Year 2019, Volume 2 , Issue 1, Pages 5 - 11 2019-07-19

Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM)

Büşra Elif KAPLAN [1] , Ali KARA [2] , Hüseyin Aksel EREN [3]


In this study m-poly(ethylene glycol dimethacrylate-vinyl imidazole) [m-poly(EGDMA–VIM)] microbeads were employed as adsorbent for reactive dye black 5. Temperature effects of reactive black 5, from aqueous solutions were studied by adsorption on m-poly(EGDMA-VIM). The m-poly(EGDMA-VIM) microbeads were synthesized and characterized; their use as adsorbent of temperature effects were investigated. The m-poly(EGDMA-VIM) microbeads were characterized by scanning electron microscope (SEM), fourier-transform infrared spectroscopy (FTIR) studies  and swelling studies. In this study, the effects of temperature on adsorption were investigated. In this study, 4, 25, 45 and 65 degree temperatures were studied.
pH; temputure
  • [1] Y. Yao, F. Xu, M. Chen, Z. Xu, and Z. Zhu, “Adsorption behavior of methylene blue on carbon nanotubes,” Bioresource Technology, vol. 101, no. 9, pp. 3040–3046, 2010
  • [2]. R. Malik, D. S. Ramteke and S. R. Wate, Adsorption of malachite green on groundnut shell waste based powdered activated carbon, Waste Manage., 2007, 27, 1129–1138.
  • [3]. Y. Zhang, P. Su, J. Huang, Q. Wang and B. Zhao, A magnetic nanomaterial modied with poly-lysine for efficient removal of anionic dyes from water, Chem. Eng. J., 2015, 262, 313–318.
  • [4] M. Shanehsaz, S. Seidi, Y. Ghorbani, S. M. R. Shoja and S. Rouhani, Polypyrrole-coated magnetic nanoparticles as an efficient adsorbent for RB19 synthetic textile dye: Removal and kinetic study, Spectrochim. Acta, Part A, 2015,149, 481–486.
  • [5] Forgacs E, Cserhati T, Oros G. Removal of synthetic dyes from wastewaters: a review. Environ Int 2004;30:953-71.
  • [6] Papic S, Koprivanac N, Bozic AL, Metes A. Removal of some reactive dyes from synthetic wastewater by combined Al(III) coagulation/carbon adsorption process. Dyes Pigments 2004;62:293-300.
  • [7] Nakagawa K, Namba A, Mukai SR, Tamon H, Ariyadejwanich P,Tanthapanichakoon W. Adsorption of phenol and reactive dye from aqueous solution on activated carbons derived from solid wastes. Water Res 2004;38:1791-8.
  • [8] Kim TH, Park CH, Shin EB, Kim SY. Decolorization of disperse and reactive dye solutions using ferric chloride. Desalination 2004;161:49-58.
  • [9]- M. L. Parisi, E. Fatarella, D. Spinelli, R. Pogni and R. Basosi, Environmental impact assessment of an eco-efficient production for coloured textiles, J. Cleaner Prod., 2015, 108,514–524.
  • [10] A. C. S. Rocha, M. A. Reis-Henriques, V. Galhano, M. Ferreira and L. Guimar˜aes, Toxicity of seven priority hazardous and noxious substances (HNSs) to marine organisms: Current status, knowledge gaps and recommendations for future research, Sci. Total Environ., 2016, 542, 728–749.
  • [11] S. Chatterjee, S.-R. Lim, and S. H. Woo, “Removal of reactive black 5 by zero-valent iron modified with various surfactants,”Chemical Engineering Journal, vol. 160, no. 1, pp. 27–32, 2010.
  • [12] Vandevivere PC, Bianchi R, Verstrete W. Treatment and reuse of wastewater from wet-processing industry: review of emerging technologies. J Chem Technol Biotechnol 1998;72:289e302
  • [13]. Q. Baocheng, Z. Jiti, X. Xuemin, Z. Chunli, Z. Hongxia and Z. Xiaobai, "Adsorption behavior of Azo Dye C. I. Acid Red 14 in aqueous solution on surface soils", J. Env. Sci., 20 (2008) 704.
  • [14] X. Han, W. Wang, and X. Ma, “Adsorption characteristics of methylene blue onto low cost biomass material lotus leaf,” Chemical Engineering Journal, vol. 171, no. 1, pp. 1–8, 2011.
  • [15] J. He, S. Hong, L. Zhang, F. Gan, and Y. S. Ho, “Equilibrium and thermodynamic parameters of adsorption of methylene blue 10 Journal of Nanomaterials onto rectorite,” Fresenius Environmental Bulletin A, vol. 19, no.
  • [16] Forgacs E, Cserhati T, Oros G. Removal of synthetic dyes from wastewaters: a review. Environ Int 2004;30:953e71.
  • [17] Papic S, Koprivanac N, Bozic AL, Metes A. Removal of some reactive dyes from synthetic wastewater by combined Al(III) coagulation/carbon adsorption process. Dyes Pigments 2004;62:293e300.
  • [18] Kim TH, Park CH, Shin EB, Kim SY. Decolorization of disperse and reactive dye solutions using ferric chloride. Desalination 2004;161:49e58.
  • [19]Nakagawa K, Namba A, Mukai SR, Tamon H, Ariyadejwanich P,Tanthapanichakoon W. Adsorption of phenol and reactive dye from aqueous solution on activated carbons derived from solid wastes. Water Res 2004;38:1791e8.
  • [20] L. Chengtang, X. Hui, L. Huaming, L. Ling, X. Li, and Y.Zhixiang, “Efficient degradation of methylene blue dye by catalytic oxidation using the Na8Nb6O19 ⋅13H2O/H2O2 system,”Korean Journal of Chemical Engineering, vol. 28, no. 4, pp. 1126– 1132, 2011.
  • [21] S. A. Ong, E. Toorisaka, M. Hirata, and T. Hano, “Biodegradation of redox dye methylene blue by up-flow anaerobic sludge blanket reactor,” Journal of Hazardous Materials B, vol. 124, no. 1–3, pp. 88–94, 2005.
  • [22] A. K. Golder, N.Hridaya, A. N. Samanta, and S. Ray, “Electrocoagulation of methylene blue and eosin yellowish using mild steel electrodes,” Journal of Hazardous Materials, vol. 127, no. 1–3, pp. 134–140, 2005.
  • [23] I. Fatimah, S.Wang, and D.Wulandari, “ZnO/montmorillonite for photocatalytic and photochemical degradation ofmethylene blue,” Applied Clay Science, vol. 53, no. 4, pp. 553–560, 2011.
  • [24] G. Muthuraman, T. T. Teng, C. P. Leh, and I.Norli, “Extraction and recovery of methylene blue from industrial wastewater using benzoic acid as an extractant,” Journal of Hazardous Materials, vol. 163, no. 1, pp. 363–369, 2009.
  • [25] M. Bielska and K. Prochaska, “Dyes separation by means of cross-flow ultrafiltration of micellar solutions,” Dyes and Pigments, vol. 74, no. 2, pp. 410–415, 2007.
  • [26] A. M. M. Vargas, A. L. Cazetta, M. H. Kunita, T. L. Silva, and V. C. Almeida, “Adsorption of methylene blue on activated carbon produced from flamboyant pods (Delonix regia): study of adsorption isotherms and kinetic models,” Chemical Engineering Journal, vol. 168, no. 2, pp. 722–730, 2011.
  • [27] V. Gupta, Application of low-cost adsorbents for dye removal—a review, J. Environ. Manage., 2009, 90, 2313–2342.
  • [28] V. K. Gupta, R. Kumar, A. Nayak, T. A. Saleh and M. A. Barakat, Adsorptive removal of dyes from aqueous solution onto carbon nanotubes: A review, Adv. Colloid Interface Sci., 2013, 193–194, 24–34.[29] A. L. Ahmad, M. M. Loh, and J. A. Aziz, “Preparation and characterization of activated carbon fromoil palm wood and its evaluation on methylene blue adsorption,” Dyes and Pigments, vol. 75, no. 2, pp. 263–272, 2007.
  • [30] J.-Y. Tseng, C.-Y. Changa, Y.-H. Chenb, C.-F. Changc, P.-C. Chiang, Synthesis of micro-size magnetic polymer adsorbent and its application for the removal of Cu(II) ion, Colloid Surf. A: Physicochem. Eng. Aspects 295 (2007) 209–216
  • [31] Y. Yi, C. Lai, Y. Jiang, J. Mei, H. Wang, Preparation of amino-reserved magnetic chitosan microsphere and its application in adsorbing endotoxin, J. Appl. Polym. Sci. 125 (2012) 248–254.
  • [32] Zeynep Eren, Filiz Nuran Acar, Adsorption of Reactive Black 5 from an aqueous solution:equilibrium and kinetic studies, Department of Environmental Engineering, Engineering Faculty, Ataturk University, Erzurum 25240, Desalination 194 (2006) 1–10, Turkey
  • [33]-Kimura, Fávere,Martins,Spinelli and Josué; Adequacy of isotherm adsorption of black 5 reactive dye for crosslinked chitosan microspheres ;2001,
  • [34]- Ali Kara , Lokman Uzun, Necati Besirli , Adil Denizli , Poly(ethylene glycol dimethacrylate-n-vinyl imidazole) beads for heavy metal removal; Journal of Hazardous Materials 106B (2004) 93–99
  • [35]-Irene Yukiko Kimura, Valfredo Tadeu Fávere, Amarildo Otávio Martins2, Viviane Aparecida Spinelli2 and Atche Josué; Adequacy of isotherm adsorption of black 5 reactive dye for crosslinked chitosan microspheres, Acta Scientiarum Maringá, v. 23, n. 6, p. 1313-1317, 2001
  • [36]Şenel, S., Uzun, L., Kara, A., & Denizli, A. (2008). Heavy metal removal from synthetic solutions with magnetic beads under magnetic field. Journal of Macromolcular Science Pure & Applied Chemistry, A45, 635–642.
  • [37]Ali Kara and Emel Demirbel, Kinetic, Isotherm and Thermodynamic Analysis on Adsorption of Cr(VI) Ions from Aqueous Solutions by Synthesis and Characterization of Magnetic-Poly (divinylbenzene-vinylimidazole) Microbeads, Water Air Soil Pollut (2012) 223:2387–2403 DOI 10.1007/s11270-011-1032-1.
Primary Language en
Subjects Engineering, Chemical
Journal Section Articles
Authors

Author: Büşra Elif KAPLAN (Primary Author)
Institution: BURSA ULUDAĞ ÜNİVERSİTESİ
Country: Turkey


Author: Ali KARA
Institution: BURSA ULUDAĞ ÜNİVERSİTESİ
Country: Turkey


Author: Hüseyin Aksel EREN
Institution: BURSA ULUDAĞ ÜNİVERSİTESİ
Country: Turkey


Dates

Application Date : May 19, 2019
Acceptance Date : May 24, 2019
Publication Date : July 19, 2019

Bibtex @research article { jphcfum567513, journal = {Journal of Physical Chemistry and Functional Materials}, issn = {2651-3080}, address = {}, publisher = {Niyazi BULUT}, year = {2019}, volume = {2}, pages = {5 - 11}, doi = {}, title = {Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM)}, key = {cite}, author = {KAPLAN, Büşra Elif and KARA, Ali and EREN, Hüseyin Aksel} }
APA KAPLAN, B , KARA, A , EREN, H . (2019). Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM). Journal of Physical Chemistry and Functional Materials , 2 (1) , 5-11 . Retrieved from https://dergipark.org.tr/en/pub/jphcfum/issue/45047/567513
MLA KAPLAN, B , KARA, A , EREN, H . "Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM)". Journal of Physical Chemistry and Functional Materials 2 (2019 ): 5-11 <https://dergipark.org.tr/en/pub/jphcfum/issue/45047/567513>
Chicago KAPLAN, B , KARA, A , EREN, H . "Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM)". Journal of Physical Chemistry and Functional Materials 2 (2019 ): 5-11
RIS TY - JOUR T1 - Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM) AU - Büşra Elif KAPLAN , Ali KARA , Hüseyin Aksel EREN Y1 - 2019 PY - 2019 N1 - DO - T2 - Journal of Physical Chemistry and Functional Materials JF - Journal JO - JOR SP - 5 EP - 11 VL - 2 IS - 1 SN - 2651-3080- M3 - UR - Y2 - 2019 ER -
EndNote %0 Journal of Physical Chemistry and Functional Materials Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM) %A Büşra Elif KAPLAN , Ali KARA , Hüseyin Aksel EREN %T Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM) %D 2019 %J Journal of Physical Chemistry and Functional Materials %P 2651-3080- %V 2 %N 1 %R %U
ISNAD KAPLAN, Büşra Elif , KARA, Ali , EREN, Hüseyin Aksel . "Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM)". Journal of Physical Chemistry and Functional Materials 2 / 1 (July 2019): 5-11 .
AMA KAPLAN B , KARA A , EREN H . Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM). Journal of Physical Chemistry and Functional Materials. 2019; 2(1): 5-11.
Vancouver KAPLAN B , KARA A , EREN H . Temperature Effects on the Adsorptıon with Mıcrobeads In Reactıve Black 5 m-Poly (EGDMA-VIM). Journal of Physical Chemistry and Functional Materials. 2019; 2(1): 11-5.