Study of Device via Combined Filler for Ship Sewage Treatment

Zhi Li Chen; Guan Chun Chen; Kai Sheng Xiong; Wen Biao Wang; Wei Ping Gu; Wan Tu Zhang

doi:10.4028/www.scientific.net/AMR.455-456.1330

Paper Titles

Effects of Herbaceous Plants on Hydrodynamic Characters of Runoff Water, and Runoff-Yielding and Sediment-Yielding Processes on Loessial Earth-Road Surface
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Soil Heavy Metal Concentrations and Leaf Accumulation in Four Subtropical Plant Species from South China
p.1310

A Multifunctional Drilling Fluid for Coalbed Methane Drilling
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Comparing the Influence of Two Different Natural Organic Matter Types on Colloid Deposition in Saturated Porous Medium
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Study of Device via Combined Filler for Ship Sewage Treatment
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Impact of CuO NPs to Alga Microcystis Aeruginosa: Effect of Dissolved Organic Matter
p.1334

Photodegradation of p-Nitrophenol Catalyzed by ZnO/MWCNTs Composite Catalyst in Water
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Sulfur Isotope Geochemistry of Sn–Polymetallic Depositsin Dafulou District of Guangxi Province, China
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Geological Characteristics of the Dafulou Tin–Polymetallic Sulfide Deposits in Guangxi, South China
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 455-456Study of Device via Combined Filler for Ship...

Study of Device via Combined Filler for Ship Sewage Treatment

Abstract:

Based on the development of elastic flexible filler, a new device for ship sewage treatment which utilizes the new elastic flexible filler was designed. The Main factors influencing the disposal efficiency of the device were researched and analyzed, using an Simulative ship sewage as raw wastewater. The experimental results reflected that the biofilm grew faster under the condition that the surface area of the elastic flexible filler was larger. The relationships among the microorganism growth period, characteristics of elastic flexible filler, biofilm thickness and characteristics of ship sewage were presented. Other factors which influenced the disposal effect were also discussed. The results showed that the device had excellent performance because of effective elastic flexible filler and integrative design.

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Periodical:

Advanced Materials Research (Volumes 455-456)

Pages:

1330-1333

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.455-456.1330

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Online since:

January 2012

Authors:

Zhi Li Chen, Guan Chun Chen, Kai Sheng Xiong, Wen Biao Wang, Wei Ping Gu, Wan Tu Zhang

Keywords:

Biofilm, Elastic Flexible Filler, Integrated Device, Ship Sewage Treatment

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