2018
DOI: 10.3390/app8112295
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Adsorption of Nonylphenol to Multi-Walled Carbon Nanotubes: Kinetics and Isotherm Study

Abstract: We explored the occurrence and distribution of nonylphenol (NP) in 13 Taiwanese source waters. From all the surveyed waters, NP was detected at a high concentration, which could be attributed to contamination by wastewater discharges. In this study, we applied modified multi-walled carbon nanotubes (MWCNTs) for removing NP from aqueous solution. The impact of a few experimental factors, i.e., pH, contact time, MWCNTs dose, and temperature on the NP removal efficiency of modified MWCNTs was studied. The maximum… Show more

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Cited by 19 publications
(11 citation statements)
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“…In order to improve the removal efficiency for the hardly removable compounds, various adsorbents are being developed and applied. For example, porous materials synthesized with nano-carbon tubes or biochar have been applied to remove trace pharmaceuticals and dues from water [66,67]; the results were very promising, so it was expected that pharmaceutical-free water can be discharged if these adsorption technologies are properly designed and applied to remove residual pharmaceuticals after a biological process in an STP. However, still trace pharmaceuticals could be detected even after an adsorption process is applied after a biological one.…”
Section: Removal Of Pharmaceuticals In Tertiary Treatment Processesmentioning
confidence: 99%
“…In order to improve the removal efficiency for the hardly removable compounds, various adsorbents are being developed and applied. For example, porous materials synthesized with nano-carbon tubes or biochar have been applied to remove trace pharmaceuticals and dues from water [66,67]; the results were very promising, so it was expected that pharmaceutical-free water can be discharged if these adsorption technologies are properly designed and applied to remove residual pharmaceuticals after a biological process in an STP. However, still trace pharmaceuticals could be detected even after an adsorption process is applied after a biological one.…”
Section: Removal Of Pharmaceuticals In Tertiary Treatment Processesmentioning
confidence: 99%
“…MWCNTs are also being successfully explored in environmental applications, such as for water quality control and treatment. Two interesting reports [9,10] are included in this Special Issue, both of which are related to the use of MWCNTs as adsorbents of contaminants, namely nonylphenol [9] and organochlorine pesticides [10] from source waters and agricultural irrigation water samples, respectively. The contributing authors [9,10] characterized the main operational parameters and the type of adsorption demonstrating the applicability of MWCNTs for the removal and extraction of contaminants from water samples.…”
Section: Adsorptionmentioning
confidence: 99%
“…Application of conventional methods (electrochemical treatment, precipitation, reduction, membrane separation and so on) in the treatment of water with metal ions has some drawbacks (secondary pollution, high cost of operation and low efficiency), and adsorption onto suspended particle has shown to be cost-effective and efficient method (Fiyadh et al 2019;He et al 2019). Different adsorbents, including clay (Yin et al 2018), carbon nanotubes (Dai et al 2018), nano-TiO 2 / cellulose composites (Zhang et al 2016) and activated carbon (Kyzas and Mitropoulos 2018), are well exploited in Pb ions removal in water. Activated carbon, among various adsorbent, is a well-developed porous material with an excellent performance, and immense process applications (Ahmed et al 2019) are widely utilized alone or alongside other materials for the treatment of lead in water (Kumar et al 2019).…”
Section: Introductionmentioning
confidence: 99%