Journal of Engineering and Applied Sciences
Year:
2019
Volume:
14
Issue:
18
Page No.
6731 - 6741
References
Ahmed, M.J., 2011. Preparation of activated carbons from date stones by chemical activation method using FeCl
3 and ZnCl
2 as activating agents. J. Eng., 17: 1007-1022.
Direct Link | Al Bahri, M., L. Calvo, M.A. Gilarranz and J.J. Rodriguez, 2012. Activated carbon from grape seeds upon chemical activation with phosphoric acid: Application to the adsorption of diuron from water. Chem. Eng. J., 203: 348-356.
CrossRef | Direct Link | Altaher, H. and A.M. Dietrich, 2014. Characterizing o-and p-nitrophenols adsorption onto innovative activated carbon prepared from date pits. Water Sci. Technol., 69: 31-37.
CrossRef | PubMed | Direct Link | Aygun, A., S. Yenisoy-Karakas and I. Duman, 2003. Production of granular activated carbon from fruit stones and nutshells and evaluation of their physical, chemical and adsorption properties. Microporous Mesoporous Mater., 66: 189-195.
CrossRef | Direct Link | Bedoui, A., S. Souissi-Najar and A. Ouederni, 2014. Characterization and phenols adsorption of olive stones based activated carbon. J. Intl. Environ. Appl. Sci., 9: 182-193.
PubMed | Direct Link | Budinova, T., E. Ekinci, F. Yardim, A. Grimm and E. Bjornbom
et al., 2006. Characterization and application of activated carbon produced by H>sub>3PO
4 and water vapor activation. Fuel Proc. Technol., 87: 899-905.
CrossRef | Direct Link | Caturla, F., M. Molina-Sabio and F. Fordriguez-Reinon, 1991. Preparation of activated carbon by chemical activation with ZnCl2. Carbon, 29: 999-1007.
Cazetta, A.L., A.M.M. Vargas, E.M. Nogami, M.H. Kunita and M.R. Guilherme
et al., 2011. NaOH-activated carbon of high surface area produced from coconut shell: Kinetics and equilibrium studies from the methylene blue adsorption. Chem. Eng. J., 174: 117-125.
CrossRef | Direct Link | Cheenmatchaya, A. and S. Kungwankunakorn, 2014. Preparation of activated carbon derived from rice husk by simple carbonization and chemical activation for using as gasoline adsorbent. Intl. J. Environ. Sci. Dev., 5: 171-175.
CrossRef | Direct Link | Deng, H., G. Li, H. Yang, J. Tang and J. Tang, 2010. Preparation of activated carbons from cotton stalk by microwave assisted KOH and K
2CO
3 activation. Chem. Eng. J., 163: 373-381.
CrossRef | Direct Link | Dobele, G., G. Rossinskaja, G. Telysheva, D. Meier and O. Faix, 1999. Cellulose dehydration and depolymerization reactions during pyrolysis in the presence of phosphoric acid. J. Anal. Appl. Pyrol., 49: 307-317.
CrossRef | Direct Link | El-Hendawy, A.N.A., 2005. Surface and adsorptive properties of carbons prepared from biomass. Appl. Surf. Sci., 252: 287-295.
CrossRef | Direct Link | El-Naas, M.H., S. Al-Zuhair and M. Abu-AlHaija, 2010. Removal of phenol from petroleum refinery wastewater through adsorption on date-pit activated carbon. Chem. Engin. J., 162: 997-1005.
CrossRef | Direct Link | El-Sayed, G.O., M.M. Yehia and A.A. Asaad, 2014. Assessment of activated carbon prepared from corncob by chemical activation with phosphoric acid. Water Resour. Ind., 7: 66-75.
CrossRef | Direct Link | Gao, Y., Q. Yue and B. Gao, 2016. Insights into properties of activated carbons prepared from different raw precursors by pyrophosphoric acid activation. J. Environ. Sci., 41: 235-243.
CrossRef | PubMed | Direct Link | Girgis, B.S. and A.N.A. El-Hendawy, 2002. Porosity development in activated carbons obtained from date pits under chemical activation with phosphoric acid. Microporous Mesoporous Mater., 52: 105-117.
CrossRef | Direct Link | Girgis, B.S. and M.F. Ishak, 1999. Activated carbon from cotton stalks by impregnation with phosphoric acid. Mater. Lett., 39: 107-114.
CrossRef | Direct Link | Gokturk, S. and S. Kaluc, 2008. Removal of selected organic compounds in aqueous solutions by activated carbon. J. Environ. Sci. Technol., 1: 111-123.
CrossRef | Direct Link | Gonzalez-Serrano, E., T. Cordero, J. Rodriguez-Mirasol, L. Cotoruelo and J.J. Rodriguez, 2004. Removal of water pollutants with activated carbons prepared from H
3PO
4 activation of lignin from kraft black liquors. Water Res., 38: 3043-3050.
CrossRef | Direct Link | Gurten, I.I., M. Ozmak, E. Yagmur and Z. Aktas, 2012. Preparation and characterisation of activated carbon from waste tea using K
2CO
3. Biomass Bioenergy, 37: 73-81.
CrossRef | Direct Link | Hameed, B.H. and A.A. Rahman, 2008. Removal of phenol from aqueous solutions by adsorption onto activated carbon prepared from biomass material. J. Hazard. Mater., 160: 576-581.
CrossRef | Direct Link | Hayash, J., T. Horikawa, I. Takeda, K. Muroyama and F.N. Ani, 2002. Preparing activated carbon from various nutshells by chemical activation with K
2CO
3. Carbon, 40: 2181-2186.
Direct Link | Hsu, L.Y. and H. Teng, 2000. Influence of different chemical reagents on the preparation of activated carbons from bituminous coal. Fuel Proc. Technol., 64: 155-166.
Direct Link | Kalderis, D., S. Bethanis, P. Paraskeva and E. Diamadopoulos, 2008. Production of activated carbon from bagasse and rice husk by a single-stage chemical activation method at low retention times. Bioresour. Technol., 99: 6809-6816.
CrossRef | Kong, J., Q. Yue, L. Huang, Y. Gao and Y. Sun
et al., 2013. Preparation, characterization and evaluation of adsorptive properties of leather waste based activated carbon via physical and chemical activation. Chem. Eng. J., 221: 62-71.
CrossRef | Direct Link | Lam, E. and J.H. Luong, 2014. Carbon materials as catalyst supports and catalysts in the transformation of biomass to fuels and chemicals. ACS. Catal., 4: 3393-3410.
CrossRef | Direct Link | Lim, W.C., C. Srinivasakannan and N. Balasubramanian, 2010. Activation of palm shells by phosphoric acid impregnation for high yielding activated carbon. J. Anal. Applied Pyrolysis, 88: 181-186.
CrossRef | Direct Link | Mahamad, M.N., M.A.A. Zaini and Z.A. Zakaria, 2015. Preparation and characterization of activated carbon from pineapple waste biomass for dye removal. Intl. Biodeterior. Biodegrad., 102: 274-280.
CrossRef | Direct Link | Marsh, H. and F.R. Reinoso, 2006. Activated Carbon. Elsevier, New York, USA., ISBN:9780080455969, Pages:554.
Miao, Q., Y. Tang, J. Xu, X. Liu, L. Xiao and Q. Chen, 2013. Activated carbon prepared from soybean straw for phenol adsorption. J. Taiwan Inst Chem. E., 44: 458-465.
CrossRef | Direct Link | Moreno-Castilla, C., 2004. Adsorption of organic molecules from aqueous solutions on carbon materials. Carbon, 42: 83-94.
Nabais, J.M.V., C. Laginhas, M.M.L.R. Carrott, P.J.M. Carrott, J.E.C. Amoros and A.V.N. Gisbert, 2013. Surface and porous characterisation of activated carbons made from a novel biomass precursor, the esparto grass. Applied Surf. Sci., 265: 919-924.
CrossRef | Nabais, J.M.V., C.E.C. Laginhas, P.J.M. Carrott and M.R. Carrott, 2011. Production of activated carbons from almond shell. Fuel Proc. Technol., 92: 234-240.
CrossRef | Direct Link | Nada, A.A.M. and M.L. Hassan, 2003. Phosphorylated cation‐exchangers from cotton stalks and their constituents. J. Appl. Polym. Sci., 89: 2950-2956.
Direct Link | Najar-Souissi, S., A. Ouederni and A. Ratel, 2005. Adsorption of dyes onto activated carbon prepared from olive stones. J. Environ. Sci., 17: 998-1003.
PubMed | Direct Link | Njoku, V.O., M.A. Islam, M. Asif and B.H. Hameed, 2014. Utilization of sky fruit husk agricultural waste to produce high quality activated carbon for the herbicide Bentazon adsorption. Chem. Eng. J., 251: 183-191.
CrossRef | Direct Link | Ouederni, A., S. Souissi-Najar and A. Ratel, 2006. Activated carbon from olive stones by a two step process: Influence of production parameters on textural characteristics. Ann. Chim. Sci. Mat., 31: 151-167.
CrossRef | Direct Link | Philip, C.A. and B.S. Girgis, 1996. Adsorption characteristics of microporous carbons from apricot stones activated by phosphoric acid. J. Chem. Technol. Biotechnol. Intl. Res. Proc. Environ. Clean, 67: 248-254.
CrossRef | Direct Link | Prahas, D., Y. Kartika, N. Indraswati and S. Ismadji, 2008. Activated carbon from jackfruit peel waste by H
3PO
4 chemical activation: Pore structure and surface chemistry characterization. Chem. Eng. J., 140: 32-42.
CrossRef | Reddy, K.S.K., A. Al Shoaibi and C. Srinivasakannan, 2012. A comparison of microstructure and adsorption characteristics of activated carbons by CO
2 and H
3PO
4 activation from date palm pits. New Carb. Mater., 27: 344-351.
CrossRef | Direct Link | Saad, H., F.C.E. Bouhtoury, A. Pizzi, K. Rode and B. Charrier
et al., 2012. Characterization of pomegranate peels tannin extractives. Ind. Crop. Prod., 40: 239-246.
CrossRef | Direct Link | Saadi, W., S.N. Souissi and A. Ouederni, 2016. Pomegranate Peels precursor used in the synthesis of activated Carbon: Application in the wastewater treatment. J. Intl. Environ. Appl. Sci., 11: 318-330.
Direct Link | Saygili, H., F. Guzel and Y. Onal, 2015. Conversion of grape industrial processing waste to activated carbon sorbent and its performance in cationic and anionic dyes adsorption. J. Cleaner Prod., 93: 84-93.
CrossRef | Direct Link | Senthilkumar, T., S.K. Chattopadhyay and L.R. Miranda, 2017. Optimization of activated carbon preparation from pomegranate peel (
Punica granatum peel) using RSM. Chem. Eng. Commun., 204: 238-248.
CrossRef | Direct Link | Serafin, J., U. Narkiewicz, A.W. Morawski, R.J. Wrobel and B. Michalkiewicz, 2017. Highly microporous activated carbons from biomass for CO2 capture and effective micropores at different conditions. J. CO
2 Util., 18: 73-79.
CrossRef | Direct Link | Teng, H. and C.T. Hsieh, 1999. Liquid‐phase adsorption of phenol by activated carbons prepared from bituminous coals with different oxygen contents. J. Chem. Technol. Biotechnol. Intl. Res. Proc. Environ. Clean, 74: 123-130.
CrossRef | Direct Link | Tongpoothorn, W., M. Sriuttha, P. Homchan, S. Chanthai and C. Ruangviriyachai, 2011. Preparation of activated carbon derived from
Jatropha curcas fruit shell by simple thermo-chemical activation and characterization of their Physico-chemical properties. Chem. Eng. Res. Des., 89: 335-340.
CrossRef | Direct Link | Vargas, A.M., A.L. Cazetta, C.A. Garcia, J.C. Moraes and E.M. Nogami
et al., 2011. Preparation and characterization of activated carbon from a new raw lignocellulosic material: Flamboyant (
Delonix regia) pods. J. Environ. Manage., 92: 178-184.
CrossRef | PubMed | Direct Link | Wang, L., Y. Guo, B. Zou, C. Rong and X. Ma
et al., 2011. High surface area porous carbons prepared from hydrochars by phosphoric acid activation. Bioresour. Technol., 102: 1947-1950.
CrossRef | PubMed | Direct Link | Wang, X., D. Li, W. Li, J. Peng and H. Xia
et al., 2013. Optimization of mesoporous activated carbon from coconut shells by chemical activation with phosphoric acid. BioResources, 8: 6184-6195.
Direct Link | Wu, F.C. and R.L. Tseng, 2006. Preparation of highly porous carbon from fir wood by KOH etching and CO
2 gasification for adsorption of dyes and phenols from water. J. Colloid Interf. Sci., 294: 21-30.
CrossRef | PubMed | Direct Link | Zuo, S., Z. Xiao and J. Yang, 2012. Evolution of gaseous products from biomass pyrolysis in the presence of phosphoric acid. J. Anal. Appl. Pyrol., 95: 236-240.
CrossRef | Direct Link |