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2019 | 74 | 1 |

Article title

Organic bio-wastes as potential precursors used for preparation of activated carbons- review

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EN

Abstracts

EN
Currently significant amounts of wastes, which pose a real threat to the natural environment and human health, are produced worldwide. One way to get rid of waste materials is to dispose them in landfills but some of them no longer perform their function due to overfilling. For this reason, scientists pay more and more attention to the search for  their possible disposal and/or recycling, as it is impossible to prevent its generation completely. Recently, many researchers have taken up the topic of the use of agri-food wastes due to their low cost and widespread availability as a starting material for the production of activated carbons. As a result, it was found out that organic wastes are very successful precursors of organic matter and the obtained activated carbons are characterized by a very well developed porous structure. The paper presents a literature review regarding the possibility of using various waste materials under different impregnation and preparation conditions to obtain activated carbons with a developed surface area and good adsorption properties.

Year

Volume

74

Issue

1

Physical description

Dates

published
2019
online
2020-06-17

Contributors

References

  • [1] A. Zelga-Szmidla, A. Ociepa-Kubicka, K. Rozpondek, Zeszyty Naukowe Politechniki Częstochowskiej Zarządzanie, 31, 294, (2018)
  • [2] P. Nowicki, J. Kazmierczak-Razna, P. Skibiszewska, M. Wiśniewska, A. Nosal-Wiercińska, R. Pietrzak, Adsorption, 22, 489, (2016)
  • [3] GUS, Odpady komunalne i utrzymanie czystości i porządku w gminach w 2017 roku, Główny Urząd Statystyczny, Warszawa (2018)
  • [4] J. Baran, Roczniki Naukowe Stowarzyszenia Ekonomistów Rolnictwa i Agrobiznesu, 19(3), (2017)
  • [5] M. Czop , D. Bistuła, Sz. Nowak, Archiwum Gospodarki Odpadami i Ochrony Środowiska, 20, 9, (2018)
  • [6] J. Kostecka, J. Koc-Jurczyk , K. Brudzisz, Archiwum Gospodarki Odpadami i Ochrony Środowiska, 16, (2014)
  • [7] M. Owczuk , D. Wardzińska , A. Zamojska-Jaroszewicz , A. Matuszewska , Studia Ecologiae et Bioethicae, 3, 133, (2013)
  • [8] K. Kantea, C. Nieto-Delgadob, J. R. Rangel-Mendezb, T. J. Bandosza, J. Hazard. Mater., 201, 141, (2012)
  • [9] R. H. Hesasa, W. M. A. W. Dauda, J.N. Sahua, A. Arami-Niya, J. Anal. Appl. Pyrolysis, 100, 1, (2013)
  • [10] M. A. Yahya, M. H. Mansor, W. A. A. W. Zolkarnaini, N. S. Rusli, A. Aminuddin, K. Mohamad, F. A. M. Sabhan, A. Abdallah, In: AIP Conference Proceedings, AIP Publishing, 1972, 030023, (2018)
  • [11] D. Cuhadaroglu, O. A. Uygun, Afr. J. Biotechnol.,7, 3703, (2008)
  • [12] L. I. Onyeji, A. A. Aboje, Int. J. Eng. Sci. Technol., 3, 8238, (2011)
  • [13] W. B. Wan Nik, M. M. Rahman, A. M. Yusof, F. N. Ani, C. M. C. Adnan, In: Proceedings of the 1st international conference on natural research and engineering technology; 2006.]
  • [14] N. H. Phan, S. Rio, C. Faur, L. Le Coq, P. Le Cloirec, T. H. Nguyen, Carbon, 44, 2569, (2006)
  • [15] A. M. Puziy, O. I. Poddubnaya, R. P. Socha, J. Gurgul, M. Wisniewski, Carbon, 46, 2113, (2008)
  • [16] L. Li, P. A. Quinlivan, D. R. U. Knappe, Carbon, 40, 2085, (2002)
  • [17] J. M. Dias, M. C. M. Alvim-Ferraz, M. F. Almeida, J. Rivera-Utrilla, M. Sánchez-Polo, J. Environ. Manage., 85, 833, (2007)
  • [18] M. A. Yahya, Z. Al-Qodah, C.W. Zanariah Ngah, Renewable Sustainable Energy Rev., 46, 218, (2015)
  • [19] J. Choma, M. Kloske, Ochrona środowiska, 2, 3, (1999)
  • [20] B. H. Hameed, F. B. M. Daud, Journal Chemical Engineering, 139 (2008) 48-55
  • [21] L. Niazi, A. Lashanizadegan, H. Sharififard, J. Clean. Prod., 185, 554, (2018)
  • [22] G. Z. Kyzas, E. A. Deliyanni, K. A. Matis, Colloids Surf., A, 490, 74, (2016)
  • [23] S. Yaglikci, Y. Gokce, E. Yagmur, Z. Aktas, Environ. Technol., 1, (2019)
  • [24] H. Saygılı, F. Güzel, J.Clean. Prod., 113, 995, (2016)
  • [25] G. Selvaraju, N. K. A. Bakar, J. Clean. Prod., 141, 989, (2017)
  • [26] Ş. Parlayıcı, E. Pehlivan, Powder Technol., 317, 23, (2017)
  • [27] K. Sartovaa, E. Omurzaka, G. Kambarovab, I. Dzhumaevb, B. Borkoeva, Z. Abdullaevac, Diamond Relat. Mater., 91, 90, (2019)
  • [28] I.A. Aguayo-Villarreal, A. Bonilla-Petriciolet, R. Muñiz-Valencia, J. Mol. Liq. 230, 686, (2017)
  • [29] N. S. Sulaiman, R. Hashim , M. H. M. Amini, M. Danish, O. Sulaiman, Journal of Cleaner Production, 198, 1422, (2018)
  • [30] D. Adinata, W. M. A. W. Daud, M. K. Aroua, Bioresour. Technol., 98, 145, (2007)
  • [31] K. Le Van, T. T. L. Thi, Prog. Nat. Sci.-Mat., 24, 191, (2014)
  • [32] G. O. El-Sayed, M. M. Yehia, A. A. Asaad, Water Resour. Ind., 7, 66, (2014)
  • [33] C. Saka, J. Anal. Appl. Pyrolysis, 95, 21, (2012)
  • [34] S. M. Yakout, G. S. El-Deen, Arab. J. Chem., 9, 1155, (2016)
  • [35] D. Yang, L. Jiang, S. Yang, S. Wei, Procedia Eng., 205, 3538, (2017)
  • [36] J. Xu, L. Chen, H. Qu, Y. Jiao, J. Xie, G. Xing, Appl. Surf. Sci., 320, 674, (2014)
  • [37] S. Uçar, M. Erdem, T. Tay, S. Karagöz, Appl. Surf. Sci., 255, 8890, (2009)
  • [38] X. Ma, F. Ouyang, Appl. Surf. Sci., 268, 566, (2013)
  • [39] H. Jankowska, A. Świątkowski, J. Choma, Wydawnictwo Naukowo-Techniczne, Warszawa, 1985
  • [40] S. Zhang, L. Tao, Y. Zhang, Z. Wang, G. Gou, M. Jiang, C. Huang, Z. Zhou, Powder Technol., 295, 152, (2016)
  • [41] M. Cempa-Balewicz, M. J. Łączny, A. Smoliński, S. Iwaszenko, J. Sust. Min., 12, 21, (2013)
  • [42] P. Nowicki, R. Pietrzak, Węgle aktywne wzbogacone w azot – otrzymywanie, właściwości i potencjalne zastosowanie (rozdział 7), w: Adsorbenty i katalizatory: wybrane technologie a środowisko (Ed. J. Ryczkowski), Uniwersytet Rzeszowski, 129, (2012)
  • [43] Z. Al-Qodah, R. Shawabkah, Braz. J. Chem. Eng., 26, 127, (2009)
  • [44] J. Georgin, G. L. Dottob, M. A. Mazuttib, E. L. Foletto, J. Environ. Chem. Eng., 4, 266, (2016)
  • [45] J. Choma, Inżynieria i Ochrona Środowiska, 16, 163, (2013)
  • [46] S. M. Lamine, Ch. Ridha, H. M. Mahfoud, Ch. Mouad, B. Lotfi, A. H. Al-Dujaili, Energy Procedia, 50, 393, (2014)
  • [47] F. Boudrahem, A. Soualah, and F. Aissani-Benissad, J. Chem. Eng. Data, 56, 1946, (2011)
  • [48] V. Boonamnuayvitaya, S. Sae-ung, W. Tanthapanichakoon, Sep. Purif. Technol., 42, 159, (2005)
  • [49] H. Laksaci, A. Khelifi, M. Trari, A. Addoun, J. Clean. Prod., 147, 254, (2017)
  • [50] L. C.A. Oliveira, E. Pereira, I. R. Guimaraes, A. Valloneb, M. Pereirac, J. P. Mesquita, K. Sapag, J. Hazard. Mater., 165, 87, (2009)
  • [51] M. Gonçalves, M. C. Guerreiro, P. H. Ramos, L. C. Alves de Oliveira, K. Sapag, Water Sci. Technol., 68, 1085, (2013)
  • [52] Z. Hu, M. P. Srinivasan, Y. Ni, Carbon, 39, 877, (2001)

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.ojs-doi-10_17951_aa_2019_74_1_9-30
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