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Synthesis Of Hydroxyapatite/Multi-walled Carbon Nanotubes For The Removal Of Fluoride

Posted on:2018-07-14Degree:MasterType:Thesis
Country:ChinaCandidate:Z Y RuanFull Text:PDF
GTID:2321330533457990Subject:chemical engineering and Technology
Abstract/Summary:
Fluorine,a non-metallic element,that is an essential trace element for humans.However,high concentration of fluoride in drinking water can be potentially harmful to human health.There have been many reports describing how natural waters in many locations in a number of countries contain fluorine concentrations that exceed the WHO recommended standard of about 1.5 mg L-1.Therefore,considering the current conditions,concerns about human health and environmental quality now demand expanded study of treatment technologies for removing excess fluoride from wastewaters.In recent years,a lot of technologies have been used for fluoride removal: chemical precipitation,adsorption,membrane and ion exchange.Of all these technologies,the adsorption method has the advantages of stable effluent,simple process flow and economy,and is especially suitable for the removal of fluoride.A novel composite material,hydroxyapatite(HA)-multi-walled carbon nanotubes(MWCNTs),was prepared using a simple in-situ sol-gel method,and was used for the first time to remove fluoride from water.The novel HA-MWCNTs were characterized using TEM,FT-IR,BET and XRD analysis.The TEM and SAED results revealed that the MWCNTs were uniformly encapsulated by hydroxyapatite nanoparticles.The synthesized HA-MWCNTs had a high specific surface area(180.504 m2 g-1),with an average pore width(14.607 nm)and pore volume(0.774 cm3 g-1),which produced a defluoridation capacity(DC)of 30.22 mg g-1.This value was greater than unmodified hydroxyapatite(HA),which exhibited a larger specific surface area(172.233 m2 g-1)and an excellent DC of 17.80 mg g-1.A number of pertinent parameters that could affect the defluoridation performance of the HA/MWCNTs including weight ratios of the two key materials,solution pH and competing anions were carefully and comprehensively examined.It was found that the adsorption results followed the Langmuir and Freundlich isotherm model,and the sorption kinetics of the F-appeared to exhibit a pseudo second order.Moreover,the adsorption reaction was spontaneous and endothermic and appeared to exhibit a higher initial adsorption rate.This reaction appeared to occur result from both anion exchange and electrostatic interactions.When the HA-MWCNTs(MH6)were at an adsorbent dose of 2.0 g L-1,they were able to decrease the fluoride concentration of actual nuclear industry wastewater from 8.79 mg L-1 to about 0.25 mg L-1(97.15% removal efficiency).The experimental results of this study showed that the HA-MWCNTs composites have application potential for the removal of fluoride ions from wastewater.
Keywords/Search Tags:HA-MWCNTs, fluoride, adsorption, removal
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