J
Johanna M. Haavisto
Researcher at Tampere University of Technology
Publications - 7
Citations - 254
Johanna M. Haavisto is an academic researcher from Tampere University of Technology. The author has contributed to research in topics: Microbial fuel cell & Anode. The author has an hindex of 5, co-authored 7 publications receiving 181 citations.
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Journal ArticleDOI
Microbial electrochemical technologies with the perspective of harnessing bioenergy: Maneuvering towards upscaling
Sai Kishore Butti,G. Velvizhi,Mira L.K. Sulonen,Johanna M. Haavisto,Emre Oguz Koroglu,Afsin Y. Cetinkaya,Surya Prakash Singh,Divyanshu Arya,J. Annie Modestra,K. Vamsi Krishna,Anil Kumar Verma,Bestami Ozkaya,Aino-Maija Lakaniemi,Jaakko A. Puhakka,S. Venkata Mohan +14 more
TL;DR: In this article, a review of the challenges and strategies to improve the performance of bio-electrocatalyzed systems with respect to the operational, physico-chemical and biological factors is presented.
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Effects of anode materials on electricity production from xylose and treatability of TMP wastewater in an up-flow microbial fuel cell
Johanna M. Haavisto,Paolo Dessì,Pritha Chatterjee,Mari Honkanen,Tabish Noori,Marika Kokko,Aino-Maija Lakaniemi,Piet N.L. Lens,Jaakko A. Puhakka +8 more
TL;DR: In this paper, an optimal anode material for electricity production and COD removal from xylose containing synthetic wastewater in an up-flow microbial fuel cell (MFC), and assess its suitability for treatment of TMP wastewater with an enrichment culture at 37°C.
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Effect of hydraulic retention time on continuous electricity production from xylose in up-flow microbial fuel cell
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Composition and role of the attached and planktonic microbial communities in mesophilic and thermophilic xylose-fed microbial fuel cells
Paolo Dessì,Estefania Porca,Johanna M. Haavisto,Aino-Maija Lakaniemi,Gavin Collins,Piet N.L. Lens,Piet N.L. Lens +6 more
TL;DR: In this paper, a mesophilic and a thermophilic two-chamber microbial fuel cell (MFC) were compared for their power production from xylose and the microbial communities involved.
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Storing of exoelectrogenic anolyte for efficient microbial fuel cell recovery
TL;DR: The results indicate that fermentative organisms tolerated the long storage better than the exoelectrogens, and anolyte storage at +4°C for a maximum of 1 month is recommended as start-up seed for MFC after process failure to enable efficient process recovery.