A sustainable remediation of Congo red dye using magnetic carbon nanodots and B. pseudomycoides MH229766 composite: mechanistic insight and column modelling studies

In the present investigation, a biocomposite, magnetic carbon nanodot immobilized Bacillus pseudomycoides MH229766 (MCdsIB) was developed and consequently characterized using SEM-EDX, FTIR, XRD, and VSM analyses to effectively biotreat hazardous Congo red (CR) dye present in water bodies. The adsorp...

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Veröffentlicht in:	Environmental science and pollution research international 2022-11, Vol.29 (53), p.80088-80108
Hauptverfasser:	Sinha, Surbhi, Mehrotra, Tithi, Kumar, Naveen, Solanki, Swati, Bisaria, Kavya, Singh, Rachana
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorbents Adsorption Adsorptivity Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Bacillus pseudomycoides biocomposites Biomedical materials Carbon Composite materials Congo red Congo Red - chemistry Detoxification Diffusion rate Dyes Earth and Environmental Science Ecotoxicology Environment Environmental Chemistry Environmental Health Environmental science Flow rates Flow velocity Hydrogen-Ion Concentration Kinetics Low flow Magnetic Phenomena magnetism Nano-bioremediation Approaches for Sustainable Agriculture nanotechnology Particle diffusion reaction kinetics Recyclable materials remediation sorption isotherms Sustainable remediation Waste Water Technology Wastewater Water Water Management Water Pollutants, Chemical - chemistry Water Pollution Control
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creator	Sinha, Surbhi Mehrotra, Tithi Kumar, Naveen Solanki, Swati Bisaria, Kavya Singh, Rachana
description	In the present investigation, a biocomposite, magnetic carbon nanodot immobilized Bacillus pseudomycoides MH229766 (MCdsIB) was developed and consequently characterized using SEM-EDX, FTIR, XRD, and VSM analyses to effectively biotreat hazardous Congo red (CR) dye present in water bodies. The adsorptive efficiency of MCdsIB for the detoxification of CR from wastewater was investigated both in batch and column schemes. Optimum batch parameters were found as pH 3, 50 mg L −1 dye concentration, 150 min equilibrium time, and 2 g L −1 MCdsIB dosage. The Freundlich isotherm model best fit the experimental data, and the maximum adsorption capacity of MCdsIB was observed as 149.25 mg g −1 . Kinetic data were in accordance with the pseudo-second-order model where the adsorption rate reduced with the rise in the initial concentration of dye. Intra-particle diffusion was discovered as the rate-limiting step following 120 min of the adsorption process. Furthermore, despite being used continually for five consecutive cycles, MCdsIB demonstrated excellent adsorption capacity (> 85 mg g −1 ), making it an outstanding recyclable material. The CR dye was efficiently removed in fixed-bed continuous column studies at high influent CR dye concentration, low flow rate, and high adsorbent bed height, wherein the Thomas model exhibited an excellent fit with the findings acquired in column experiments. To summarize, the current study revealed the effectiveness of MCdsIB as a propitious adsorbent for CR dye ouster from wastewater. Graphical abstract
doi_str_mv	10.1007/s11356-022-21180-3
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The CR dye was efficiently removed in fixed-bed continuous column studies at high influent CR dye concentration, low flow rate, and high adsorbent bed height, wherein the Thomas model exhibited an excellent fit with the findings acquired in column experiments. To summarize, the current study revealed the effectiveness of MCdsIB as a propitious adsorbent for CR dye ouster from wastewater. 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The adsorptive efficiency of MCdsIB for the detoxification of CR from wastewater was investigated both in batch and column schemes. Optimum batch parameters were found as pH 3, 50 mg L −1 dye concentration, 150 min equilibrium time, and 2 g L −1 MCdsIB dosage. The Freundlich isotherm model best fit the experimental data, and the maximum adsorption capacity of MCdsIB was observed as 149.25 mg g −1 . Kinetic data were in accordance with the pseudo-second-order model where the adsorption rate reduced with the rise in the initial concentration of dye. Intra-particle diffusion was discovered as the rate-limiting step following 120 min of the adsorption process. Furthermore, despite being used continually for five consecutive cycles, MCdsIB demonstrated excellent adsorption capacity (> 85 mg g −1 ), making it an outstanding recyclable material. 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subjects	Adsorbents Adsorption Adsorptivity Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Bacillus pseudomycoides biocomposites Biomedical materials Carbon Composite materials Congo red Congo Red - chemistry Detoxification Diffusion rate Dyes Earth and Environmental Science Ecotoxicology Environment Environmental Chemistry Environmental Health Environmental science Flow rates Flow velocity Hydrogen-Ion Concentration Kinetics Low flow Magnetic Phenomena magnetism Nano-bioremediation Approaches for Sustainable Agriculture nanotechnology Particle diffusion reaction kinetics Recyclable materials remediation sorption isotherms Sustainable remediation Waste Water Technology Wastewater Water Water Management Water Pollutants, Chemical - chemistry Water Pollution Control
title	A sustainable remediation of Congo red dye using magnetic carbon nanodots and B. pseudomycoides MH229766 composite: mechanistic insight and column modelling studies
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