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Showing 2 results for Sodium Dodecyl Sulfate
Application of Magnetic Multiwall Carbon Nanotubes for the Removal of Sodium Dodecyl Sulfate (SDS) from Aqueous Solutions: Isotherm and Kinetic Studies
Z Rahmani, M Harati, Mr Rahmani, Y Poureshgh, Mt Samadi,
Volume 9, Issue 2 (9-2016)
Abstract

Background and Objective: Surfactants can be found in soaps, detergents, pharmaceutical products, personal care products, as well as in leather industries. In this study, adsorption of Sodium Dodecyl Sulfate (SDS) on magnetic multi-walled carbon nanotubes in the aqueous solutions was investigated.

Materials and methods: Surfactant concentration, adsorbent dosage, and pH values were considered as variables. Residual surfactant was measured using methylene blue method and adsorbent characteristic was determined by X-Ray diffraction and Fourier transform infrared spectroscopic analysis. Adsorption capacity, adsorption isotherm, and kinetic reaction were also investigated.

Results: Adsorption investigations demonstrated that the increase in initial SDS concentration or pH values, led to the decrease in SDS adsorption. Conversely, the same result was achieved by decreasing adsorbent dosage. After 120 min SDS adsorption became stable. By increasing in SDS concentration from 15 to 150 mg/L, adsorption capacity improved from 8 to 61 mg/g. Isotherm and kinetic data demonstrated that experimental data pursued Langmuir isotherm (R2=0.993) and pseudo-second order equation (R2=0.992).

Conclusion: Magnetic multiwall carbon nanotubes can be used as an effective and useful sorbent for SDS removal due to several advantages including: high adsorption capacity, relatively low equilibrium time, and easy separation of magnetic multiwall carbon nanotubes from aqueous solutions.


The investigation of biological degradation of sodium dodecyl sulfate and its associated COD in wastewater using anoxic baffled reactor
Samira Mojab, Seyed Gholamreza Moussavi, Sakine Shekoohiyan,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: This study investigated the efficiency of an anoxic baffled reactor (AnBR) system for the biological treatment of synthetic wastewater containing sodium dodecyl sulfate (SDS) as a representative anionic surfactant, with the goal of enabling safe discharge into the environment.
Materials and Methods: The research aimed to examine the effects of SDS concentration as a substrate, hydraulic retention time (HRT), and the type of electron acceptor (nitrate or organic materials) in the AnBR reactor. Daily measurements of influent and effluent wastewater were conducted to assess surfactant, chemical oxygen demand (COD), and nitrate levels.
Results: The average COD removal efficiencies at SDS concentrations of 200, 250, 350, and 500 mg/L were 99.6%, 99.8%, 99.6%, and 99.3%, respectively, under steady-state conditions. The SDS removal efficiency for all concentrations was 99.8 ± 0.2%. As the HRT decreased from 24 to 4 hours, the COD removal efficiency dropped from 99.4% to 90.9%. At an SDS concentration of 250 mg/L and an HRT of 4 hours, the effluent SDS concentration was 11 mg/L, which meets the discharge standards for surface water (1.5 mg/L). The removal of nitrate from the influent indicated a significant decrease in system efficiency, demonstrating that nitrate was consumed as an electron acceptor and SDS was degraded under anoxic conditions. PCR testing revealed that Bacillus species were the dominant bacteria in the AnBR.
Conclusion: Given the high removal efficiencies of SDS and COD, this process can be recommended for the degradation of anionic surfactants in wastewater from industries producing such pollutants.
 

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