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The paper concerns the applicability of silver nanoparticles for reducing the emission of odours. Silver nanoparticles were successfully adsorbed on three different dolomitic limestone samples. In the next stage, wastewater from the meat industry was mixed with sorbents modified with a variable content of silver nanoparticles. After 4 days and 7 days, the concentration of ammonia was examined spectrophotometrically. Also, the degree of reduction of total odour concentration by olfactometric method was carried out. Depending on the concentration of the silver nanoparticles on the sorbents, the concentration of ammonia was 15-42 μg/cm3 for nAg content equal to 0.08%, while for sorbents containing approximately 36% of nAg the concentration of ammonia was 0.09-16 μg/cm3. A leaching test of nanosilver from sorbents confirmed that the particles were bound with the sorbents by strong bonds. The percentage of eluted silver increased from 0.67% to 11%, with increased initial concentrations of nAg on the sorbents from 0.18% to 0.37%.
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47--59
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Bibliogr. 19 poz., rys., tab.
Twórcy
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
autor
- Faculty of Chemical Engineering and Technology, Cracow University of Technology, Cracow, Poland
Bibliografia
- Aldossari, A. A., Shannahan, J. H., Podila, R., & Brown, J. M. (2015). Influence of Physicochemical Properties of Silver Nanoparticles on Mast Cell Activation and Degranulation. Toxicology in Vitro, 29(1), 195-203. DOI: 10.1016/j.tiv.2014.10.008.
- Brattoli, M., de Gennaro, G., de Pinto, V., Loiotile, A.D., Lovascio, S., & Penza, M., (2011). Odour Detection Methods: Olfactometry and Chemical Sensors. Sensors (Basel), 11(5), 5290-5322. DOI: 10.3390/s110505290.
- Dobrzański, Z., Zygadlik, K., Patkowska-Sokoła, B., Nowakowski, P., Janczak, M., Sobczak, A., & Bodkowski, R. (2010). Efektywność nanosrebra i sorbentów mineralnych w redukcji emisji amoniaku z odchodów zwierzęcych. Przemysł Chemiczny, 89(4), 348-351.
- Ebbs, S. D. Bradfield, S. J., Kumar, P., White, J. C., Musante, C., & Ma, X. (2016). Accumulation of Zinc, Copper, or Cerium in Carrot (Daucus Carota) Exposed to Metal Oxide Nanoparticles and Metal Ions. Environmental Science: Nano, 3(1), 114-26. DOI: 10.1039/C5EN00161G.
- Gębicki, J., & Szulczyński, B. (2019). Remote Monitoring of Environmental Pollutants. In J. Płotka-Wasylka & J. Namieśnik (Eds.), Green Analytical Chemistry, (pp. 325-352). Springer.
- Hayes, J. E., Jinks, A. L., & Stevenson, R. J. (2013). A Comparison of Sniff Bottle Staircase and Olfactometer-Based Threshold Tests. Behavior Research Methods, 45(1), 178-82. DOI: 10.3758/s13428-012-0220-2.
- Kailasa, S. K., Tae-Jung P., Rohit J. V., & Koduru J.R., (2019). Antimicrobial Activity of Silver Nanoparticles. In A.m. Grumezescu (Eds.), Nanoparticles in Pharmacotherapy (pp. 461-484). William Andrew: Applied Scince Publishers.
- Kośmider, J., Mazur-Chrzanowska, B., & Wyszyński, B. (2012). Odory. Warszawa: PWN.
- Kowalski, Z., Banach, M., &Powałka, E. (2009). Zastosowanie płynów dezynfekcyjnych z dodatkami nanosrebra w przemyśle mięsnym w celu ograniczenia odorów. Przemysł Chemiczny, 88, 478- 482.
- Kowalski, Z., Smuła, R., Banach, M., & Makara, A. (2010). Eliminacja i ograniczenie emisji odorów w przemyśle mięsnym za pomocą preparatów dezynfekcyjnych zawierających nanozwiązki srebra. In: Współczesna problematyka odorów, Warszawa: WNT.
- Manosalva, N., Tortella, G., Diez, C. M., Schalchli, H., Seabra, A. B., Duran, N., & Rubilar, O. (2019). Green Synthesis of Silver Nanoparticles: Effect of Synthesis Reaction Parameters on Antimicrobial Activity. World Journal of Microbiology and Biotechnology, 35, 88. DOI: 10.1007/s11274-019-2664-3.
- McGillicuddy, E., Murray, I., Kavanagh, S., Morrison, L., Fogarty, A., Cormican, M., Dockery, P., Prendergast, M., Rowan, N., & Morris, D. (2017). Silver Nanoparticles in the Environment: Sources, Detection and Ecotoxicology. Science of The Total Environment, 575, 231-246. DOI: 10.1016/j.scitotenv.2016.10.041.
- Ruttkay-Nedecky, B., Skalickova, S., Kepinska, M., Cihalova, K., Docekalova, M., Stankova, M., Uhlirova, D., Fernandez, C., Sochor , J., Milnerowicz, H., Beklova, M., & Kizek, R. (2019). Development of New Silver Nanoparticles Suitable for Materials with Antimicrobial Properties. Journal of Nanoscience and Nanotechnology, 19(5), 2762-2769. DOI: 10.1166/jnn.2019.15867.
- Singh, N., Paknikar, K. M., & Rajwade, J. (2019). RNA-Sequencing Reveals a Multitude of Effects of Silver Nanoparticles on Pseudomonas Aeruginosa Biofilms. Environmental Science: Nano, 6(6) 1812-1828. DOI: 10.1039/C8EN01286E.
- Wimmer, A., Kalinnik, A., & Schuster, M. (2018). New Insights into the Formation of Silver-Based Nanoparticles under Natural and Semi-Natural Conditions. Water Research, 141, 227-234. DOI: 10.1016/j.watres.2018.05.015.
- Wysocka, I., Gębicki, J., & Namieśnik, J. (2019). Technologies for Deodorization of Malodorous Gases. Environmental Science and Pollution Research 26(10), 9409-9434. DOI: 10.1007/s11356- 019-04195-1.
- Yang, L.,Yang, L.D., Deng F., Luo, X-B., & Luo, S-L.(2019). 1 - Principles for the Application of Nanomaterials in Environmental Pollution Control and Resource Reutilization. Nanomaterials for the Removal of Pollutants and Resource Reutilization In. Micro and Nano Technologies, 1-23. DOI: 10.1016/B978-0-12-814837-2.00001-9.
- Ye, W. M., Xu, L., Chen, B., Ye, B. (2017). Experimental Investigation on Gas Migration in Saturated Shanghai Soft Clay. Engineering Geology, 222, 20-28. DOI: 10.1016/j.enggeo.2017.03.024.
- Zangeneh, M. M., Bovandi, S., Gharehyakheh, S., Zangeneh, A., & Irani, P. (2019). Green Synthesis and Chemical Characterization of Silver Nanoparticles Obtained Using Allium Saralicum Aqueous Extract and Survey of in Vitro Antioxidant, Cytotoxic, Antibacterial and Antifungal Properties. Applied Organometallic Chemistry, 33, 7-17. DOI: doi.org/10.1002/aoc.4961.
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Bibliografia
Identyfikator YADDA
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