Enhancement of Coagulation Process with Floatation for the Treatment of Dyeing Wastewater
p.2536
p.2536
Experimental Study on Enhancing Slurry Dewatering Efficiency of the Carbide Slag Flue Gas Desulfurization Device
p.2542
p.2542
Laboratory Tests on Hydraulic Properties of Municipal Solid Waste
p.2547
p.2547
Preparation of Calcium Sulfate from Oil-Refining Acid Sludge by Neutralization Method
p.2553
p.2553
Preparation of β-Cyclodextrin/Chitosan Membranes and its Application in the Wastewater Treatment of Acid Dyes
p.2558
p.2558
Progress of Removing Heavy Metals by Zero Valent Iron Nanoparticles from Wastewater
p.2563
p.2563
Rapidly Start-Up and Performance of the EGSB Reactor Treating Actual Coking Wastewater when Seeded with Digestion Sludge
p.2567
p.2567
Removal of NH3-N from Wastewater Solid Propellant Production by Chemical Precipitation
p.2572
p.2572
Research Progress of Sewage Treatment Technology
p.2576
p.2576
Preparation of β-Cyclodextrin/Chitosan Membranes and its Application in the Wastewater Treatment of Acid Dyes
Abstract:
In this study a new and environmental biopolymer membrane has been synthesized by incorporating β-cyclodextrin polymers as the reagent and using vinyltriethoxysilane (JH-V151) as crosslinking agent. The FT-TR and SEM were used to characterize the functional groups, morphology and pore-size. The results indicated that the prepared membranes exhibited relatively large pores, and the average pore size was 5μm. The study of adsorption behavior demonstrated that the prepared membranes could be considered as an efficient adsorbent for the removal of acid dyes from the wastewater.
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Info:
Periodical:
Advanced Materials Research (Volumes 726-731)
Pages:
2558-2562
Citation:
Online since:
August 2013
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