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Clean Technologies and Environmental Policy

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01.04.2013 | Original Paper

Preparation and characterization of ferric-impregnated granular ceramics (FGCs) for phosphorus removal from aqueous solution

verfasst von: Nan Chen, Chuanping Feng, Jifu Yang, Ya Gao, Miao Li, Baogang Zhang

Erschienen in: Clean Technologies and Environmental Policy | Ausgabe 2/2013

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Abstract

In the present study, the ferric-impregnated granular ceramic (FGC) adsorbents were developed for the removal of phosphorus from aqueous solution. BET, SEM, and EDS were used to characterize the physical and chemical attributes (particle size, pore size and distribution, surface roughness, and chemical composition) of FGCs. Phosphorus adsorption characteristics were studied in a static batch system with respect to changes in contact time, initial phosphorus concentration, pH of solution, and temperature. The adsorption process was observed to follow a pseudo-first-order kinetic model, taking about 36 h to attain equilibrium. Phosphorus adsorption was found to be pH dependent and the maximum removal was obtained at pH 7.0–9.0. The experimental data denoted that the Langmuir isotherm model gave a more satisfactory fit for phosphorus removal than the Freundlich isotherm model. Results suggested that the novel adsorbent of FGCs had a good potential in remediation of phosphorus removal in aqueous solutions.

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Blaney LM, Cinar S, Sengupta AK (2007) Hybrid anion exchanger for trace phosphate removal from water and wastewater. Water Res 41:1603–1613CrossRef

Blindow I, Hargeby A, Andersson G (2002) Seasonal changes of mechanisms maintaining clear water in a shallow lake with abundant Chara vegetation. Aquat Bot 72:315–334CrossRef

Borgnino L, Avena MJ, De Pauli CP (2009) Synthesis and characterization of Fe(III)—montmorillonites for phosphate adsorption. Colloid Surf A 341:46–52CrossRef

Boyer TH, Persaud A, Banerjee P, Palomino P (2011) Comparison of low-cost and engineered materials for phosphorus removal from organic-rich surface water. Water Res 45:4803–4814CrossRef

Chen N, Feng CP, Zhang ZY, Liu RP, Gao Y, Li M, Sugiura N (2012) Preparation and characterization of lanthanum (III) loaded granular ceramic for phosphorus from aqueous solution. J Taiwan Inst Chem Eng. doi:10.1016/j.jtice.2012.04.003

Cheng X, Huang XR, Wang XZ, Zhao BQ, Chen AY, Sun DZ (2009) Phosphate adsorption from sewage sludge filtrate using zinc-aluminum layered double hydroxides. J Hazard Mater 169:958–964CrossRef

Chitrakar R, Tezuka S, Sonoda A, Sakane K, Ooi K, Hirotsu T (2005) Adsorption of phosphate from seawater on calcined MgMn-layered double hydroxides. J Colloid Interface Sci 290:45–51CrossRef

Chutia P, Kato S, Kojima T, Satokawa S (2009) Arsenic adsorption from aqueous solution on synthetic zeolites. J Hazard Mater 162:440–447CrossRef

Das J, Patra BS, Baliarsingh N, Parida KM (2006) Adsorption of phosphate by layered double hydroxides in aqueous solutions. Appl Clay Sci 32:252–260CrossRef

De-Bashana LE, Bashan Y (2004) Recent advances in removing phosphorus from wastewater and its future use as fertilizer (1997–2003). Water Res 38:4222–4246CrossRef

Ding W, Huang X, Zhang L (2003) Removal of phosphorus from aqueous solution by lanthanum hydrate. Environ Sci 24:110–113

Freundlich HMF (1906) Über die adsorption in losungen. Z Phy Chem. 57 A: 385–470

Grzmil B, Wronkowski J (2006) Removal of phosphates and fluorides from industrial wastewater. Desalination 189:261–268CrossRef

Haghseresht F, Wang SB, Do DD (2009) A novel lanthanum-modified bentonite, Phoslock, for phosphate removal from wastewaters. Appl Clay Sci 46:369–375CrossRef

Ho YS, Mckay G (1999) Pseudo-second order model for sorption process. Process Biochem 34:451–465CrossRef

Huang W, Wang S, Zhu Z, Li L, Yao X, Rudolph V, Haghseresht F (2008) Phosphate removal from wastewater using red mud. J Hazard Mater 158:35–42CrossRef

Kuzawa K, Jung YJ, Kiso Y, Yamada T, Nagai M, Lee TG (2006) Phosphate removal and recovery with a synthetic hydrotalcite as an adsorbent. Chemosphere 62:45–52CrossRef

Lagergren S, Svenska K (1898) About the theory of so called adsorption of soluble substances. K Sven Vetenskapsad Handl 24(4):1–39

Langmuir I (1916) The constitution and fundamental properties of solids and liquids. J Am Chem Soc 38:2221–2295CrossRef

Luengo C, Brigante M, Antelo J, Avena M (2006) Kinetics of phosphate adsorption on goethite: comparing batch adsorption and ATR-IR measurements. J Colloid Interface Sci 300:511–518CrossRef

Morse GK, Brett SW, Guy JA, Lester JN (1998) Review: phosphorus removal and recovery technologies. Sci Total Environ 212:69–81CrossRef

Nowack B, Stone AT (2006) Competitive adsorption of phosphate and phosphonates onto goethite. Water Res 40:2201–2209CrossRef

Ouvrard S, Donato PD, Simonnot MO, Begin S, Ghanbaja J, Alnot M, Duval YB, Lhote F, Barres O, Sardin M (2005) Natural manganese oxide: combined analytical approach for solid characterization and arsenic retention. Geochimica Cosmochimica Acta 69:2715–2724CrossRef

Peleka EN, Deliyanni EA (2009) Adsorptive removal of phosphates from aqueous solutions. Desalination 245:357–371CrossRef

Ramesh C, Satoko T, Akinari S, Kohji S, Kenta O, Takahiro H (2006) Selective adsorption of phosphate from seawater and wastewater by amorphous zirconium hydroxide. J Colloid Interface Sci 297:426–433CrossRef

Roques H, Nugroho-Jeudy L, Lebugle A (1991) Phosphorus removal from wastewater by half-burned dolomite. Water Res 25:959–965CrossRef

Salah B, Moussa A (2011) Adsorption of phosphate ions onto low cost Aleppo pine adsorbent. Desalination 275:231–236CrossRef

Shin EW, Han JS (2004) Phosphate adsorption on aluminum-impregnated mesoporous silicates: surface structure and behavior of adsorbents. Environ Sci Technol 38:912–917CrossRef

Smiciklas ID, Milonjic SK, Pfendt P, Raicevic S (2000) The point of zero charge and sorption of cadmium (II) and strontium (II) ions on synthetic hydroxyapatite. Sep Purif Technol 18:185–194CrossRef

Tian SL, Jiang PX, Ning P, Su YH (2009) Enhanced adsorption removal of phosphate from water by mixed lanthanum/aluminum pillared montmorillonite. Chem Eng J 151:141–148CrossRef

Wang SR, Jin XC, Panf Y, Zhao HC, Zhou XN (2005) The study of the effect of pH on phosphate sorption by different trophic lake sediments. J Colloid Interface Sci 285:448–457CrossRef

Water and Wastewater Monitoring Analysis Method (2002) 4th edn, China Environmental Science Press, China 4: 246–248

Xiong J, He Z, Mahmood Q, Liu D, Yang X, Islam E (2008) Phosphate removal from solution using steel slag through magnetic separation. J Hazard Mater 152:211–215CrossRef

Zhang JD, Shen ZM, Wenpo S, Mei ZJ, Wang WH (2011) Adsorption behavior of phosphate on lanthanum (III)-coordinated diamino-functionalized 3D hybrid mesoporous silicates material. J Hazard Mater 186:76–83CrossRef

Zhong B, Stanforth R, Wu S, Chen JP (2007) Proton interaction in phosphate adsorption onto goethite. J Colloid Interface Sci 308:40–48CrossRef

Titel: Preparation and characterization of ferric-impregnated granular ceramics (FGCs) for phosphorus removal from aqueous solution
verfasst von: Nan Chen
Chuanping Feng
Jifu Yang
Ya Gao
Miao Li
Baogang Zhang
Publikationsdatum: 01.04.2013
Verlag: Springer-Verlag
Erschienen in: Clean Technologies and Environmental Policy / Ausgabe 2/2013
Print ISSN: 1618-954X
Elektronische ISSN: 1618-9558
DOI: https://doi.org/10.1007/s10098-012-0527-9

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