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Preparation of Sewage Sludge¿Based Activated Carbon for Hydrogen Sulphide Removal

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Preparation of Sewage Sludge¿Based Activated Carbon for Hydrogen Sulphide Removal

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Lujan Facundo, MJ.; Iborra-Clar, MI.; Mendoza Roca, JA.; Alcaina-Miranda, MI.; Maciá, AM.; Lardin, C.; Pastor, L.... (2020). Preparation of Sewage Sludge¿Based Activated Carbon for Hydrogen Sulphide Removal. Water Air & Soil Pollution. 231(4):1-12. https://doi.org/10.1007/s11270-020-04518-w

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/165905

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Title: Preparation of Sewage Sludge¿Based Activated Carbon for Hydrogen Sulphide Removal
Author: Lujan Facundo, Maria Jose Iborra-Clar, María Isabel Mendoza Roca, José Antonio Alcaina-Miranda, María Isabel Maciá, A. M. Lardin, C. Pastor, Laura Claros, J.
UPV Unit: Universitat Politècnica de València. Departamento de Ingeniería Química y Nuclear - Departament d'Enginyeria Química i Nuclear
Universitat Politècnica de València. Instituto Universitario de Ingeniería del Agua y del Medio Ambiente - Institut Universitari d'Enginyeria de l'Aigua i Medi Ambient
Universitat Politècnica de València. Departamento de Ingeniería Hidráulica y Medio Ambiente - Departament d'Enginyeria Hidràulica i Medi Ambient
Issued date:
Abstract:
[EN] The circular economy concept boosts the use of wastes as secondary raw materials in the EU renewable and sustainable framework. In wastewater treatment plants (WWTP), sludge is one of the most important wastes, and ...[+]
Subjects: Activated carbon , Adsorption , Deodorization , Wastewater sludge
Copyrigths: Reserva de todos los derechos
Source:
Water Air & Soil Pollution. (issn: 0049-6979 )
DOI: 10.1007/s11270-020-04518-w
Publisher:
Springer-Verlag
Publisher version: https://doi.org/10.1007/s11270-020-04518-w
Type: Artículo

References

Andrade, S. N., Veloso, C. M., Fontan, R. C. I., Bonomo, R. C. F., Santos, L. S., Brito, M. J. P., & Diniz, G. A. (2018). Chemical-activated carbon from coconut (Cocos nucifera) endocarp waste and its application in the adsorption of beta lactoglobulin protein. Revista Mexicana de Ingenieria Quimica, 17(2), 463–475.

APHA, AWWA, WEF. (2005). Standard methods for the examination of water and wastewater. Washington.

Arami-Niya, A., Daud, W. M. A. W., & Mjalli, F. S. (2010). Using granular activated carbon prepared from oil palm shell by ZnCl 2 and physical activation for methane adsorption. Journal of Analytical and Applied Pyrolysis, 89, 197–203. [+]
Andrade, S. N., Veloso, C. M., Fontan, R. C. I., Bonomo, R. C. F., Santos, L. S., Brito, M. J. P., & Diniz, G. A. (2018). Chemical-activated carbon from coconut (Cocos nucifera) endocarp waste and its application in the adsorption of beta lactoglobulin protein. Revista Mexicana de Ingenieria Quimica, 17(2), 463–475.

APHA, AWWA, WEF. (2005). Standard methods for the examination of water and wastewater. Washington.

Arami-Niya, A., Daud, W. M. A. W., & Mjalli, F. S. (2010). Using granular activated carbon prepared from oil palm shell by ZnCl 2 and physical activation for methane adsorption. Journal of Analytical and Applied Pyrolysis, 89, 197–203.

Aslam, Z., Shawabkeh, R., Hussein, I., Al-Baghli, N., & Eic, M. (2015). Synthesis of activated carbon from oil fly ash for removal of H2S from gas stream. Applied Surface Science, 327, 107–115.

Carrete, J., García, M., Rodríguez, J. R., Cabeza, O., & Varela, L. M. (2011). Theoretical model for moisture adsorption on ionic liquids: a modified Brunauer–Emmet–Teller isotherm approach. Fluid Phase Equilibria, 301, 118–122.

Chen, C. L., Park, S. W., Su, J. F., Yu, Y. H., Heo, J. E., Kim, K. D., & Huang, C. P. (2019). The adsorption characteristics of fluoride on commercial activated carbon treated with quaternary ammonium salts (Quats). Science of the Total Environment, 693, 133605.

Cheng, S., Zhang, L., Ma, A., Xia, H., Peng, J., Li, C., & Shu, J. (2018). Comparison of activated carbon and iron/cerium modified activated carbon to remove methylene blue from wastewater. Journal of Environmental Sciences, 65, 92–102.

Chiavola, A. (2013). Textiles. Water Environment Research, 85, 1581–1600.

De Falco, G., Montagnaro, F., Balsamo, M., Erto, A., Deorsola, F. A., Lisi, L., & Cimino, S. (2018). Synergic effect of Zn and Cu oxides dispersed on activated carbon during reactive adsorption of H 2 S at room temperature. Microporous and Mesoporous Materials, 257, 135–146.

Dias, J. M., Alvim-Ferraz, M. C. M., Almeida, M. F., Rivera-Utrilla, J., & Sánchez-Polo, M. (2007). Waste materials for activated carbon preparation and its use in aqueous-phase treatment: a review. Journal of Environmental Management, 85, 833–846.

Donald, J., Ohtsuka, Y., & Xu, C. C. (2011). Effects of activation agents and intrinsic minerals on pore development in activated carbons derived from a Canadian peat. Materials Letters, 65, 744–747.

dos Reis, G. S., Mahbub, M. K. B., Wilhelm, M., Lima, E. C., Sampaio, C. H., Saucier, C., & Dias, S. L. P. (2016). Activated carbon from sewage sludge for removal of sodium diclofenac and nimesulide from aqueous solutions. Korean Journal of Chemical Engineering, 33(11), 3149–3161.

Hadi, P., Xu, M., Ning, C., Lin, C. S. K., & McKay, G. (2015). A critical review on preparation, characterization and utilization of sludge-derived activated carbons for wastewater treatment. Chemical Engineering Journal, 260, 895–906.

Kacan, E. (2016). Optimum BET surface areas for activated carbon produced from textile sewage sludges and its application as dye removal. Journal of Environmental Management, 166, 116–123.

Kazak, O., Eker, Y. R., Bingol, H., & Tor, A. (2018). Preparation of chemically-activated high surface area carbon from waste vinasse and its efficiency as adsorbent material. Journal of Molecular Liquids, 272, 189–197.

Kimura, K., Honoki, D., & Sato, T. (2017). Effective physical cleaning and adequate membrane flux for direct membrane filtration (DMF) of municipal wastewater: up-concentration of organic matter for efficient energy recovery. Separation and Purification Technology, 181, 37–43.

Kuroda, S., Nagaishi, T., Kameyama, M., Koido, K., Seo, Y., & Dowaki, K. (2018). Hydroxyl aluminium silicate clay for biohydrogen purification by pressure swing adsorption: Physical properties, adsorption isotherm, multicomponent breakthrough curve modelling, and cycle simulation. International Journal of Hydrogen Energy, 43, 16573–16588.

Ladavos, A. K., Katsoulidis, A. P., Iosifidis, A., Triantafyllidis, K. S., Pinnavaia, T. J., & Pomonis, P. J. (2012). The BET equation, the inflection points of N2 adsorption isotherms and the estimation of specific surface area of porous solids. Microporous and Mesoporous Materials, 151, 126–133.

Lapham, D. P., & Lapham, J. L. (2017). Gas adsorption on commercial magnesium stearate: effects of degassing conditions on nitrogen BET surface area and isotherm characteristics. International Journal of Pharmaceutics, 530, 364–376.

Li, W. H., Yue, Q. Y., Gao, B. Y., Ma, Z. H., Li, Y. J., & Zhao, H. X. (2011). Preparation and utilization of sludge-based activated carbon for the adsorption of dyes from aqueous solutions. Chemical Engineering Journal, 171, 320–327.

Li, F., Lei, T., Zhang, Y., Wei, J., & Yang, Y. (2015). Preparation, characterization of sludge adsorbent and investigations on its removal of hydrogen sulfide under room temperature. Frontiers of Environmental Science & Engineering, 9(2), 190–196.

Li, J., Xing, X., Li, J., Shi, M., Lin, A., Xu, C., Zheng, J., & Li, R. (2018). Preparation of thiol-functionalized activated carbon from sewage sludge with coal blending for heavy metal removal from contaminated water. Environmental Pollution, 234, 677–683.

Li, D., Zhou, J., Wang, Y., Tian, Y., Wei, L., Zhang, Z., Qiao, Y., & Li, J. (2019). Effects of activation temperature on densities and volumetric CO2 adsorption performance of alkali-activated carbons. Fuel, 238, 232–239.

Li, Y. H., Chang, F. M., Huang, B., Song, Y. P., Zhao, H. Y., & Wang, K. J. (2020). Activated carbon preparation from pyrolysis char of sewage sludge and its adsorption performance for organic compounds in sewage. Fuel, 266, 117053.

Mininni, G., Blanch, A. R., Lucena, F., & Berselli, S. (2015). EU policy on sewage sludge utilization and perspectives on new approaches of sludge management. Environmental Science and Pollution Research, 22, 7361–7374.

Pandiarajan, A., Kamaraj, R., Vasudevan, S., & Vasudevan, S. (2018). OPAC (orange peel activated carbon) derived from waste orange peel for the adsorption of chlorophenoxyacetic acid herbicides from water: adsorption isotherm, kinetic modelling and thermodynamic studies. Bioresource Technology, 261, 329–341.

Peng, L., Dai, H., Wu, Y., Peng, Y., & Lu, X. (2018). A comprehensive review of the available media and approaches for phosphorus recovery from wastewater. Water, Air, and Soil Pollution, 229.

Pezoti, O., Cazetta, A. L., Bedin, K. C., Souza, L. S., Martins, A. C., Silva, T. L., Santos Júnior, O. O., Visentainer, J. V., & Almeida, V. C. (2016). NaOH-activated carbon of high surface area produced from guava seeds as a high-efficiency adsorbent for amoxicillin removal: kinetic, isotherm and thermodynamic studies. Chemical Engineering Journal, 288, 778–788.

Ping, Q., Zheng, M., Dai, X., & Li, Y. (2020). Metagenomic characterization of the enhanced performance of anaerobic fermentation of waste activated sludge with CaO2 addition at ambient temperature: fatty acid biosynthesis metabolic pathway and CAZymes. Water Research, 170, 115309.

Qiu, M., & Huang, C. (2015). Removal of dyes from aqueous solution by activated carbon from sewage sludge of the municipal wastewater treatment plant. Desalination and Water Treatment, 53, 3641–3648.

Rawal, S., Joshi, B., & Kumar, Y. (2018). Synthesis and characterization of activated carbon from the biomass of Saccharum bengalense for electrochemical supercapacitors. The Journal of Energy Storage, 20, 418–426.

Satya Sai, P. M., & Krishnaiah, K. (2005). Development of the pore-size distribution in activated carbon produced from coconut shell char in a fluidized-bed reactor. Industrial and Engineering Chemistry Research, 44, 51–60.

Shen, F., Liu, J., Zhang, Z., Dong, Y., & Gu, C. (2018). Density functional study of hydrogen sulfide adsorption mechanism on activated carbon. Fuel Processing Technology, 171, 258–264.

Sing, K. S. W., Everett, D. H., Haul, R. A. W., Moscou, L., Pierotti, R. A., Rouquerol, J., & Siemieniewska, T. (1985). Reporting physisorption data for gas/solid systems with special reference to the determination of surface area and porosity. Pure and Applied Chemistry, 57.

Sulaiman, N. S., Hashim, R., Mohamad Amini, M. H., Danish, M., & Sulaiman, O. (2018). Optimization of activated carbon preparation from cassava stem using response surface methodology on surface area and yield. Journal of Cleaner Production, 198, 1422–1430.

Sun, K., Huang, Q., Chi, Y., & Yan, J. (2018). Effect of ZnCl2-activated biochar on catalytic pyrolysis of mixed waste plastics for producing aromatic-enriched oil. Waste Management, 81, 128–137.

Tian, D., Xu, Z., Zhang, D., Chen, W., Cai, J., Deng, H., Sun, Z., & Zhou, Y. (2019). Micro–mesoporous carbon from cotton waste activated by FeCl3/ZnCl2: preparation, optimization, characterization and adsorption of methylene blue and eriochrome black T. Journal of Solid State Chemistry, 269, 580–587.

Wang, X., Zhu, N., & Yin, B. (2008). Preparation of sludge-based activated carbon and its application in dye wastewater treatment. Journal of Hazardous Materials, 153, 22–27.

Wang, N., Zhang, W., Cao, B., Yang, P., Cui, F., & Wang, D. (2018). Advanced anaerobic digested sludge dewaterability enhancement using sludge based activated carbon (SBAC) in combination with organic polymers. Chemical Engineering Journal, 350, 660–672.

Wei Yu, K. S. (2018). Modeling gas adsorption in Marcellus shale using Langmuir and BET isotherms. In Shale gas and tight oil reservoir simulation (pp. 129–154).

Ye, Y., Ngo, H. H., Guo, W., Liu, Y., Chang, S. W., Nguyen, D. D., Liang, H., & Wang, J. (2018). A critical review on ammonium recovery from wastewater for sustainable wastewater management. Bioresource Technology, 268, 749–758.

Zhang, J. P., Sun, Y., Woo, M. W., Zhang, L., & Xu, K. Z. (2016). Preparation of steam activated carbon from black liquor by flue gas precipitation and its performance in hydrogen sulfide removal: experimental and simulation works. Revista Mexicana de Urología, 76, 395–404.

Zhang, Y., Song, X., Xu, Y., Shen, H., & Kong, X. (2019). Utilization of wheat bran for producing activated carbon with high speci fi c surface area via NaOH activation using industrial furnace. Journal of Cleaner Production, 210, 366–375.

Zhu, J., Li, Y. H., Xu, L., & Liu, Z. Y. (2018). Removal of toluene from waste gas by adsorption-desorption process using corncob-based activated carbons as adsorbents. Ecotoxicology and Environmental Safety, 165, 115–125.

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