Treatment methods for water-containing organics are gaining significant attraction in modern-day research. Amines are an important organic compound class encountered in industrial wastewater streams. The current research paper focuses on studying the adsorption behavior of aniline and parachloro-aniline using a graphite-based adsorbent, namely, Nyex-1000, and the subsequent regeneration of the adsorbent.   To determine Nyex-1000's adsorption capacity, several parameters, including time, pH, and concentration, were assessed. Adsorption isotherms, kinetics, and used adsorbent regeneration were also investigated. The adsorption of aniline and parachloro-aniline was found to be quite rapid owing to its non-porous nature. Moreover, the low energy requirement makes the process quite economical due to the high electrical conductivity of the adsorbent. The adsorption data was fitted to Langmuir, Freundlich, Redlich Peterson, Sips, and Toth isotherm models. In aniline’s case, Langmuir and Parachloro-aniline Sips models gave the best fitting with the highest R² value.  A regeneration efficiency of 100% was observed in case of both aniline and parachloro-aniline by passing a charge of 5 and 10 coulombs per gram through the adsorbent bed 10 mm in thickness. Adsorption for parachloro-aniline  was found to be 0.88 mg/g, and for aniline was found to be 0.40 mg/g. The reduction in adsorption capacity was minimal after several adsorption and regeneration cycles. This study found that spent adsorbent could be regenerated effectively through electrochemical regeneration.

Adsorption, Electrochemical regeneration, Aniline, para-chloroaniline

Asghar, H. M. A., 2011. "Development of graphitic adsorbents for wastewater treatment by adsorption and electrochemical regeneration." PhD thesis, University of Manchester, Manchester, UK.

Abidin, M.S.Z., Mukhtar, H., and Shaharun, M.S., 2014. "Removal of amines from wastewater using membrane separation processes." Applied Mechanics and Materials, 625, 639-643.

Ahmadi, S., and Igwegbe, C.A., 2018. "Adsorptive removal of phenol and aniline by modified bentonite: Adsorption isotherm and kinetic study." Applied Water Science, 8, 170.

An, F. Q., Zhang, D., Yue, X.X., Ou, G.L., Gao, J.F., Hu, T.P., 2016. "Effective removal of anilines using porous activated carbon based on urea formaldehyde resin." Korean J. Chem. Eng., 33(2), 576-581.

Bello, M.M., Raman, A.A.A. (2018). Adsorption and Oxidation Techniques to Remove Organic Pollutants from Water. In: Crini, G., Lichtfouse, E. (eds) Green Adsorbents for Pollutant Removal. Environmental Chemistry for a Sustainable World, vol 18. Springer, Cham.

Bhomick, P.C., Supong, A. and Sinha, D., 2017. "Organic pollutants in water and its remediation using biowaste activated carbon as greener adsorbent." International Journal of Hydrology, 1(3), 91-92.

Bhunia, F., Saha, N.C. and Kaviraj, A.J.E., 2003. "Effects of aniline–an aromatic amine to some freshwater organisms." Ecotoxicology, 12, 397-404.

Brown, N.W., Campen, A.K., Wickenden, D.A., Roberts, E.P.L., 2013. "On-site destruction of radioactive oily wastes using adsorption coupled with electrochemical regeneration." Chemical Engineering Research and Design, 91 (4), 713-721.

Brown, N.W., Roberts, E.P.L. Chasiotis, A., Cherdron, T., Sanghrajka, N., 2004. "Atrazine removal using adsorption and electrochemical regeneration." Water Research, 38, 3067-3074.

Campo, P., Platten, W., Suidan, M.T., Chai, Y., Davis, J.W., 2011. "Biodegradation of amines in industrial saline wastewaters." Chemosphere, 85(7), 1199-11203.

Conti-Ramsden, M.G., Brown, N.W., Roberts. E.P.L., 2012. "The combination of adsorbent slurry sorption with adsorbent electrochemical regeneration for VOC removal." Chemical Engineering journal, 198-199, 130-137.

Fishbein, L., 1981. "Aromatic amines of major industrial importance: Use and occurrence." IARC Sci. Publ. 40, 51-74.

Javaid, R., Qazi, U.Y., 2019. "Catalytic oxidation process for the degradation of synthetic dyes: An overview." International Journal of Environmental Research and Public Health, 16 (11), 2066.

Kadar, M. Nagy, Z., Karancsi, T., Farsang, G., 2001. "The electrochemical oxidation of 4-chloroaniline, 2-4- dicholroaniline and 2,4,6 trichloroaniline in acetonitrile solution." Electrochemical Acta, 46 (9), 1297-1306.

Kirk, D.W., Sharifian, H. and Foulkes, F.R. 1985. "Anodic oxidation of aniline for waste water treatment." Journal of Applied Electrochemistry, 15, 285-292.

Kornepati, S., and Tella, E.D., 2015. "Visible spectrophotometric method for the determination of some typical aromatic primary amines by using p-n ,n-dimethyl phenylenediamine and sodium meta periodate." Rasayan Journal of Chemistry, 8(3), 373-379.

Liang, J., Ning, X., An, T., Sun, J., Zhang, Y., Wang, Y., 2015. "Degradation of aromatic amines in textile- dyeing sludge by combining the ultrasound technique with potassium permanganate treatment." Journal of Hazardous Materials, 314, 1-10.

Liu, Q., Zhang, L., Hu, P., and Huang, R., 2015. "Removal of aniline from aqueous solution by activated carbon coated by chitosan." Journal of Water Reuse and Desalination, 5 (4), 610-618.

Mahmood, Q., Shaheen, S., Bilal, M., Madiha Tariq. M., Zeb, B.S., Ullah, Z., Ali, A., 2019. "Chemical pollutants from an industrial estate in Pakistan: A threat to environmental sustainability." Applied Water Science, 9, 47.

Miguel, G.S., Lambert, S.D and Graham, N.J.D., 2001. "The regeneration of field spent activated carbons." Water Research, 35, 2740-2749.

Mohammed, F.M., Roberts, E.P.L., Hill, A., Campen, A.K., and Brown, N.W., 2011. "Continuous water treatment by adsorption and electrochemical regeneration." Water Research, 45, 3065-3074.

Narbaitz, R.M., and Cen, J., 1994. "Electrochemical regeneration of activated carbon." Water Research, 28, 1771-1778.

Ren, X., Chen, C., Nagatsu, M., Wang, X., 2011. "Carbon nanotubes as adsorbents in environmental pollutant management: A review." Chemical Engineering journal, 170(2-3), 395-410.

Saleem, J., Shahid, U., Hijab, M., Mackey, H., McKay, G., 2019. "Production and applications of activated carbons as adsorbents from olive stones." Biomass Bioconversion and Biorefinery, 9, 775-802.

Zavareh, S., Avanes, A., Beiramyan, P., 2017. "Effective and selective removal of aromatic amines from water by Cu⁺²- treated chitosan/alumina nanocomposite." Adsorption Science & Technology, 35(1-2), 218-240.

Zeitoun, M.A., Davison, R.R., White, F.B., and Hood, D.W., 1966. "Solvent extraction of secondary waste water effluents: Heterogeneous equilibrium of organic and inorganic compounds." Water Pollution Control Federation, 38(4), 544-554.

Zhou, Y., Gu, X., Zhang, R., Lu, J., 2014. "Removal of aniline from aqueous solutions using pine saw dust modified with citric acid and beta- cyclodextrin." Ind. Eng. Chem. Res. 53(2), 887-894.