Continuous adsorption of natural organic matters in a column packed with carbon nanotubes

Naghizadeh, Ali; Nasseri, Simin; Mahvi, Amir Hossein; Nabizadeh, Ramin; Kalantary, Roshanak Rezaei; Rashidi, Alimorad

doi:10.1186/2052-336x-11-14

Cited by 25 publications

(17 citation statements)

References 20 publications

(18 reference statements)

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“…Humic acids account for 60-90% of natural organic compounds in water (1)(2)(3). They are not toxic in nature, but create secondary problems in water treatment, such as change of color, taste, and odor, increased erosion of pipe structures, increased movement of heavy metals, and decreased efficiency of water treatment processes (4,5).…”

Section: Introductionmentioning

confidence: 99%

Study of Ultrasonic Regeneration and Adsorption of Humic Acid on Activated Carbon

2018

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Background: Humic acid is a trihalomethane component in water supplies, causing various health disorders in humans. Objectives: This study was performed to examine humic acid adsorption on saturated activated carbon and to evaluate adsorbent regeneration through ultrasonic processes. Methods: In the present study, effects of various parameters, including initial concentration of humic acid, pH, contact time, adsorbent dose, and temperature, on the adsorption stage were investigated. Also, effects of different parameters, such as regeneration time, pH, and number of saturation-regeneration cycles, were studied in the regeneration stage. Results: The highest percentage of humic acid removal was reported at pH of three and initial humic acid concentration of 10 mg/L. The highest adsorption capacity of activated carbon was 29.7 mg/g at adsorbent dosage of 0.1 g/L and contact time of 10 minutes. The results of thermodynamic experiments showed that removal of humic acid by saturated activated carbon was endothermic. Also, maximum regeneration occurred at pH of 11 and contact time of 60 minutes. Finally, the adsorption capacity of saturated activated carbon changed from 42.94 to 42.14 mg/g after five cycles of saturation and regeneration. Conclusions:The results of this study showed that activated carbon is an effective adsorbent in the removal of humic acid from water. Also, the ultrasonic process is effective in regeneration of activated carbon, saturated with humic acid.

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Section: Introductionmentioning

confidence: 99%

Study of Ultrasonic Regeneration and Adsorption of Humic Acid on Activated Carbon

2018

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“…There are ample treatment technologies for sewage, distillery effluents and so on, which contain biodegradable organics, but not so much for toxic effluents containing xenobiotic compounds, which are often non-biodegradable or only partially biodegradable. Biological treatment though promises much in this regard is handicapped by its slow oxidation characteristics and incomplete mineralization of toxic chemicals [1–5]. …”

Section: Introductionmentioning

confidence: 99%

A novel technique for detoxification of phenol from wastewater: Nanoparticle Assisted Nano Filtration (NANF)

Naidu

Saravanan

Goel

et al. 2016

J Environ Health Sci Engineer

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BackgroundPhenol is one of the most versatile and important organic compound. It is also a growing concern as water pollutants due to its high persistence and toxicity. Removal of Phenol from wastewaters was investigated using a novel nanoparticle adsorption and nanofiltration technique named as Nanoparticle Assisted Nano Filtration (NANF).MethodsThe nanoparticle used for NANF study were silver nanoparticles and synthesized to three distinct average particle sizes of 10 nm, 40 nm and 70 nm. The effect of nanoparticle size, their concentrations and their tri and diparticle combinations upon phenol removal were studied.ResultsTotal surface areas (TSA) for various particle size and concentrations have been calculated and the highest was 4710 × 1012 nm2 for 10 nm particles and 180 ppm concentration while the lowest was for 2461 × 1011 for 70 nm and 60 ppm concentrations. Tri and diparticle studies showed more phenol removal % than that of their individual particles, particularly for using small particles on large membrane pore size and large particles at low concentrations. These results have also been confirmed with COD and toxicity removal studies.ConclusionsThe combination of nanoparticles adsorption and nanofiltration results in high phenol removal and mineralization, leading to the conclusion that NANF has very high potential for treating toxic chemical wastewaters.

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“…3 Opportunities exist for enhanced adsorption using advanced nanostructures to increase the number of binding sites to enable interactions with more chemicals. 15,16 Fixed-bed techniques are desirable not only because they can provide immediate on-demand removal of contaminants directly at a water supply, but also because they have the potential to enhance the capacity of adsorbent materials to hold contaminants. 7 The attributes of these nanostructures have been widely exploited in batch processes for the removal of diverse contaminants from aqueous environments, with reported uptake capacities being signicantly higher than activated carbon (AC), the most widely used adsorbent to date.…”

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confidence: 99%

“…Table 2. 15,16,31 Increasing the feed concentration corresponds to increase in the concentration gradient which reduces the time required to reach breakthrough and exhaustion (Table 2) regardless of the type of adsorbent used to pack the column. 3 shows that while all breakthrough curves have a similar "S" shape, adsorption is affected by changes in initial concentration.…”

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confidence: 99%

Fixed bed adsorption of diquat dibromide from aqueous solution using carbon nanotubes

2015

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While carbon nanotubes (CNTs) are increasingly studied as attractive adsorbents for wastewater treatments, research on adsorption characteristics of these materials is mostly restricted to batch studies. However, it is well known that continuous flow techniques can be more efficient in removing contaminants. The present work exploits the attributes of different types of CNTs in a fixed bed column for the dynamic uptake of diquat dibromide from aqueous solutions.

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Continuous adsorption of natural organic matters in a column packed with carbon nanotubes

Cited by 25 publications

References 20 publications

Study of Ultrasonic Regeneration and Adsorption of Humic Acid on Activated Carbon

Study of Ultrasonic Regeneration and Adsorption of Humic Acid on Activated Carbon

A novel technique for detoxification of phenol from wastewater: Nanoparticle Assisted Nano Filtration (NANF)

Fixed bed adsorption of diquat dibromide from aqueous solution using carbon nanotubes

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