesting Process For Microalgaementioning

confidence: 99%

“…Higher hydrophilicity and negative charge are properties sought toward the design of anti-fouling membranes, in part, due to the cell surface charge of most microalgae being (slightly) negative [ 36 ]. An increased hydrophilicity and negative charge have been obtained by incorporating sulfonated polysulfone to the membrane [ 69 ]. Low-fouling composite membranes with enhanced superhydrophilicity and underwater superoleophobicity properties have been proven to reduce algae deposition on the membrane surface [ 76 ].…”

Section: Development Work On Membrane-aided Harvesting Process For Microalgaementioning

confidence: 99%

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Membrane-Based Harvesting Processes for Microalgae and Their Valuable-Related Molecules: A Review

Castro-Muñoz

García‐Depraect

2021

Membranes

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The interest in microalgae production deals with its role as the third generation of feedstock to recover renewable energy. Today, there is a need to analyze the ultimate research and advances in recovering the microalgae biomass from the culture medium. Therefore, this review brings the current research developments (over the last three years) in the field of harvesting microalgae using membrane-based technologies (including microfiltration, ultrafiltration and forward osmosis). Initially, the principles of membrane technologies are given to outline the main parameters influencing their operation. The main strategies adopted by the research community for the harvesting of microalgae using membranes are subsequently addressed, paying particular attention to the novel achievements made for improving filtration performance and alleviating fouling. Moreover, this contribution also gives an overview of the advantages of applying membrane technologies for the efficient extraction of the high added-value compounds in microalgae cells, such as lipids, proteins and carbohydrates, which together with the production of renewable biofuels could boost the development of more sustainable and cost-effective microalgae biorefineries.

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Fouling Mitigation by Surface‐Patterned Polymeric Membranes in Water Treatment: A Review of Recent Advancements in Fabrication Techniques

Chauhan,

Kumar Nagar,

Pandey

et al. 2024

Macromolecular Symposia

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The world is constantly challenged regarding managing environmental and ecological contamination due to human and industrial activities. This is because of the constant threat posed by pollution. Nowadays, membrane‐based technology is a growing field, making practically all the separation of foulant from wastewater possible. The membrane fouling resulting from the interaction between the foulant and the membrane surface presents a challenge for the technology in maintaining performance over extended periods of operation. As a result, there is a rising interest in research focusing mainly on creating patterned membrane surfaces that reduce fouling and effectively enhance the surface area. This article comprehensively overviews the most recent and cutting‐edge techniques that can be applied to modify and construct high‐performance patterned membranes suitable for ultrafiltration, microfiltration, nanofiltration, and reverse osmosis (UF, MF, NF, and RO) water purification processes. In this study, recent developments in membrane material are dissected, focusing on methods for improving surface chemistry, structure, and hydrodynamics, as well as the consequences of these characteristics on filtering performance.

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Harvesting microalgal biomass using negatively charged polysulfone patterned membranes: Influence of pattern shapes and mechanism of fouling mitigation

Cited by 33 publications

References 49 publications

Membrane Fouling in Algal Separation Processes: A Review of Influencing Factors and Mechanisms

Membrane Fouling in Algal Separation Processes: A Review of Influencing Factors and Mechanisms

Membrane-Based Harvesting Processes for Microalgae and Their Valuable-Related Molecules: A Review

Fouling Mitigation by Surface‐Patterned Polymeric Membranes in Water Treatment: A Review of Recent Advancements in Fabrication Techniques

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