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19.03.2020 | Original Research

Highly efficient removal of phosphate by lanthanum modified nanochitosan-hierarchical ZSM-5 zeolite nanocomposite: characteristics and mechanism

verfasst von: Samira Salehi, Mojtaba Hosseinifard

Erschienen in: Cellulose | Ausgabe 8/2020

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Abstract

In this study, nanochitosan-hierarchical ZSM-5 zeolite composite (NCS@ZSM-5-H) was synthesized via simple way at ambient temperature. The hierarchical ZSM-5 zeolite were prepared by hydrothermal processing without the use of zeolite seeding crystals or additional template. Lanthanum (La) was loaded onto the surface of samples to acquire a simply separable adsorbent for efficient separation of phosphate (P) from water. The synthesized materials are examined before and after adsorption of P by several characterization techniques. Results of adsorption experiments showed that NCS@ZSM-5-H/La is very effective in the adsorption of P species from aqueous solutions. Response surface methodology has been applied to optimize and model P uptake onto NCS@ZSM-5-H/La nanocomposite. A four-factor central composite design has been applied to find out the influence of different process parameters on P removal. Thermodynamic, isotherm, and kinetic studies were employed to understand the adsorption behavior. The P adsorption was not significantly by interfering anions of fluoride chloride, and sulfate but carbonate revealed further negative effects, indicating NCS@ZSM-5-H/La possessed highly selectivity to P. The NCS@ZSM-5-H/La was regenerated using 2.0 M NaOH, with up to ~ 80% recovery and the as-synthesized nanocomposite was reused in seven consecutive adsorption–desorption cycles without significant reduction in regeneration capacity.

Vorheriger Artikel TEMPO-oxidized cellulose nanofiber based polymeric adsorbent for use in iron removal

Nächster Artikel All-cellulose composite membranes for oil microdroplet collection

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Aksu Z, Gönen F (2006) Binary biosorption of phenol and chromium (VI) onto immobilized activated sludge in a packed bed: prediction of kinetic parameters and breakthrough curves. Sep Purif Technol 49:205–216

Alharbi OM, Khattab RA, Ali I (2018) Health and environmental effects of persistent organic pollutants. J Mol Liq 263:442–453

Ali I, Gupta V (2006) Advances in water treatment by adsorption technology. Nat Protoc 1:2661PubMed

Ali I, AL-Othman ZA, Alwarthan A (2016) Green synthesis of functionalized iron nano particles and molecular liquid phase adsorption of ametryn from water. J Mol Liq 221:1168–1174

Anbia M, Salehi S (2014) Adsorption of methyl-orange from aqueous solution onto nanoporous silica materials. Sci Iran 21:2036

Banu HT, Karthikeyan P, Meenakshi S (2018) Lanthanum (III) encapsulated chitosan-montmorillonite composite for the adsorptive removal of phosphate ions from aqueous solution. Int J Biol Macromol 112:284–293

Boujelben N, Bouzid J, Elouear Z, Feki M, Jamoussi F, Montiel A (2008) Phosphorus removal from aqueous solution using iron coated natural and engineered sorbents. J Hazard Mater 151:103–110PubMed

Boyd G, Adamson A, Myers L Jr (1947) The exchange adsorption of ions from aqueous solutions by organic zeolites. II. Kinetics1. JACS 69:2836–2848

Cerofolini G (1982) A unified theory for Freundlich, Dubinin-Radushkevich, and Temkin behaviors. J Colloid Interface Sci 86:204–212

Che Q, Yang M, Wang X, Yang Q, Chen Y, Chen X, Chen W, Hu J, Zeng K, Yang H, Chen H (2019) Preparation of mesoporous ZSM-5 catalysts using green templates and their performance in biomass catalytic pyrolysis. Bioresour Technol 289:121729PubMed

Cheng P, Feng G, Sun C, Xu W, Su J-H, Yan W, Yu J (2018) An efficient synthetic route to accelerate zeolite synthesis via radicals. Inorg Chem Front 5:2106–2110

Chong YY, Thangalazhy-Gopakumar S, Ng HK, Gan S, Lee LY, Ganesan PB (2019) Catalytic pyrolysis of cellulose with oxides: effects on physical properties and reaction pathways. Clean Technol Environ 21:1629–1643

Dai L, Wu B, Tan F, He M, Wang W, Qin H, Tang X, Zhu Q, Pan K, Hu Q (2014) Engineered hydrochar composites for phosphorus removal/recovery: lanthanum doped hydrochar prepared by hydrothermal carbonization of lanthanum pretreated rice straw. Bioresour Technol 161:327–332PubMed

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

Dumitriu D, Bârjega R, Frunza L, Macovei D, Hu T, Xie Y, Pârvulescu V, Kaliaguine S (2003) BiOx clusters occluded in a ZSM-5 matrix: preparation, characterization, and catalytic behavior in liquid-phase oxidation of hydrocarbons. J Catal 219:337–351

Eberhardt TL, Min S-H (2008) Biosorbents prepared from wood particles treated with anionic polymer and iron salt: effect of particle size on phosphate adsorption. Bioresour Technol 99:626–630PubMed

El Knidri H, Belaabed R, Addaou A, Laajeb A, Lahsini A (2018) Extraction, chemical modification and characterization of chitin and chitosan. Int J Biol Macromol 120:1181–1189PubMed

El Wali M, Golroudbary SR, Kraslawski A (2019) Impact of recycling improvement on the life cycle of phosphorus. Chin J Chem Eng 27:1219–1229

Elanchezhiyan SS, Sivasurian N, Meenakshi S (2016) Enhancement of oil recovery using zirconium-chitosan hybrid composite by adsorptive method. Carbohydr Polym 145:103–113PubMed

Fang L, Liu R, Li J, Xu C, Huang L-Z, Wang D (2018) Magnetite/Lanthanum hydroxide for phosphate sequestration and recovery from lake and the attenuation effects of sediment particles. Water Res 130:243–254PubMed

Fu H, Yang Y, Zhu R, Liu J, Usman M, Chen Q, He H (2018) Superior adsorption of phosphate by ferrihydrite-coated and lanthanum-decorated magnetite. J Colloid Interface Sci 530:704–713PubMed

Goscianska J, Ptaszkowska-Koniarz M, Frankowski M, Franus M, Panek R, Franus W (2018) Removal of phosphate from water by lanthanum-modified zeolites obtained from fly ash. J Colloid Interface Sci 513:72–81PubMed

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

Han W, Jia Y, Xiong G, Yang W (2007) Synthesis of hierarchical porous materials with ZSM-5 structures via template-free sol–gel method. Sci Technol Adv Mat. 8:101–105

Han S, Wang Z, Meng L, Jiang N (2016) Synthesis of uniform mesoporous ZSM-5 using hydrophilic carbon as a hard template. Mater Chem Phys 177:112–117

He Y, Lin H, Dong Y, Wang L (2017) Preferable adsorption of phosphate using lanthanum-incorporated porous zeolite: characteristics and mechanism. Appl Surf Sci 426:995–1004

Ho Y-S, McKay G (1999) Pseudo-second order model for sorption processes. Process Biochem 34:451–465

Ho Y, Ng J, McKay G (2000) Kinetics of pollutant sorption by biosorbents. Sep Purif Methods 29:189–232

Huang W-Y, Li D, Liu Z-Q, Tao Q, Zhu Y, Yang J, Zhang Y-M (2014a) Kinetics, isotherm, thermodynamic, and adsorption mechanism studies of La (OH) 3-modified exfoliated vermiculites as highly efficient phosphate adsorbents. Chem Eng J 236:191–201

Huang W, Zhu Y, Tang J, Yu X, Wang X, Li D, Zhang Y (2014b) Lanthanum-doped ordered mesoporous hollow silica spheres as novel adsorbents for efficient phosphate removal. J Mater Chem A 2:8839–8848

Jacobsen CJH, Madsen C, Janssens TVW, Jakobsen HJ, Skibsted J (2000) Zeolites by confined space synthesis – characterization of the acid sites in nanosized ZSM-5 by ammonia desorption and 27Al/29Si-MAS NMR spectroscopy. Microporous Mesoporous Mater 39:393–401

Kadri T, Cuprys A, Rouissi T, Brar SK, Daghrir R, Lauzon J-M (2018) Nanoencapsulation and release study of enzymes from Alkanivorax borkumensis in chitosan-tripolyphosphate formulation. Bio Chem Eng J 137:1–10

Kim D, Yoo I, Park B, Lee Y, Kim S, Chang D, Sunwoo Y, Shin H, Eo Y, Hong K (2012) Alternative technique for removal of phosphorus in wastewater using chemically surface-modified silica filter. J Ind Eng Chem 18:1560–1563

Kokotailo G, Lawton S, Olson D, Meier W (1978) Structure of synthetic zeolite ZSM-5. Nature 272:437–438

Kong L, Tian Y, Li N, Liu Y, Zhang J, Zhang J, Zuo W (2018) Highly-effective phosphate removal from aqueous solutions by calcined nano-porous palygorskite matrix with embedded lanthanum hydroxide. Appl Clay Sci 162:507–517

Kong L, Tian Y, Pang Z, Huang X, Li M, Yang R, Li N, Zhang J, Zuo W (2019) Synchronous phosphate and fluoride removal from water by 3D rice-like lanthanum-doped La@ MgAl nanocomposites. Chem Eng J 371:893–902

Kunjachan S, Jose S, Lammers T (2014) Understanding the mechanism of ionic gelation for synthesis of chitosan nanoparticles using qualitative techniques. Asian J Pharm 4:2

Lai KC, Hiew BYZ, Lee LY, Gan S, Thangalazhy-Gopakumar S, Chiu WS, Khiew PS (2019) Ice-templated graphene oxide/chitosan aerogel as an effective adsorbent for sequestration of metanil yellow dye. Bioresour Technol 274:134–144PubMed

Li H, Ru J, Yin W, Liu X, Wang J, Zhang W (2009) Removal of phosphate from polluted water by lanthanum doped vesuvianite. J Hazard Mater 168:326–330PubMed

Li R, Wang JJ, Zhou B, Awasthi MK, Ali A, Zhang Z, Lahori AH, Mahar A (2016) Recovery of phosphate from aqueous solution by magnesium oxide decorated magnetic biochar and its potential as phosphate-based fertilizer substitute. Bioresour Technol 215:209–214PubMed

Liu H, Zhang S, Xie S, Zhang W, Xin W, Liu S, Xu L (2018) Synthesis, characterization, and catalytic performance of hierarchical ZSM-11 zeolite synthesized via dual-template route. Chin J Catal 39:167–180

Low M (1960) Kinetics of chemisorption of gases on solids. Chem Rev 60:267–312

Narayanan S, Vijaya JJ, Sivasanker S, Ragupathi C, Sankaranarayanan T, Kennedy LJ (2016) Hierarchical ZSM-5 catalytic performance evaluated in the selective oxidation of styrene to benzaldehyde using TBHP. J Porous Mater 23:741–752

Neolaka YAB, Supriyanto G, Kusuma HS (2018) Adsorption performance of Cr(VI)-imprinted poly(4-VP-co-MMA) supported on activated Indonesia (Ende-Flores) natural zeolite structure for Cr(VI) removal from aqueous solution. J Environ Chem Eng 6:3436–3443

Noor P, Khanmohammadi M, Roozbehani B, Yaripour F, Bagheri Garmarudi A (2018) Introduction of table sugar as a soft second template in ZSM-5 nanocatalyst and its effect on product distribution and catalyst lifetime in methanol to gasoline conversion. J Energy Chem 27:582–590

Park H-S, Kwak S-H, Mahardika D, Mameda N, Choo K-H (2017) Mixed metal oxide coated polymer beads for enhanced phosphorus removal from membrane bioreactor effluents. Chem Eng J 319:240–247

Park J-H, Kang H-J, Kim H-S, Wells GF, Park H-D (2019) Effects of alkali-treated sludge supplementation for enhanced biological phosphorus removal in a membrane bioreactor. Fuel 254:115588

Peron DV, Zholobenko VL, de Melo JHS, Capron M, Nuns N, de Souza MO, Feris LA, Marcilio NR, Ordomsky VV, Khodakov AY (2019) External surface phenomena in dealumination and desilication of large single crystals of ZSM-5 zeolite synthesized from a sustainable source. Microporous Mesoporous Mater 286:57–64

Ping N, Hans-Jörg B, Bing L, Xiwu L, Zhang Y (2008) Phosphate removal from wastewater by model-La (III) zeolite adsorbents. J Environ Sci 20:670–674

Ravikovitch PI, Neimark AV (2001) Characterization of nanoporous materials from adsorption and desorption isotherms. Colloids Surf A 187:11–21

Rinaudo M (2006) Chitin and chitosan: properties and applications. Prog Polym Sci 31:603–632

Rukman N, Jannatin M, Supriyanto G, Fahmi M, Ibrahim W (2019): GO-Fe3O4 Nanocomposite from coconut shell: synthesis and characterization, In: IOP Conference Series: Earth and Environmental Science. IOP Publishing, pp 012008

Salehi S, Anbia M (2017a) Adsorption selectivity of CO2 and CH4 on novel PANI/Alkali-exchanged FAU Zeolite nanocomposites. J Inorg Organomet Polym Mater 27:1281–1291

Salehi S, Anbia M (2017b) Characterization of CPs/Ca-exchanged FAU- and LTA-type zeolite nanocomposites and their selectivity for CO2 and N2 adsorption. J Phys Chem Solids 110:116–128

Salehi S, Anbia M (2019) Performance comparison of chitosan–clinoptilolite nanocomposites as adsorbents for vanadium in aqueous media. Cellullar 26:5321–5345

Salehi S, Mandegarzad S, Anbia M (2020) Preparation and characterization of metal organic framework-derived nanoporous carbons for highly efficient removal of vanadium from aqueous solution. J Alloys Compd 812:152051

Sankararamakrishnan N, Dixit A, Iyengar L, Sanghi R (2006) Removal of hexavalent chromium using a novel cross linked xanthated chitosan. Bioresour Technol 97:2377–2382PubMed

Silaghi M-C, Chizallet C, Raybaud P (2014) Challenges on molecular aspects of dealumination and desilication of zeolites. Microporous Mesoporous Mater 191:82–96

Sing KS, Williams RT (2004) Physisorption hysteresis loops and the characterization of nanoporous materials. Adsorpt Sci Technol 22:773–782

Tu L, Jarosch KA, Schneider T, Grosjean M (2019) Phosphorus fractions in sediments and their relevance for historical lake eutrophication in the Ponte Tresa basin (Lake Lugano, Switzerland) since 1959. Sci Total Environ 685:806–817PubMed

Ure AM, Davidson CM (2008) Chemical speciation in the environment. Wiley, Hoboken

Wang S-L, Cheng C-Y, Tzou Y-M, Liaw R-B, Chang T-W, Chen J-H (2007) Phosphate removal from water using lithium intercalated gibbsite. J Hazard Mater 147:205–212PubMed

Wang L, Yin C, Shan Z, Liu S, Du Y, Xiao F-S (2009) Bread-template synthesis of hierarchical mesoporous ZSM-5 zeolite with hydrothermally stable mesoporosity. Colloids Surf A Physicochem Eng Asp 340:126–130

Wang Z, Guo H, Shen F, Yang G, Zhang Y, Zeng Y, Wang L, Xiao H, Deng S (2015) Biochar produced from oak sawdust by Lanthanum (La)-involved pyrolysis for adsorption of ammonium (NH4 +), nitrate (NO3 −), and phosphate (PO43 −). Chemosphere 119:646–653PubMed

Wang Z, Fan Y, Li Y, Qu F, Wu D, Kong H (2016) Synthesis of zeolite/hydrous lanthanum oxide composite from coal fly ash for efficient phosphate removal from lake water. Microporous Mesoporous Mater 222:226–234

Wang Y, Bai P, Jin Z, Li Y, Li Y, Shi W, Zhou X, Xu J, Yan W, Xu R (2019) Stellerite-seeded facile synthesis of zeolite heulandite with exceptional aqueous Cd 2 + capture performance. Inorg Chem Front 6(7):1785–1792

Weber WJ, Morris JC (1963) Kinetics of adsorption on carbon from solution. J Sanit Eng Div 89:31–60

Wu H, Yuan Z, Zhang L, Bi J (2012) Eutrophication mitigation strategies: perspectives from the quantification of phosphorus flows in socioeconomic system of Feixi, Central China. J Clean Prod 23:122–137

Wu B, Fang L, Fortner JD, Guan X, Lo IM (2017) Highly efficient and selective phosphate removal from wastewater by magnetically recoverable La(OH)3/Fe3O4 nanocomposites. Water Res 126:179PubMed

Wu Y, Li X, Yang Q, Wang D, Xu Q, Yao F, Chen F, Tao Z, Huang X (2019) Hydrated lanthanum oxide-modified diatomite as highly efficient adsorbent for low-concentration phosphate removal from secondary effluents. J Environ Manag 231:370–379

Xie J, Wang Z, Lu S, Wu D, Zhang Z, Kong H (2014) Removal and recovery of phosphate from water by lanthanum hydroxide materials. Chem Eng J 254:163–170

Xie J, Lai L, Lin L, Wu D, Zhang Z, Kong H (2015) Phosphate removal from water by a novel zeolite/lanthanum hydroxide hybrid material prepared from coal fly ash. J J Environ Sci Health A 50:1298–1305

Xu Q, Chen Z, Wu Z, Xu F, Yang D, He Q, Li G, Chen Y (2019) Novel lanthanum doped biochars derived from lignocellulosic wastes for efficient phosphate removal and regeneration. Bioresour Technol 289:121600PubMed

Yang J, Zhou L, Zhao L, Zhang H, Yin J, Wei G, Qian K, Wang Y, Yu C (2011) A designed nanoporous material for phosphate removal with high efficiency. J Mater Chem 21:2489–2494

Yang S, Zhao Y, Chen R, Feng C, Zhang Z, Lei Z, Yang Y (2013) A novel tablet porous material developed as adsorbent for phosphate removal and recycling. J Colloid Interface Sci 396:197–204PubMed

Yang Q, Wang X, Luo W, Sun J, Xu Q, Chen F, Zhao J, Wang S, Yao F, Wang D, Li X, Zeng G (2018) Effectiveness and mechanisms of phosphate adsorption on iron-modified biochars derived from waste activated sludge. Bioresour Technol 247:537–544PubMed

Yazdi F, Anbia M, Salehi S (2019) Characterization of functionalized chitosan-clinoptilolite nanocomposites for nitrate removal from aqueous media. Int J Biol Macromol 130:545–555PubMed

Zhang L, Gao Y, Zhou Q, Kan J, Wang Y (2014) High-performance removal of phosphate from water by graphene nanosheets supported lanthanum hydroxide nanoparticles. Water Air Soil Pollut 225:1967

Zhang Y, Pan B, Shan C, Gao X (2016) Enhanced phosphate removal by nanosized hydrated La (III) oxide confined in cross-linked polystyrene networks. Environ Sci Technol 50:1447–1454PubMed

Zhang X, Sun F, He J, Xu H, Cui F, Wang W (2017) Robust phosphate capture over inorganic adsorbents derived from lanthanum metal organic frameworks. Chem Eng J 326:1086–1094

Zohdi S, Anbia M, Salehi S (2019) Improved CO2 adsorption capacity and CO2/CH4 and CO2/N2 selectivity in novel hollow silica particles by modification with multi-walled carbon nanotubes containing amine groups. Polyhedron 166:175–185

Titel: Highly efficient removal of phosphate by lanthanum modified nanochitosan-hierarchical ZSM-5 zeolite nanocomposite: characteristics and mechanism
verfasst von: Samira Salehi
Mojtaba Hosseinifard
Publikationsdatum: 19.03.2020
Verlag: Springer Netherlands
Erschienen in: Cellulose / Ausgabe 8/2020
Print ISSN: 0969-0239
Elektronische ISSN: 1572-882X
DOI: https://doi.org/10.1007/s10570-020-03094-w

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