References
Ahmad, M., Teel, A.L., and Watts, R.J., 2013, Mechanism of persulfate activation by phenols, Environmental Science & Technology, 47, 5864-5871.
10.1021/es400728cBabich, H. and Davis, D.L., 1981, Phenol: A review of environmental and health risks, Regulatory Toxicology and Pharmacology, 1(1), 90-109.
10.1016/0273-2300(81)90071-4Baciocchi, R., D'Aprile, L., Innocenti, I., Massetti, F., and Verginelli, I., 2014, Development of technical guidelines for the application of in-situ chemical oxidation to groundwater remediation, Journal of Cleaner Production, 77, 47-55.
10.1016/j.jclepro.2013.12.016Boal, A.K., Rhodes, C., and Garcia, S., 2015, Pump-and-treat groundwater remediation using chlorine/ultraviolet advanced oxidation processes, Groundwater Monitoring & Remediation, 35(2), 93-100.
10.1111/gwmr.12095Carroll, K.C., Brusseau, M.L., Tick, G.R., & Soltanian, M.R., 2024, Rethinking pump-and-treat remediation as maximizing contaminated groundwater, Science of The Total Environment, 918, 170600.
10.1016/j.scitotenv.2024.170600Dawson, K.J. and J.D. Istok., 1991, Aquifer Testing: design and analysis of pumping and slug tests, Lewis Publishers, INC., Chelsea, Michigan 48118, 334 p.
10.1201/9781498710756Furman, O.S., Teel, A.L., and Watts, R.J., 2010, Mechanism of base activation of persulfate, Environmental Science & Technology, 44(16), 6423-6428.
10.1021/es1013714Furman, O.S., Teel, A.L., and Watts, R.J., 2010, Mechanism of base activation of persulfate, Environmental Science & Technology, 44(16), 6423-6428.
10.1021/es1013714Hantush, M.S., 1964, ¡°Hydraulics of wells¡±, In: V.T. Chow (ed.), Advances in Hydrosciences, Vol. I, pp. 281-432, Academic Press.
Ji, Y., Ferronato, C., Salvador, A., Yang, X., and Chovelon, J. M., 2014, Degradation of ciprofloxacin and sulfamethoxazole by ferrous-activated persulfate: Implications for remediation of groundwater contaminated by antibiotics, Science of The Total Environment, 472, 800-808.
10.1016/j.scitotenv.2013.11.008Jo, J.H., Yoon, S.E., Kim, J.M., and Hwang, I., 2020, Feasibility study of activation of persulfate by Fe(II) for phenol contaminated sediment, Journal of Soil and Groundwater Environment, 25(4), 77-86.
10.7857/JSGE.2020.25.4.077Kruseman, G.P. and de Ridder, N.A., 1991, Analysis and evaluation of pumping test data, 2nd Edition, International Institute for Land Reclamation and Improvement, Wageningen, The Netherlands.
10.2136/sssaj1971.03615995003500040014xLi, Y., Liu, G., He, J., and Zhong, H., 2023, Activation of persulfate for groundwater remediation: From bench studies to application, Applied Sciences, 13(3), 1304.
10.3390/app13031304Ma, J., Li, H., Chi, L., et al., 2017, Changes in activation energy and kinetics of heat-activated persulfate oxidation of phenol in response to changes in pH and temperature, Chemosphere, 189, 86-93.
10.1016/j.chemosphere.2017.12.006Mackay, D.M., and Cherry, J.A., 1989, Groundwater contamination: Pump-and-treat remediation, Environmental Science & Technology, 23(6), 630-636.
10.1021/es00064a001Panigrahy, N., Priyadarshini, A., Sahoo, M.M., Verma, A.K., Daverey, A., and Sahoo, N.K., 2022, A comprehensive review on eco-toxicity and biodegradation of phenolics: Recent progress and future outlook, Environmental Technology & Innovation, 27, 102423.
10.1016/j.eti.2022.102423Patel, M., Patel, D., and Pillai, P., 2024, Comparison of different treatment methods which are used for phenol removal: A mini review, Water Practice and Technology, 19(7), 2761-2773.
10.2166/wpt.2024.143Pradhan, B., Chand, S., Chand, S., Rout, P.R., and Naik, S.K., 2023, Emerging groundwater contaminants: A comprehensive review on their health hazards and remediation technologies, Groundwater for Sustainable Development, 20, 100868.
10.1016/j.gsd.2022.100868Ramos, R.L., Moreira, V.R., and Amaral, M.C.S., 2024, Phenolic compounds in water: Review of occurrence, risk, and retention by membrane technology, Journal of Environmental Management, 351, 119772.
10.1016/j.jenvman.2023.119772Ravindiran, G., Rajamanickam, S., Sivarethinamohan, S., Sathaiah, B.K., Ravindran, G., Muniasamy, S.K., and Hayder, G., 2023, A review of the status, effects, prevention, and remediation of groundwater contamination for sustainable environment, Water, 15(20), 3662.
10.3390/w15203662Thornton, S.F., Baker, K.M., Bottrell, S.H., Rolfe, S.A., McNamee, P., Forrest, F., Duffield, P., Wilson, R.D., Fairburn, A.W., and Cieslak, L.A., 2014, Enhancement of in situ biodegradation of organic compounds in groundwater by targeted pump and treat intervention, Applied Geochemistry, 48, 28-40.
10.1016/j.apgeochem.2014.06.023Tsitonaki, A., Petri, B.G., Crimi, M., Mosb©¡k, H., Siegrist, R.L., and Bjerg, P.L., 2010, In situ chemical oxidation of contaminated soil and groundwater using persulfate: A review, Critical Reviews in Environmental Science and Technology, 40(1), 55-91.
10.1080/10643380802039303U.S. Environmental Protection Agency., 2021, Green remediation best management practices: Pump and treat systems (EPA 542-F-21-029), Office of Land and Emergency Management.
United States Environmental Protection Agency., 1998, Field applications of in situ remediation technologies: Chemical oxidation (EPA 542-R-98-008), Solid Waste and Emergency Response (5102G).
- Publisher :The Korean Society of Soil and Groundwater Environment
- Publisher(Ko) :한국지하수토양환경학회
- Journal Title :Journal of Soil and Groundwater Environment
- Journal Title(Ko) :지하수토양환경
- Volume : 29
- No :6
- Pages :71-86
- Received Date : 2024-10-23
- Revised Date : 2024-11-13
- Accepted Date : 2024-11-27
- DOI :https://doi.org/10.7857/JSGE.2024.29.6.071


Journal of Soil and Groundwater Environment





