Abstract
Advanced oxidation processes (AOPs) are among the most efficient methods for wastewater treatment. To achieve the degradation of persistent organic pollutants (POPs), AOPs have been developed that employ Fenton reactions promoted by ultrasound (US) or microwaves (MW). Integrated methods combining AOPs with biological treatments are also of great interest. The present paper describes such an integrated approach for the decontamination of water from nonylphenol (NP), a common pollutant that accumulates in aquatic organisms and is quite resistant to biodegradation. Polluted water (containing 1,000 ppm of NP) was sequentially subjected to a sonochemical Fenton reaction and biosorption by the filamentous fungus Paecilomyces lilacinus. Although these methods can be used separately, the sequential approach proved more advantageous. In 1 h the sonochemical oxidation, carried out in a 300 kHz US-reactor equipped with a cooling system, halved NP content in polluted water, as determined by GC-MS analysis. The water was then inoculated with pure cultures of the fungus, whose mycelial biomass further reduced NP content in 7 days. Thus an initial NP concentration of 1,000 ppm was reduced approximately by 90%.
References
Ahel, M., McEnvoy, J., & Giger, W. (1993). Bioaccumulation of the lipophilic metabolites of nonionic surfactants in freshwater organisms. Environmental Pollution, 79, 243–248.
Aksu, Z. (2005). Application of biosorption for the removal of organic pollutants: A review. Process Biochemistry, 40, 997–1026.
Aksu, Z., & Akpinar, D. (2000). Modelling of simultaneous biosorption of phenol and nickel(II) onto dried aerobic activated sludge. Separation and Purification Technology, 21, 87–99.
Aksu, Z., & Akpinar, D. (2001). Competitive biosorption of phenol and chromium(VI) from binary mixtures onto dried anaerobic activated sludge. Biochemical Engineering Journal, 7, 183–193.
Aksu, Z., & Yener, J. (2001). A comparative adsorption/biosorption study of mono-chlorinated phenols onto various sorbents. Waste Management, 21, 695–702.
Antizar-Ladislao, B., & Galil, N.I. (2004). Biosorption of phenol and chlorophenols by acclimated residential biomass under bioremediation conditions in a sandy aquifer. Water Research, 38, 267–276.
Balanosky, E., Herrera, F., Lopez, A., & Kiwi, J. (2000). Oxidative degradation of textile wastewater. Modelling reactor performance. Water Research, 34, 582–596.
Calace, N., Nardi, E., Petronio, B. M., & Pietroletti, M. (2002). Adsorption of phenols by papermill sludges. Environmental Pollution, 118, 315–319.
Comber, M. H., Williams, T. D., & Stewart, K. M. (1993). The effects of nonylphenol on Daphnia magna. Water Research, 27, 273–276.
Corvini, P. F. X., Schaffer, A., & Schlosser, D. (2006). Microbial degradation of nonylphenol and other alkylphenols-our evolving view. Applied Microbiology & Biotechnology, 72, 223–243.
Cravotto, G., & Cintas, P. (2006). Power ultrasound in organic synthesis: Moving cavitational chemistry from academia to innovative and large-scale applications. Chemical Society Reviews, 35, 180–196.
Cravotto, G., Di Carlo, S., Tumiatti, V., Roggero, C., & Bremner, H. D. (2005a). Degradation of persistent organic pollutants by Fenton reagent facilitated by microwave of high-intensity ultrasound. Environmental Technology, 26, 721–724.
Cravotto, G., Omiccioli, G., & Stevanato, L. (2005b). An improved sonochemical reactor. Ultrasonics Sonochemistry, 12, 213–217.
Cravotto, G., & Cintas, P. (2007a). Forcing and controlling chemical reactions with ultrasound. Angew. Chem. Int. Ed., 46, 2–5.
Cravotto, G., Di Carlo, S., Curini, M., Tumiatti, V., & Roggero, C. (2007b). A new flow reactor for the treatment of polluted water with microwave and ultrasound. Journal of Chemical Technology & Biotechnology, 82, 205–208.
Cravotto, G., Ondruschka, B., Di Carlo, S., Roggero, C., & Tumiatti, V. (2007c). Decontamination of soil containing POPs by the combined action of solid Fenton-like reagents and microwaves. Chemosphere, 69, 1326–1329.
Destaillats, H., Hoffmann, M. R., & Wallace, H. C. (2003). Sonochemical degradation of pollutants. Environmental Science and Pollution Control Series, 26, 201–233.
Espadaler, I., Caixach, J., Om, J., Ventura, F., Cortina, M., Paunè, F., et al. (1997). Identification of organic pollutants in Ter river and its system of reservoirs supplying water to Barcelona (Catalonia, Spain): A study by GC/MS and FAB/MS. Water Research, 31, 1996–2004.
Gesell, M., Hammer, E., Mikolasch, A., & Schauer, F. (2004). Oxidation and ring cleavage of dibenzofuran by the filamentous fungus Paecilomyces lilacinus. Archives of Microbiology, 182, 51–59.
Gesell, M., Hammer, E., Specht, M., Francke, W., & Schauer, F. (2001). Biotransformation of biphenyl by Paecilomyces lilacinus and characterization of ring cleavage products. Applied Environmental Microbiology, 67, 1551–1557.
Gogate, P. R., & Pandit, A. B. (2004). A review of imperative technologies for wastewater treatment II: Hybrid methods. Advances in Environmental Research, 8, 553–597.
Hao, H., Chen, Y., Wu, M., Wang, H., Yin, Y., & Lu, Z. (2004). Sonochemistry of degrading p-chlorophenol in water by high frequency ultrasound. Ultrasonics Sonochemistry, 11, 43–46.
Harries, J. R., Sheahan, D. A., Jobling, S., Matthiessen, O., Neall, P., Routledge, E. J., et al. (1996). A survey of estrogenic activity in U.K. inland waters. Environmental Toxicology and Chemistry, 15, 1993–2002.
He, Y., & Lee, H. K. (1996). Separation of structural homologues of alkylphenols and isomers of 4-nonylphenol by cyclodextrin-modified micellar electrokinetic chromatography. Journal of Chromatography, A, 749, 227–236.
Jianlong, W., Yi, Q., Horan, N., & Stentiford, E. (2000). Bioadsorption of pentachlorophenol (PCP) from aqueous solution by activated sludge biomass. Bioresource Technology, 75, 157–161.
Jones, C. W. (1999). Applications of hydrogen peroxide and derivatives. Cambrige, U.K.: Royal Society of Chemistry.
Junghanns, C., Moeder, M., Krauss, G., Martin, C., & Schlosser, D. (2005). Degradation of the xenoestrogen nonylphenol by aquatic fungi and their laccases. Microbiology-SGM, 151, 45–57.
Kennedy, K. J., Lu, J., & Mohn, W. W. (1992). Biosorption of chlorophenols to anaerobic granular sludge. Water Research, 26, 1085–1092.
Kobya, M., Can, O. T., & Bayramoglu, M. (2003). Treatment of textile wastewater by combined electrocoagulation using iron and aluminium electrodes. Journal of Hazardous Materials B, 100, 163–178.
Liang, J., Komarov, S., Hayashi, N., & Kasai, E. (2007). Improvement in sonochemical degradation of 4-chlorophenol by combined use of Fenton-like reagents. Ultrasonics Sonochemistry, 14, 201–207.
Liber, K., Knuth, M. L., & Stay, F. S. (1999). An integrated evaluation of the persistence and effects of 4-nonylphenol in an experimental littoral ecosystem. Environmental Toxicology and Chemistry, 18, 357–362.
Lim, B.-R., Hu, H.-Y., & Fujie, K. (2003). Biological degradation and chemical oxidation characteristics of coke-oven wastewater. Water, Air, & Soil Pollution, 146, 23–33.
Lin, S. H., & Peng, C. F. (1996). Continuous treatment textile wastewater by combined coagulation, electrochemical oxidation activated sludge. Water Research, 30, 587–592.
Martins, A. F., Wilde, M. L., Vasconcelos, T. G., & Henriques, D. M. (2006). Nonylphenol polyethoxylate degradation by means of electrocoagulation and electrochemical Fenton. Separation and Purification Technology, 50, 249–255.
Mason, T. J., & Petrier, C. (2004). Ultrasound processes. In S. Parsons (Ed.) Advanced oxidation processes for water and wastewater treatment (pp. 185–208). London: IWA Publishing.
McLeese, D. W., Zitko, V., Sergeant, D. B., Burridge, L., & Metcalfe, C. D. (1981). Lethality and accumulation of alkylphenols in aquatic fauna. Chemosphere, 10, 723–730.
Ondruschka, B., & Hofmann, J. (1999). Aquasonolysis of halogenated pollutants: Enhancement of sonochemical effectivity by variation of system parameters. Hamburger Berichte zur Siedlungswasserwirtschaft (Ultrasound in Environmental Engineering), 25, 729–732.
Rao, J. R., & Viraraghavan, T. (2002). Biosorption of phenol from an aqueous solution by Aspergillus niger biomass. Bioresource Technology, 85, 165–171.
Regitz, M., & Falbe, J. (1999). Rompp Lexikon der Chemie. Stuttgart, New York: Thieme Verlag.
Romero, M. C., Salvioli, M., Cazau, M. C., & Arambarri, A. M. (2001). Pyrene degradation by yeast and filamentous fungi. Environmental Pollution, 117, 159–163.
Routledge, E. J., & Sumpter, J. P. (1996). Estrogenic activity of surfactants and some of their degradation products assessed using a recombinants yeast screen. Environmental Toxicology and Chemistry, 15, 241–248.
Sietmann, R., Gesell, M., Hammer, E., & Schauer, F. (2006). Oxidative ring cleavage of low chlorinated biphenyl derivatives by fungi leads to the formation of chlorinated lactone derivatives. Chemosphere, 64, 672–685.
Shelby, M. D., Newbold, R. R., Tully, D. B., Chae, K., & Davis, V. L. (1996). Assessing environmental chemicals for estrogenicity using a combination of in vitro and in vivo assays. Environmental Health Perspectives, 104, 1296–1300.
Staples, C. A., Weeks, J., Hall, J. F., & Naylo, C. G. (1998). Evaluation of aquatic toxicity and bioaccumulation of C8- And C9-alkylphenol ethoxylates. Environmental Toxicology and Chemistry, 17, 2470–2480.
Sundaram, K. M. S., & Szeto, S. (1981). The dissipation of nonylphenol in stream and pond water under stimulated field conditions. Journal of Environmental Science and Health B, 16, 767–776.
Swami, D., & Buddhi, D. (2006). Removal of contaminants from industrial wastewater through various non-conventional technologies: A review. International Journal of Environment and Pollution, 27(4), 324–346.
Tiehm, A. (2001). Combination of ultrasonic and biological pollutant degradation. Advances in Sonochemistry, 6, 25–58.
White, R., Jobling, S., Hoare, S. A., Sumpter, J. P., & Parker, M. G. (1994). Environmentally persistent alkylphenolic compounds are estrogenic. Endocrinology, 135, 175–182.
Wu, J., & Yu, H. Q. (2006). Biosorption of phenol and chlorophenols from aqueous solutions by fungal mycelia. Process Biochemistry, 41(1), 44–49.
Yoshimura, K. (1986). Biodegradation and fish toxicity of nonionic surfactants. Journal of the American Oil Chemists Society, 63, 1590–1596.
Zucconi, L., Ripa, C., Alianiello, F., Benedetti, A., & Onofri, S. (2003). Lead resistance, sorption and accumulation in a Paecilomyces lilacinus strain. Biology and Fertility of Soils, 37(1), 17–22.
Acknowledgment
The financial support of this work from University of Turin and CEBIOVEM is gratefully acknowledged. Sonochemical reactors were developed in collaboration with Danacamerini sas (Torino).
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Cravotto, G., Di Carlo, S., Binello, A. et al. Integrated Sonochemical and Microbial Treatment for Decontamination of Nonylphenol-Polluted Water. Water Air Soil Pollut 187, 353–359 (2008). https://doi.org/10.1007/s11270-007-9516-8
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DOI: https://doi.org/10.1007/s11270-007-9516-8