Inactivation of Amphidinium sp. in ballast waters using UV/Ag-TiO 2+O 3 advanced oxidation treatment

Donghai Wu; Hong You; Ran Zhang; Chuan Chen; Duu-Jong Lee

doi:10.1016/j.biortech.2011.07.043

Inactivation of Amphidinium sp. in ballast waters using UV/Ag-TiO ₂+O ₃ advanced oxidation treatment

Donghai Wu, Hong You, Ran Zhang, Chuan Chen, Duu-Jong Lee

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

25 Citations (Scopus)

Abstract

Ballast water poses a biological threat to the world's waterways by transferring aquatic species from one body of water to another. This study investigates the use of combined ultraviolet (UV)/Ag-TiO ₂+ozone (O ₃) processes for treating ballast water using Amphidinium sp. as an indicator microorganism. Sufficient Amphidinium sp. cells in ballast waters can be inactivated using O ₃ alone, UV irradiation alone (with or without an Ag-TiO ₂ coating), and combined treatments. For the low inactivation ratio (<40%) regime, the effects of ozonation and photocatalysis were observed to be cumulative. The combined UV/Ag-TiO ₂+O ₃ treatment produced excess hydroxyl radicals and total residual oxidants (TROs), and readily damaged cell membranes to release intracellular substances. The comparison tests revealed that the combined treatments synergistically inactivate Escherichia coli in ballast waters. However, the combined process did not synergistically inactivate Amphidinium sp. cells. Inactivating different aqua species in ballast waters needs distinct treatment methods and dosages. © 2011 Elsevier Ltd.

Original language	English
Pages (from-to)	9838-9842
Journal	Bioresource Technology
Volume	102
Issue number	21
DOIs	https://doi.org/10.1016/j.biortech.2011.07.043
Publication status	Published - Nov 2011
Externally published	Yes

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Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

Research Keywords

Amphidinium sp.
Ballast water
Inactivation
UV/Ag-TiO 2+O 3 process

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title = "Inactivation of Amphidinium sp. in ballast waters using UV/Ag-TiO 2+O 3 advanced oxidation treatment",

abstract = "Ballast water poses a biological threat to the world's waterways by transferring aquatic species from one body of water to another. This study investigates the use of combined ultraviolet (UV)/Ag-TiO 2+ozone (O 3) processes for treating ballast water using Amphidinium sp. as an indicator microorganism. Sufficient Amphidinium sp. cells in ballast waters can be inactivated using O 3 alone, UV irradiation alone (with or without an Ag-TiO 2 coating), and combined treatments. For the low inactivation ratio (<40%) regime, the effects of ozonation and photocatalysis were observed to be cumulative. The combined UV/Ag-TiO 2+O 3 treatment produced excess hydroxyl radicals and total residual oxidants (TROs), and readily damaged cell membranes to release intracellular substances. The comparison tests revealed that the combined treatments synergistically inactivate Escherichia coli in ballast waters. However, the combined process did not synergistically inactivate Amphidinium sp. cells. Inactivating different aqua species in ballast waters needs distinct treatment methods and dosages. {\textcopyright} 2011 Elsevier Ltd.",

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T1 - Inactivation of Amphidinium sp. in ballast waters using UV/Ag-TiO 2+O 3 advanced oxidation treatment

AU - Wu, Donghai

AU - You, Hong

AU - Zhang, Ran

AU - Chen, Chuan

AU - Lee, Duu-Jong

N1 - Publication details (e.g. title, author(s), publication statuses and dates) are captured on an “AS IS” and “AS AVAILABLE” basis at the time of record harvesting from the data source. Suggestions for further amendments or supplementary information can be sent to [email protected].

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N2 - Ballast water poses a biological threat to the world's waterways by transferring aquatic species from one body of water to another. This study investigates the use of combined ultraviolet (UV)/Ag-TiO 2+ozone (O 3) processes for treating ballast water using Amphidinium sp. as an indicator microorganism. Sufficient Amphidinium sp. cells in ballast waters can be inactivated using O 3 alone, UV irradiation alone (with or without an Ag-TiO 2 coating), and combined treatments. For the low inactivation ratio (<40%) regime, the effects of ozonation and photocatalysis were observed to be cumulative. The combined UV/Ag-TiO 2+O 3 treatment produced excess hydroxyl radicals and total residual oxidants (TROs), and readily damaged cell membranes to release intracellular substances. The comparison tests revealed that the combined treatments synergistically inactivate Escherichia coli in ballast waters. However, the combined process did not synergistically inactivate Amphidinium sp. cells. Inactivating different aqua species in ballast waters needs distinct treatment methods and dosages. © 2011 Elsevier Ltd.

AB - Ballast water poses a biological threat to the world's waterways by transferring aquatic species from one body of water to another. This study investigates the use of combined ultraviolet (UV)/Ag-TiO 2+ozone (O 3) processes for treating ballast water using Amphidinium sp. as an indicator microorganism. Sufficient Amphidinium sp. cells in ballast waters can be inactivated using O 3 alone, UV irradiation alone (with or without an Ag-TiO 2 coating), and combined treatments. For the low inactivation ratio (<40%) regime, the effects of ozonation and photocatalysis were observed to be cumulative. The combined UV/Ag-TiO 2+O 3 treatment produced excess hydroxyl radicals and total residual oxidants (TROs), and readily damaged cell membranes to release intracellular substances. The comparison tests revealed that the combined treatments synergistically inactivate Escherichia coli in ballast waters. However, the combined process did not synergistically inactivate Amphidinium sp. cells. Inactivating different aqua species in ballast waters needs distinct treatment methods and dosages. © 2011 Elsevier Ltd.

KW - Amphidinium sp.

KW - Ballast water

KW - Inactivation

KW - UV/Ag-TiO 2+O 3 process

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