Year 2023,
Volume: 7 Issue: 1, 52 - 61, 15.04.2023
Derya Özdemir
,
Saban Bulbul
,
Mehmet Emin Ergün
References
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- 3 de Souza, L.K.C., A.A.S. Gonçalves, L.S. Queiroz ,J.S Chaar, G.N. da Rocha Filho, C.E.F. da Costa,Utilization of acai stone biomass for the sustainable production of nanoporous carbon for CO2 capture. Sustainable Materials and Technologies, 2020. 25: p. e00168.
- 4 Ukanwa K.S., K. Patchigolla, R.Sakrabani, E. Anthony, S. Mandavgane, A Review of Chemicals to Produce Activated Carbon from Agricultural Waste Biomass. Sustainability, 2019. 11(22): p. 6204.
- 5 Bhatnagar, A., W. Hogland, M. Marques , M.Sillanpää, An overview of the modification methods of activated carbon for its water treatment applications. Chemical Engineering Journal, 2013. 219: p. 499–511.
- 6 Ergün, M.E., S. Bulbul , Production and characterization of activated carbon from Black Poplar (Populus Nigra) wood waste with different chemical activation methods. International Advanced Researches and Engineering Journal, 2022 . 6(3): p.167–75.
- 7 Gao, Y., Q. Yue, B. Gao, A.Li, Insight into activated carbon from different kinds of chemical activating agents: A review. Science of The Total Environment, 2020 .746: p.141094.
- 8 Hoang, A.T., S. Kumar, E.Lichtfouse, C.K. Cheng, Varma RS, Senthilkumar N, et al.,Remediation of heavy metal polluted waters using activated carbon from lignocellulosic biomass:An update of recent trends. Chemosphere, 2022. 302: p.134825.
- 9 Sevilla, M., N. Díez, A.B., Fuertes, More Sustainable Chemical Activation Strategies for the Production of Porous Carbons. ChemSusChem,2021.14(1): p.94–117.
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- 12 Ahmad, A., H.M. Al-Swaidan, A.H. Alghamdi ,Production of Activated Carbon from Raw Date Palm Fronds by ZnCl2 Activation. Journal of the Chemical Society of Pakistan, 2015. 37(6): p.1081–7.
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- 16 Moussavi, G., A. Alahabadi , K.Yaghmaeian , M. Eskandari , Preparation, characterization and adsorption potential of the NH4Cl-induced activated carbon for the removal of amoxicillin antibiotic from water. Chemical Engineering Journal, 2013. 217: p.119–28.
- 17 Hussaro, K., Preparation of Activated Carbon From Palm Oil Shell By Chemical Activation Na2CO3 And ZnCl2 As Imprenated For H2S Adsorptıon. American Journal of Environmental Sciences,2014.10(4): p.336–46.
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- 29 Zhang, Y.J., Z.J. Xing, Z.K. Duan, Li. Meng, Y. Wang, Effects of steam activation on the pore structure and surface chemistry of activated carbon derived from bamboo waste. Applied Surface Science, 2014.315: p. 279–86.
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- 31 Thongpat, W., J.Taweekun, K.Maliwan, Synthesis and characterization of microporous activated carbon from rubberwood by chemical activation with KOH. Carbon Lett, 2021.31(5): p.1079–88.
- 32 Tran,K.N., A.J Berkovich, A. Tomsett, S.K. Bhatia, Crystalline Structure Transformation of Carbon Anodes during Gasification.Energy Fuels, 2008.22(3): p.1902–10.
- 33 El Nemr, A., R.M. Aboughaly, A. El Sikaily, S.Ragab, M.S. Masoud,Ramadan, Microporous nano-activated carbon type I derived from orange peel and its application for Cr(VI) removal from aquatic environment. Biomass Conv Bioref,2022 .12(11): p.5125–43.
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- 36 Stavrinou, A., C.A. Aggelopoulos ,C.D. Tsakiroglou , Exploring the adsorption mechanisms of cationic and anionic dyes onto agricultural waste peels of banana, cucumber and potato: Adsorption kinetics and equilibrium isotherms as a tool. Journal of Environmental Chemical Engineering,2018 .6(6): p.6958–70.
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- 39 Örkün Y. Fındık Kabuğundan Fiziksel ve Kimyasal Aktivasyonla Aktif Karbon Üretilmesi ve Karakterizasyonu,Enerji2011,İstanbul Teknik Üniversitesi: Turkey. p. 106.
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Production of activated carbon from the waste paper by chemical activation method
Year 2023,
Volume: 7 Issue: 1, 52 - 61, 15.04.2023
Derya Özdemir
,
Saban Bulbul
,
Mehmet Emin Ergün
Abstract
The cellulose and paper industry accounts for a large part of the circular economy. The need for activated carbons is gradually increasing, especially in the environmental and energy fields. In this study, the production of activated carbon from waste papers was carried out with the help of the chemical activation method and activation agents (phosphoric acid and zinc chloride). The parameters used in the experiments and analyzed were kept constant for all activated carbons. The density values of activated carbon were analyzed more than once in each sample with a helium-gas pycnometer device. Fourier transform infrared spectroscopy (FT-IR) was used to detect functional groups in the structure of activated carbon, and a field emission scanning electron microscope (FE-SEM) was used to study surface properties and porosity development. The distributions of activated carbons and their elemental analysis were examined by energy dispersive spectrometry (EDS) and Mapping analyses. When the results obtained from the activated carbons produced from waste paper in the study were compared with commercial activated carbon, it was observed that the waste paper had a better surface and pore structure than commercial activated carbon for the production of activated carbon, and the activation process was successfully performed.
References
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- 27 Usmani,T.H., A.T.Wahab, S.Z. Ahmed , A.H.K. Yousufzai, Preparation and characterization of activated carbon from a low rank coal. Carbon, 1996 .34(1): p.77–82.
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- 29 Zhang, Y.J., Z.J. Xing, Z.K. Duan, Li. Meng, Y. Wang, Effects of steam activation on the pore structure and surface chemistry of activated carbon derived from bamboo waste. Applied Surface Science, 2014.315: p. 279–86.
- 30 Fernandez, M.E.,G.V.Nunell,P.R. Bonelli ,A.L. Cukierman , Activated carbon developed from orange peels: Batch and dynamic competitive adsorption of basic dyes. Industrial Crops and Products, 2014 .62: p.437–45.
- 31 Thongpat, W., J.Taweekun, K.Maliwan, Synthesis and characterization of microporous activated carbon from rubberwood by chemical activation with KOH. Carbon Lett, 2021.31(5): p.1079–88.
- 32 Tran,K.N., A.J Berkovich, A. Tomsett, S.K. Bhatia, Crystalline Structure Transformation of Carbon Anodes during Gasification.Energy Fuels, 2008.22(3): p.1902–10.
- 33 El Nemr, A., R.M. Aboughaly, A. El Sikaily, S.Ragab, M.S. Masoud,Ramadan, Microporous nano-activated carbon type I derived from orange peel and its application for Cr(VI) removal from aquatic environment. Biomass Conv Bioref,2022 .12(11): p.5125–43.
- 34 Mohammed, J., N.S. Nasri , M.A. Ahmad Zaini , U.D. Hamza , F.N. Ani, Adsorption of benzene and toluene onto KOH activated coconut shell based carbon treated with NH3. International Biodeterioration & Biodegradation, 2015. 102: p. 245–55.
- 35 Al Bahri, M., L.Calvo , M.A. Gilarranz ,J.J. Rodriguez , Activated carbon from grape seeds upon chemical activation with phosphoric acid: Application to the adsorption of diuron from water. Chemical Engineering Journal,2012.203: p. 348–56.
- 36 Stavrinou, A., C.A. Aggelopoulos ,C.D. Tsakiroglou , Exploring the adsorption mechanisms of cationic and anionic dyes onto agricultural waste peels of banana, cucumber and potato: Adsorption kinetics and equilibrium isotherms as a tool. Journal of Environmental Chemical Engineering,2018 .6(6): p.6958–70.
- 37 Sebeia, N., M. Jabli ,A. Ghith , Y.El. Ghoul , F.M .Alminderej , Populus tremula, Nerium oleander and Pergularia tomentosa seed fibers as sources of cellulose and lignin for the bio-sorption of methylene blue. International Journal of Biological Macromolecules, 2019.121: p. 655–65.
- 38 Nasab, S.G., A.Semnani , A.Teimouri , M.J. Yazd , T.M. Isfahani, Habibollahi S. , Decolorization of crystal violet from aqueous solutions by a novel adsorbent chitosan/nanodiopside using response surface methodology and artificial neural network-genetic algorithm. International Journal of Biological Macromolecules,2019 .124: p.429–43.
- 39 Örkün Y. Fındık Kabuğundan Fiziksel ve Kimyasal Aktivasyonla Aktif Karbon Üretilmesi ve Karakterizasyonu,Enerji2011,İstanbul Teknik Üniversitesi: Turkey. p. 106.
- 40 Li, L., P.A. Quinlivan ,D.R.U. Knappe, Effects of activated carbon surface chemistry and pore structure on the adsorption of organic contaminants from aqueous solution. Carbon,2002 .40(12): p.2085–100.
- 41 Prauchner, M.J., V.M.D. Pasa , N.D.S. Molhallem ,C. Otani , S.Otani , L.C.Pardini ,Structural evolution of Eucalyptus tar pitch-based carbons during carbonization. Biomass and Bioenergy, 2005 .28(1): p. 53–61.
- 42 Molina-Sabio, M., F.Rodrı́guez-Reinoso , Role of chemical activation in the development of carbon porosity. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2004.241(1): p.15–25.
- 43 Wibowo, N., L. Setyadhi , D.Wibowo , J.Setiawan , S.Ismadji , Adsorption of benzene and toluene from aqueous solutions onto activated carbon and its acid and heat treated forms: Influence of surface chemistry on adsorption. Journal of Hazardous Materials, 2007 .146(1): p.237–42.
- 44 Zabaniotou, A., G. Stavropoulos,V. Skoulou, Activated carbon from olive kernels in a two-stage process: Industrial improvement. Bioresource Technology,2008 .99(2): p.320–6.
- 45 Fierro, V., V.Torné-Fernández , A. Celzard, Kraft lignin as a precursor for microporous activated carbons prepared by impregnation with ortho-phosphoric acid: Synthesis and textural characterisation. Microporous and Mesoporous Materials,2006 .92(1): p. 243–50.
- 46 Haimour, N.M., S .Emeish, Utilization of date stones for production of activated carbon using phosphoric acid. Waste Management, 2006 .26(6): p. 651–60.
- 47 Dural, M.U., L. Cavas ,S.K. Papageorgiou,F.K. Katsaros, Methylene blue adsorption on activated carbon prepared from Posidonia oceanica (L.) dead leaves: Kinetics and equilibrium studies. Chemical Engineering Journal, 2011.168(1): p.77–85.
- 48 Joshi, S., R.G. Shrestha, R.R. Pradhananga, K. Ariga, L.K.Shrestha , High Surface Area Nanoporous Activated Carbons Materials from Areca catechu Nut with Excellent Iodine and Methylene Blue Adsorption. C, 2022 .8(1): p.2.
- 49 Yang, T., A.C. Lua , Textural and chemical properties of zinc chloride activated carbons prepared from pistachio-nut shells.Materials Chemistry and Physics, 2006.100(2): p.438–44.
- 50 Mirshafiee, S., A. Salamatmanesh, A. Heydari, Magnetic Coconut Shell-Derived Activated Carbon Adorned with Cu2O Nanoparticles: A Green and Efficient Porous Catalyst for N-Arylation of Hetero-Aromatics in Eutectic Medium. ChemistrySelect,2022.7(29): p.e202200454.
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