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Experimental Design Technique on Removal of Hydrogen Sulfide using CaO-eggshells Dispersed onto Palm Kernel Shell Activated Carbon:Experiment,Optimization,Equilibrium and Kinetic Studies
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作者 OMAR Abed Habecb RAMESH Kanthasamy +1 位作者 GOMAA A. M. Ali ROSLI bin Mohd Yunus 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2017年第2期305-320,共16页
This study presents the use of chicken eggshells waste utilizing palm kernel shell based activated carbon(PKSAC) through the modification of their surface to enhance the adsorption capacity of H2S. Response surface ... This study presents the use of chicken eggshells waste utilizing palm kernel shell based activated carbon(PKSAC) through the modification of their surface to enhance the adsorption capacity of H2S. Response surface methodology technique was used to optimize the process conditions and they were found to be: 500 mg/L for H2S initial concentration, 540 min for contact time and 1 g for adsorbent mass. The impacts of three arrangement factors(calcination temperature of impregnated activated carbon(IAC), the calcium solution concentration and contact time of calcination) on the H2S removal efficiency and impregnated AC yield were investigated. Both responses IAC yield(IACY, %) and removal efficiency(RE, %) were maximized to optimize the IAC preparation conditions. The optimum preparation conditions for IACY and RE were found as follows: calcination temperature of IAC of 880 ℃, calcium solution concentration of 49.3% and calcination contact time of 57.6 min, which resulted in 35.8% of IACY and 98.2% RE. In addition, the equilibrium and kinetics of the process were investigated. The adsorbent was characterized using TGA, XRD, FTIR, SEM/EDX, and BET. The maximum monolayer adsorption capacity was found to be 543.47 mg/g. The results recommended that the composite of PKSAC and Ca O could be a useful material for H2S containing wastewater treatment. 展开更多
关键词 water treatment hydrogen sulfide response surface methodology optimization activated carbon adsorption isotherm kinetics calcium oxide
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Disinfection byproduct formation from algal organic matters after ozonation or ozone combined with activated carbon treatment with subsequent chlorination 被引量:2
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作者 Qiufeng Lin Feilong Dong +1 位作者 Cong Li Junkui Cui 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2021年第6期233-241,共9页
Algal organic matter(AOM),including extracellular organic matter(EOM)and intracellular organic matter(IOM)from algal blooms,is widely accepted as essential precursors of disinfection byproducts(DBPs).This study evalua... Algal organic matter(AOM),including extracellular organic matter(EOM)and intracellular organic matter(IOM)from algal blooms,is widely accepted as essential precursors of disinfection byproducts(DBPs).This study evaluated the effect of ozonation or ozone combined with activated carbon(O_(3)-AC)treatment on characteristic alternation and DBP formation with subsequent chlorination of Chlorella sp..The effects of p H and bromide concentration on DBP formation by ozonation or O_(3)-AC treatment were also investigated.Results showed that the potential formation of DBPs might be attributed to ozonation,but these DBP precursors could be further removed by activated carbon(AC)treatment.Moreover,the formation of target DBPs was controlled at acidic pH by alleviating the reactions between chlorine and AOM.Besides,the bromide substitution factor(BSF)value of trihalomethanes(THMs)from EOM and IOM remained constant after AC treatment.However,THM precursors could be significantly decreased by AC treatment.The above results indicated that O_(3)-AC was a feasible treatment method for algal-impacted water. 展开更多
关键词 Ozone combined with activated carbon treatment Chlorella sp. Disinfection byproducts PH Bromide substitution factor
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Competitive effects of humic acid and wastewater on adsorption of Methylene Blue dye by activated carbon and non-imprinted polymers 被引量:6
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作者 Audrey Murray Banu Ormeci 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2018年第4期310-317,共8页
Natural organic matter(NOM), present in natural waters and wastewater, decreases adsorption of micropollutants, increasing treatment costs. This research investigated mechanisms of competition for non-imprinted poly... Natural organic matter(NOM), present in natural waters and wastewater, decreases adsorption of micropollutants, increasing treatment costs. This research investigated mechanisms of competition for non-imprinted polymers(NIPs) and activated carbon with humic acid and wastewater. Three different types of activated carbons(Norit PAC 200,Darco KB-M, and Darco S-51) were used for comparison with the NIP. The lower surface area and micropore to mesopore ratio of the NIP led to decreased adsorption capacity in comparison to the activated carbons. In addition, experiments were conducted for single-solute adsorption of Methylene Blue(MB) dye, simultaneous adsorption with humic acid and wastewater, and pre-loading with humic acid and wastewater followed by adsorption of MB dye using NIP and Norit PAC 200. Both the NIP and PAC 200 showed significant decreases of 27% for NIP(p = 0.087) and 29% for PAC 200(p = 0.096) during simultaneous exposure to humic acid and MB dye. There was no corresponding decrease for NIP or PAC 200 pre-loaded with humic acid and then exposed to MB. In fact, for PAC 200, the adsorption capacity of the activated carbon increased when it was pre-loaded with humic acid by 39%(p = 0.0005). For wastewater, the NIP showed no significant increase or decrease in adsorption capacity during either simultaneous exposure or pre-loading. The adsorption capacity of PAC 200 increased by 40%(p = 0.001) for simultaneous exposure to wastewater and MB. Pre-loading with wastewater had no effect on MB adsorption by PAC 200. 展开更多
关键词 Molecularly imprinted polymer Non-imprinted polymer Water treatment Wastewater treatment Activated carbon Micropollutants Pore-blocking Adsorption
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