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Hydroxyapatite precipitation and accumulation in granules and its effects on activity and stability of partial nitrifying granules at moderate and high temperatures

Hydroxyapatite precipitation and accumulation in granules and its effects on activity and stability of partial nitrifying granules at moderate and high temperatures
Hydroxyapatite precipitation and accumulation in granules and its effects on activity and stability of partial nitrifying granules at moderate and high temperatures
Precipitation and accumulation of calcium phosphate in granular sludge has attracted research attention recently for phosphate removal and recovery from wastewater. This study investigated calcium phosphate accumulation from granulation stage to steady state by forming heterotrophic granules at
different COD/N ratios at 21 and 32 ◦C, respectively, followed by the transformation of heterotrophic granules to partial nitrifying granules. It was found that mature granules accumulated around 60–80% minerals in granules, much higher than young granules with only around 30% ash contents. In addition, high temperature promoted co-precipitation of hydroxyapatite and calcite in granules with more calcite than hydroxyapatite and only 4.1% P content, while mainly hydroxyapatite was accumulated at the moderate temperature with 7.7% P content. The accumulation of minerals in granules at the high temperature with 75–80% ash content also led to the disintegration and instability of granules. Specific ammonium oxidation rates were reduced, as well, from day 58 to day 121 at both temperatures due to increased mineral contents. These results are meaningful to control or manipulate granular sludge for
phosphorus removal and recovery by forming and accumulating hydroxyapatite in granules, as well as for the maintenance of microbial activities of granules.
Calcite, Hydroxyapatite, Microbial activity, Nitrifying granules, Phosphorus removal and recovery, Stability
2227-9717
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Cinquepalmi, Simone
520b7fae-84b8-48bc-8ee2-e304518bfa1f
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Cinquepalmi, Simone
520b7fae-84b8-48bc-8ee2-e304518bfa1f

Liu, Yongqiang and Cinquepalmi, Simone (2021) Hydroxyapatite precipitation and accumulation in granules and its effects on activity and stability of partial nitrifying granules at moderate and high temperatures. Processes, 9 (10), [1710]. (doi:10.3390/pr9101710).

Record type: Article

Abstract

Precipitation and accumulation of calcium phosphate in granular sludge has attracted research attention recently for phosphate removal and recovery from wastewater. This study investigated calcium phosphate accumulation from granulation stage to steady state by forming heterotrophic granules at
different COD/N ratios at 21 and 32 ◦C, respectively, followed by the transformation of heterotrophic granules to partial nitrifying granules. It was found that mature granules accumulated around 60–80% minerals in granules, much higher than young granules with only around 30% ash contents. In addition, high temperature promoted co-precipitation of hydroxyapatite and calcite in granules with more calcite than hydroxyapatite and only 4.1% P content, while mainly hydroxyapatite was accumulated at the moderate temperature with 7.7% P content. The accumulation of minerals in granules at the high temperature with 75–80% ash content also led to the disintegration and instability of granules. Specific ammonium oxidation rates were reduced, as well, from day 58 to day 121 at both temperatures due to increased mineral contents. These results are meaningful to control or manipulate granular sludge for
phosphorus removal and recovery by forming and accumulating hydroxyapatite in granules, as well as for the maintenance of microbial activities of granules.

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Accepted/In Press date: 15 September 2021
Published date: 24 September 2021
Additional Information: Funding Information: This research received no external funding, and the APC was funded by EBNet, BBSRC, UK. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
Keywords: Calcite, Hydroxyapatite, Microbial activity, Nitrifying granules, Phosphorus removal and recovery, Stability

Identifiers

Local EPrints ID: 451538
URI: http://eprints.soton.ac.uk/id/eprint/451538
DOI: doi:10.3390/pr9101710
ISSN: 2227-9717
PURE UUID: a29c4ca9-311b-4108-8777-83308918443b
ORCID for Yongqiang Liu: ORCID iD orcid.org/0000-0001-9688-1786

Catalogue record

Date deposited: 06 Oct 2021 16:45
Last modified: 17 Mar 2024 03:32

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Author: Yongqiang Liu ORCID iD
Author: Simone Cinquepalmi

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