Bioaccumulation of metals and granular sludge development in a newly-inoculated high rate anaerobic reactor

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Graham Cuff
  • Ariel E. Turcios
  • Ehsan Mohammad-pajooh
  • Olaf Kujawski
  • Dirk Weichgrebe
  • Karl Heinz Rosenwinkel

Organisationseinheiten

Externe Organisationen

  • Aqua Consult Ingenieur GmbH
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Details

OriginalspracheEnglisch
Seiten (von - bis)119-126
Seitenumfang8
FachzeitschriftBioresource Technology Reports
Jahrgang3
Frühes Online-Datum11 Aug. 2018
PublikationsstatusVeröffentlicht - Sept. 2018

Abstract

For treatment of wastewater from soft drink production, a full scale (546 m3) expanded granular sludge bed (EGSB) reactor was inoculated with granular sludge previously used to treat wastewater from paper and food processing industries. During startup and subsequent phases, there were significant changes observed in granule composition, performance, and population distribution. Microbial, compositional and functional development of granular sludge during a six month time period immediately following inoculation was investigated. Reaction kinetics and fluorescence in situ hybridization (FISH) analysis were used to describe population dynamics and evolution of methanogens and fermentative microbes within the granules. Bioaccumulation of elements was quantified and analyzed statistically with respect to operational parameters; calcium and sulfate deficiencies in the new wastewater likely contributed to granule disintegration and eventual reactor failure. Second generation granules formed from the novel conditions exhibited characteristics from multiple granulation models.

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Ziele für nachhaltige Entwicklung

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Bioaccumulation of metals and granular sludge development in a newly-inoculated high rate anaerobic reactor. / Cuff, Graham; Turcios, Ariel E.; Mohammad-pajooh, Ehsan et al.
in: Bioresource Technology Reports, Jahrgang 3, 09.2018, S. 119-126.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Cuff, G, Turcios, AE, Mohammad-pajooh, E, Kujawski, O, Weichgrebe, D & Rosenwinkel, KH 2018, 'Bioaccumulation of metals and granular sludge development in a newly-inoculated high rate anaerobic reactor', Bioresource Technology Reports, Jg. 3, S. 119-126. https://doi.org/10.1016/j.biteb.2018.07.012
Cuff, G., Turcios, A. E., Mohammad-pajooh, E., Kujawski, O., Weichgrebe, D., & Rosenwinkel, K. H. (2018). Bioaccumulation of metals and granular sludge development in a newly-inoculated high rate anaerobic reactor. Bioresource Technology Reports, 3, 119-126. https://doi.org/10.1016/j.biteb.2018.07.012
Cuff G, Turcios AE, Mohammad-pajooh E, Kujawski O, Weichgrebe D, Rosenwinkel KH. Bioaccumulation of metals and granular sludge development in a newly-inoculated high rate anaerobic reactor. Bioresource Technology Reports. 2018 Sep;3:119-126. Epub 2018 Aug 11. doi: 10.1016/j.biteb.2018.07.012
Cuff, Graham ; Turcios, Ariel E. ; Mohammad-pajooh, Ehsan et al. / Bioaccumulation of metals and granular sludge development in a newly-inoculated high rate anaerobic reactor. in: Bioresource Technology Reports. 2018 ; Jahrgang 3. S. 119-126.
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abstract = "For treatment of wastewater from soft drink production, a full scale (546 m3) expanded granular sludge bed (EGSB) reactor was inoculated with granular sludge previously used to treat wastewater from paper and food processing industries. During startup and subsequent phases, there were significant changes observed in granule composition, performance, and population distribution. Microbial, compositional and functional development of granular sludge during a six month time period immediately following inoculation was investigated. Reaction kinetics and fluorescence in situ hybridization (FISH) analysis were used to describe population dynamics and evolution of methanogens and fermentative microbes within the granules. Bioaccumulation of elements was quantified and analyzed statistically with respect to operational parameters; calcium and sulfate deficiencies in the new wastewater likely contributed to granule disintegration and eventual reactor failure. Second generation granules formed from the novel conditions exhibited characteristics from multiple granulation models.",
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AU - Cuff, Graham

AU - Turcios, Ariel E.

AU - Mohammad-pajooh, Ehsan

AU - Kujawski, Olaf

AU - Weichgrebe, Dirk

AU - Rosenwinkel, Karl Heinz

N1 - Publisher Copyright: © 2018 Elsevier Ltd Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2018/9

Y1 - 2018/9

N2 - For treatment of wastewater from soft drink production, a full scale (546 m3) expanded granular sludge bed (EGSB) reactor was inoculated with granular sludge previously used to treat wastewater from paper and food processing industries. During startup and subsequent phases, there were significant changes observed in granule composition, performance, and population distribution. Microbial, compositional and functional development of granular sludge during a six month time period immediately following inoculation was investigated. Reaction kinetics and fluorescence in situ hybridization (FISH) analysis were used to describe population dynamics and evolution of methanogens and fermentative microbes within the granules. Bioaccumulation of elements was quantified and analyzed statistically with respect to operational parameters; calcium and sulfate deficiencies in the new wastewater likely contributed to granule disintegration and eventual reactor failure. Second generation granules formed from the novel conditions exhibited characteristics from multiple granulation models.

AB - For treatment of wastewater from soft drink production, a full scale (546 m3) expanded granular sludge bed (EGSB) reactor was inoculated with granular sludge previously used to treat wastewater from paper and food processing industries. During startup and subsequent phases, there were significant changes observed in granule composition, performance, and population distribution. Microbial, compositional and functional development of granular sludge during a six month time period immediately following inoculation was investigated. Reaction kinetics and fluorescence in situ hybridization (FISH) analysis were used to describe population dynamics and evolution of methanogens and fermentative microbes within the granules. Bioaccumulation of elements was quantified and analyzed statistically with respect to operational parameters; calcium and sulfate deficiencies in the new wastewater likely contributed to granule disintegration and eventual reactor failure. Second generation granules formed from the novel conditions exhibited characteristics from multiple granulation models.

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KW - Element analysis

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JO - Bioresource Technology Reports

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