Removal Modeling of Encapsulated L.minor by Alginate Microspheres
Yıl 2020,
Cilt: 10 Sayı: 3, 1528 - 1538, 01.09.2020
Esra Ucuncu Tunca
,
Hasan Türe
Öz
The aim of the study was to model the efficiency of different sorbents (Lemna minor (L), alginate microspheres (A) and encapsulated L.minor (capsA+L)) on the removal of malachite green dye(MG) by using regression analysis. One other purpose was to specify the effects of encapsulation on the removal process. Linear and cubic estimation models were constructed and it was seen that R2 values of cubic models were higher (0.988-1.0). It was observed that group (A) was less successful on MG removal compared to other groups (L>capsA+L>A). Encapsulation increased the removal capacity of microspheres but still did not attain the efficiency of (L) group that was (70.22-85.69%).
Kaynakça
- Asthana A, Verma R, Singh AK, Susan MABH, Adhikari R, 2016. Silver Nanoparticle Entrapped Calcium-Alginate Beads for Fe(II) Removal via Adsorption. Macromolecular Symposia, 366(1):42-51.
- Biradar SP, Rane NR, Patil TS, Khandare RV, Govindwar SP, Pawar PK, 2016. Herbal augmentation enhances malachite green biodegradation efficacy of Saccharomyces cerevisiae. Biologia, 71(5):475-483.
- Bokhari SH, Ahmad I, Mahmood-Ul-Hassan M, Mohammad A, 2016. Phytoremediation potential of Lemna minor L. for heavy metals. Int. J. Phyto, 18(1):25-32.
- Clar JG, Li X, Impellitteri CA, Bennett-Stamper C, Luxton TP, 2016. Copper nanoparticle induced cytotoxicity to nitrifying bacteria in wastewater treatment: A mechanistic copper speciation study by X-ray absorption spectroscopy. Environmental Science and Technology, 50(17):9105-9113.
- Ding Y, Zhu W, Xu Y, Qian X, 2015. A small molecular fluorescent sensor functionalized silica microsphere for detection and removal of mercury, cadmium, and lead ions in aqueous solutions. Sensors and Actuators, B: Chemical, 220:762-771.
- Dubey R, Bajpai J, Bajpai AK, 2016. Chitosan-alginate nanoparticles (CANPs) as potential nanosorbent for removal of Hg (II) ions. Environ. Nanotechnol. Monit. Manag, 6:32-44.
- Hong HJ, Ryu J, Park IS, Ryu, Chung KS, Kim BG, 2016.Investigation of the strontium (Sr(II)) adsorption of an alginate microsphere as a low-cost adsorbent for removal and recovery from seawater. J Environ Manage, 165:263-270.
- Idris A, Ismail NSM, Hassan N, Misran E, Ngomsik A-F, 2012. Synthesis of magnetic alginate beads based on maghemite nanoparticles for Pb(II) removal in aqueous solution. Journal of Industrial and Engineering Chemistry, 18(5):1582-1589.
- Issa AA, Al-Degs YS, Al-Ghouti MA, Olimat AAM, 2014. Studying competitive sorption behavior of methylene blue and malachite green using multivariate calibration. Chemical Engineering Journal, 240:554-564.
- Jerold M, Sivasubramanian V, 2016. Biosorption of malachite green from aqueous solution using brown marine macro algae Sargassum swartzii. Desalin. Water Treat, 1-13.
- Khan TA, Rahman R, Ali I, Khan EA, Mukhlif AA, 2014. Removal of malachite green from aqueous solution using waste pea shells as low-cost adsorbent – adsorption isotherms and dynamics. Toxicological and Environmental Chemistry, 96(4):569-578.
- Kwiatkowska-Marks S, Wójcik M, 2014. Removal of Cadmium(II) from Aqueous Solutions by Calcium Alginate Beads. Separation Science and Technology, 49(14):2204-2211.
- Li C, Zhang Y, Peng J, Wu H, Li J, Zhai M, 2012. Adsorption of Cr(VI) using cellulose microsphere-based adsorbent prepared by radiation-induced grafting. Radiation Physics and Chemistry, 81(8):967-970.
- Li X, Li Y, Ye Z, 2011. Preparation of macroporous bead adsorbents based on poly(vinyl alcohol)/chitosan and their adsorption properties for heavy metals from aqueous solution. Chemical Engineering Journal, 178:60-68.
- Liang Z, Zhaob Z, Sun T, Shi W, Cui F, 2016. Adsorption of quinolone antibiotics in spherical mesoporous silica: Effects of the retained template and its alkyl chain length. J. Hazard. Mater, 305:8-14.
- Naushad M, Ali Khan M, Abdullah Alothman Z, Rizwan Khan M, Kumar M, 2015. Adsorption of methylene blue on chemically modified pine nut shells in single and binary systems: isotherms, kinetics, and thermodynamic studies. Desalin. Water Treat, 57(34): 15848-15861.
- Ngah WS, Fatinathan S, 2010. Adsorption characterization of Pb(II) and Cu(II) ions onto chitosan-tripolyphosphate beads: Kinetic, equilibrium and thermodynamic studies. J Environ Manage, 91(4):958-69.
- Ociński D, Jacukowicz-Sobala I, Kociołek-Balawejder E, 2016. Alginate beads containing water treatment residuals for arsenic removal from water—formation and adsorption studies. Environ. Sci. Pollut. Res, 1-13.
- Pandey A, Bera D, Shukla A, Ray L, 2015. Studies on Cr(VI), Pb(II) and Cu(II) adsorption–desorption using calcium alginate as biopolymer. Chemical Speciation & Bioavailability, 19(1):17-24.
- Ramalingam B, Khan MMR, Mondal B, Mandal AB, Das SK, 2015. Facile Synthesis of Silver Nanoparticles Decorated Magnetic-Chitosan Microsphere for Efficient Removal of Dyes and Microbial Contaminants. ACS Sustainable Chemistry and Engineering, 3(9):2291-2302.
- Soni A, Tiwari A, Bajpai AK, 2014. Removal of Malachite green from aqueous solution using nano-iron oxide-loaded alginate microspheres: Batch and column studies. Research on Chemical Intermediates, 40(3):913-930.
- Tang S, Chia GH, Lee HK, 2015. Magnetic core-shell iron(II,III) oxide@layered double oxide microspheres for removal of 2,5-dihydroxybenzoic acid from aqueous solutions. J. Colloid Interface Sci, 437:316-323.
- Török A, Buta E, Indolean C, Tonk S, Silaghi-Dumitrescu L, Majdik C, 2015. Biological removal of triphenylmethane dyes from aqueous solution by Lemna minor. Acta Chimica Slovenica, 62(2):452-461.
- Üçüncü E, Özkan AD, Kurşungöz C, Ülger ZE, Ölmez TT, Tekinay T, Ortaç B, Tunca E, 2014. Effects of laser ablated silver nanoparticles on Lemna minor. Chemosphere, 108:251-257.
- Üçüncü E, Tunca E, Fikirdeşici S, Özkan AD, Altindaǧ A, 2013. Phytoremediation of Cu, Cr and Pb mixtures by lemna minor. Bull Environ Contam Toxicol, 91(5):600-604.
- Vu HC, Dwivedi AD, Le TT, Seo SH, Kim EJ, Chang YS, 2017. Magnetite graphene oxide encapsulated in alginate beads for enhanced adsorption of Cr(VI) and As(V) from aqueous solutions: Role of crosslinking metal cations in pH control. Chemical Engineering Journal, 307:220-229.
- Wang F, Lu X, Li XY, 2016. Selective removals of heavy metals (Pb2+, Cu2+, and Cd2+) from wastewater by gelation with alginate for effective metal recovery. J. Hazard. Mater, 308:75-83.
- Wu L, Lin X, Zhou X, Luo X, 2016. Removal of uranium and fluorine from wastewater by double-functional microsphere adsorbent of SA/CMC loaded with calcium and aluminum. Applied Surface Science, 384:466-479.
- Yang F, Liu H, Qu J, Paul Chen J, 2011.Preparation and characterization of chitosan encapsulated Sargassum sp. biosorbent for nickel ions sorption. Bioresour Technol, 102(3):2821-2828.
- Zeng L, Chen Y, Zhang Q, Guo X, Peng Y, Xiao H, Chen X, Luo J, 2015. Adsorption of Cd(II), Cu(II) and Ni(II) ions by cross-linking chitosan/rectorite nano-hybrid composite microspheres. Carbohydrate polymers, 130:333-343.
- Zheng E, Dang Q, Liu C, Fan B, Yan J, Yu Z, Zhang H, 2016. Preparation and evaluation of adipic acid dihydrazide cross-linked carboxymethyl chitosan microspheres for copper ion adsorption. Colloids Surf. A Physicochem. Eng. Asp, 502:34-43.
- Zhou L, Wang Y, Liu Z, Huang Q, 2009. Characteristics of equilibrium, kinetics studies for adsorption of Hg(II), Cu(II), and Ni(II) ions by thiourea-modified magnetic chitosan microspheres. J Hazard Mater, 161(2-3):995-1002.
- Zhou Y, Min Y, Qiao H, Huang Q, Wang E, Ma T, 2015. Improved removal of malachite green from aqueous solution using chemically modified cellulose by anhydride. Int J Biol Macromol, 74:271-277.
- Zhu H, Fu Y, Jiang R, Yao J, Xiao L, Zeng G, 2014. Optimization of Copper(II) Adsorption onto Novel Magnetic Calcium Alginate/Maghemite Hydrogel Beads Using Response Surface Methodology. Industrial & Engineering Chemistry Research, 53(10):4059-4066.
Removal Modeling of Encapsulated L.minor by Alginate Microspheres
Yıl 2020,
Cilt: 10 Sayı: 3, 1528 - 1538, 01.09.2020
Esra Ucuncu Tunca
,
Hasan Türe
Öz
The aim of the study was to model the efficiency of different sorbents (Lemna minor (L), alginate microspheres (A) and encapsulated L.minor (capsA+L)) on the removal of malachite green dye(MG) by using regression analysis. One other purpose was to specify the effects of encapsulation on the removal process. Linear and cubic estimation models were constructed and it was seen that R2 values of cubic models were higher (0.988-1.0). It was observed that group (A) was less successful on MG removal compared to other groups (L>capsA+L>A). Encapsulation increased the removal capacity of microspheres but still did not attain the efficiency of (L) group that was (70.22-85.69%).
Kaynakça
- Asthana A, Verma R, Singh AK, Susan MABH, Adhikari R, 2016. Silver Nanoparticle Entrapped Calcium-Alginate Beads for Fe(II) Removal via Adsorption. Macromolecular Symposia, 366(1):42-51.
- Biradar SP, Rane NR, Patil TS, Khandare RV, Govindwar SP, Pawar PK, 2016. Herbal augmentation enhances malachite green biodegradation efficacy of Saccharomyces cerevisiae. Biologia, 71(5):475-483.
- Bokhari SH, Ahmad I, Mahmood-Ul-Hassan M, Mohammad A, 2016. Phytoremediation potential of Lemna minor L. for heavy metals. Int. J. Phyto, 18(1):25-32.
- Clar JG, Li X, Impellitteri CA, Bennett-Stamper C, Luxton TP, 2016. Copper nanoparticle induced cytotoxicity to nitrifying bacteria in wastewater treatment: A mechanistic copper speciation study by X-ray absorption spectroscopy. Environmental Science and Technology, 50(17):9105-9113.
- Ding Y, Zhu W, Xu Y, Qian X, 2015. A small molecular fluorescent sensor functionalized silica microsphere for detection and removal of mercury, cadmium, and lead ions in aqueous solutions. Sensors and Actuators, B: Chemical, 220:762-771.
- Dubey R, Bajpai J, Bajpai AK, 2016. Chitosan-alginate nanoparticles (CANPs) as potential nanosorbent for removal of Hg (II) ions. Environ. Nanotechnol. Monit. Manag, 6:32-44.
- Hong HJ, Ryu J, Park IS, Ryu, Chung KS, Kim BG, 2016.Investigation of the strontium (Sr(II)) adsorption of an alginate microsphere as a low-cost adsorbent for removal and recovery from seawater. J Environ Manage, 165:263-270.
- Idris A, Ismail NSM, Hassan N, Misran E, Ngomsik A-F, 2012. Synthesis of magnetic alginate beads based on maghemite nanoparticles for Pb(II) removal in aqueous solution. Journal of Industrial and Engineering Chemistry, 18(5):1582-1589.
- Issa AA, Al-Degs YS, Al-Ghouti MA, Olimat AAM, 2014. Studying competitive sorption behavior of methylene blue and malachite green using multivariate calibration. Chemical Engineering Journal, 240:554-564.
- Jerold M, Sivasubramanian V, 2016. Biosorption of malachite green from aqueous solution using brown marine macro algae Sargassum swartzii. Desalin. Water Treat, 1-13.
- Khan TA, Rahman R, Ali I, Khan EA, Mukhlif AA, 2014. Removal of malachite green from aqueous solution using waste pea shells as low-cost adsorbent – adsorption isotherms and dynamics. Toxicological and Environmental Chemistry, 96(4):569-578.
- Kwiatkowska-Marks S, Wójcik M, 2014. Removal of Cadmium(II) from Aqueous Solutions by Calcium Alginate Beads. Separation Science and Technology, 49(14):2204-2211.
- Li C, Zhang Y, Peng J, Wu H, Li J, Zhai M, 2012. Adsorption of Cr(VI) using cellulose microsphere-based adsorbent prepared by radiation-induced grafting. Radiation Physics and Chemistry, 81(8):967-970.
- Li X, Li Y, Ye Z, 2011. Preparation of macroporous bead adsorbents based on poly(vinyl alcohol)/chitosan and their adsorption properties for heavy metals from aqueous solution. Chemical Engineering Journal, 178:60-68.
- Liang Z, Zhaob Z, Sun T, Shi W, Cui F, 2016. Adsorption of quinolone antibiotics in spherical mesoporous silica: Effects of the retained template and its alkyl chain length. J. Hazard. Mater, 305:8-14.
- Naushad M, Ali Khan M, Abdullah Alothman Z, Rizwan Khan M, Kumar M, 2015. Adsorption of methylene blue on chemically modified pine nut shells in single and binary systems: isotherms, kinetics, and thermodynamic studies. Desalin. Water Treat, 57(34): 15848-15861.
- Ngah WS, Fatinathan S, 2010. Adsorption characterization of Pb(II) and Cu(II) ions onto chitosan-tripolyphosphate beads: Kinetic, equilibrium and thermodynamic studies. J Environ Manage, 91(4):958-69.
- Ociński D, Jacukowicz-Sobala I, Kociołek-Balawejder E, 2016. Alginate beads containing water treatment residuals for arsenic removal from water—formation and adsorption studies. Environ. Sci. Pollut. Res, 1-13.
- Pandey A, Bera D, Shukla A, Ray L, 2015. Studies on Cr(VI), Pb(II) and Cu(II) adsorption–desorption using calcium alginate as biopolymer. Chemical Speciation & Bioavailability, 19(1):17-24.
- Ramalingam B, Khan MMR, Mondal B, Mandal AB, Das SK, 2015. Facile Synthesis of Silver Nanoparticles Decorated Magnetic-Chitosan Microsphere for Efficient Removal of Dyes and Microbial Contaminants. ACS Sustainable Chemistry and Engineering, 3(9):2291-2302.
- Soni A, Tiwari A, Bajpai AK, 2014. Removal of Malachite green from aqueous solution using nano-iron oxide-loaded alginate microspheres: Batch and column studies. Research on Chemical Intermediates, 40(3):913-930.
- Tang S, Chia GH, Lee HK, 2015. Magnetic core-shell iron(II,III) oxide@layered double oxide microspheres for removal of 2,5-dihydroxybenzoic acid from aqueous solutions. J. Colloid Interface Sci, 437:316-323.
- Török A, Buta E, Indolean C, Tonk S, Silaghi-Dumitrescu L, Majdik C, 2015. Biological removal of triphenylmethane dyes from aqueous solution by Lemna minor. Acta Chimica Slovenica, 62(2):452-461.
- Üçüncü E, Özkan AD, Kurşungöz C, Ülger ZE, Ölmez TT, Tekinay T, Ortaç B, Tunca E, 2014. Effects of laser ablated silver nanoparticles on Lemna minor. Chemosphere, 108:251-257.
- Üçüncü E, Tunca E, Fikirdeşici S, Özkan AD, Altindaǧ A, 2013. Phytoremediation of Cu, Cr and Pb mixtures by lemna minor. Bull Environ Contam Toxicol, 91(5):600-604.
- Vu HC, Dwivedi AD, Le TT, Seo SH, Kim EJ, Chang YS, 2017. Magnetite graphene oxide encapsulated in alginate beads for enhanced adsorption of Cr(VI) and As(V) from aqueous solutions: Role of crosslinking metal cations in pH control. Chemical Engineering Journal, 307:220-229.
- Wang F, Lu X, Li XY, 2016. Selective removals of heavy metals (Pb2+, Cu2+, and Cd2+) from wastewater by gelation with alginate for effective metal recovery. J. Hazard. Mater, 308:75-83.
- Wu L, Lin X, Zhou X, Luo X, 2016. Removal of uranium and fluorine from wastewater by double-functional microsphere adsorbent of SA/CMC loaded with calcium and aluminum. Applied Surface Science, 384:466-479.
- Yang F, Liu H, Qu J, Paul Chen J, 2011.Preparation and characterization of chitosan encapsulated Sargassum sp. biosorbent for nickel ions sorption. Bioresour Technol, 102(3):2821-2828.
- Zeng L, Chen Y, Zhang Q, Guo X, Peng Y, Xiao H, Chen X, Luo J, 2015. Adsorption of Cd(II), Cu(II) and Ni(II) ions by cross-linking chitosan/rectorite nano-hybrid composite microspheres. Carbohydrate polymers, 130:333-343.
- Zheng E, Dang Q, Liu C, Fan B, Yan J, Yu Z, Zhang H, 2016. Preparation and evaluation of adipic acid dihydrazide cross-linked carboxymethyl chitosan microspheres for copper ion adsorption. Colloids Surf. A Physicochem. Eng. Asp, 502:34-43.
- Zhou L, Wang Y, Liu Z, Huang Q, 2009. Characteristics of equilibrium, kinetics studies for adsorption of Hg(II), Cu(II), and Ni(II) ions by thiourea-modified magnetic chitosan microspheres. J Hazard Mater, 161(2-3):995-1002.
- Zhou Y, Min Y, Qiao H, Huang Q, Wang E, Ma T, 2015. Improved removal of malachite green from aqueous solution using chemically modified cellulose by anhydride. Int J Biol Macromol, 74:271-277.
- Zhu H, Fu Y, Jiang R, Yao J, Xiao L, Zeng G, 2014. Optimization of Copper(II) Adsorption onto Novel Magnetic Calcium Alginate/Maghemite Hydrogel Beads Using Response Surface Methodology. Industrial & Engineering Chemistry Research, 53(10):4059-4066.