The Fosfomycin Degradation by Hydrolysis Acidification-Biological Contact Oxidation and Microbial Community Analysis

Ping Zeng; Xiao Lin Xie; Yong Hiu Song; Chao Wei Zhu; Wen Ming Li; Nicolas Lesage

doi:10.4028/www.scientific.net/AMR.807-809.1129

Paper Titles

Research on Sewage Marine Discharge Effect in Cao Fei-Dian Port
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The Ecological Design of Drainage System of Yangshuo Town
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A New Energy-Saving Device’s Introduction & Exploration in the Treatment of Coking Wastewater
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Research on the Application of Fly Ash in High Water Filling Material
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The Fosfomycin Degradation by Hydrolysis Acidification-Biological Contact Oxidation and Microbial Community Analysis
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Treatment of Pulping Wastewater by Aerobic Granular Sludge Reinforceed with Mixed-Culture Community
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Mechanical Properties of Fly Ash-Slag-Dredged Silt System Stimulated by Alkali
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The Hydraulic Characteristics of Inner Loop Biological Fluidized Bed Set Ring-Type Baffle
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Experimental Study on the Disposal of Polymer Flooding Produced Water of Oilfield by Microwave Radiation
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 807-809The Fosfomycin Degradation by Hydrolysis...

The Fosfomycin Degradation by Hydrolysis Acidification-Biological Contact Oxidation and Microbial Community Analysis

Abstract:

The lab scale biological fosfomycin degradation by hydrolysis acidification-contact oxidation combined process was studied. And the microbial communities in hydrolysis acidification-contact oxidation combined process were analyzed. The results showed that the organic phosphorus was well degraded by hydrolysis acidification-contact oxidation combined process when organic phosphorus concentration in the influent was lower than 10 mg/l. The combined process could endure the loading with the influent organic phosphorus concentration between 10-20 mg/l. The community analysis showed that most of the phosphorus removal bacteria and antibiotics resistance bacteria were discovered in contact oxidation.

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Periodical:

Advanced Materials Research (Volumes 807-809)

Pages:

1129-1134

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.807-809.1129

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Online since:

September 2013

Authors:

Ping Zeng, Xiao Lin Xie, Yong Hiu Song, Chao Wei Zhu, Wen Ming Li, Nicolas Lesage

Keywords:

Contact Oxidation, Fosfomycin, Hydrolysis Acidification, Pharmaceutical Wastewater

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