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NTIS 바로가기Journal of environmental science international = 한국환경과학회지, v.32 no.9, 2023년, pp.627 - 634
이선영 (건국대학교 녹색기술융합학과) , 주진희 (건국대학교 녹색기술융합학과) , 윤용한 (건국대학교 녹색기술융합학과)
Tire wear particles(TWPs), regarded as a microplastic, is generated in significant quantities each year and exist in various spaces and have a negative impact on the surrounding environment. Particularly, roadside environments fall within the direct influence of TWPs, necessitating proactive investi...
Baensch-Baltruschat, B., Kocher, B., Stock, F., Reifferscheid, G., 2020, Tyre and road wear particles (TRWP)-A review of generation, properties, emissions, human health risk, ecotoxicity, and fate in the environment, Science of the Total Environment, 733, 137823.
Chae, E., Jung, U., Choi, S.S., 2021, Quantification of tire tread wear particles in microparticles produced on the road using oleamide as a novel marker, Environmental Pollution, 288, 117811.
Choi, S. S., 2019, Infrared (IR) Spectroscopy-Based Technique for Raw Material Analysis of Rubber Materials, Rubber Technology, 20(3), 26-37.
Di, M., Wang, J., 2018, Microplastics in surface waters and sediments of the three Gorges reservoir, China, Science of Total Environment, 616, 1620-1627.
Frias, J. P. G. L., Nash, R., 2019, Microplastics: Finding a consensus on the definition, Marine Pollution Bulletin, 138, 145-147.
Gao, Z., Cizdziel, J. V., Wontor, K., Clisham, C., Focia, K., Rausch, J., Jaramillo-Vogel, D., 2022, On airborne tire wear particles along roads with different traffic characteristics using passive sampling and optical microscopy, single particle SEM/EDX, and µ-ATR-FTIR analyses, Frontiers in Environmental Science, 10, 1022697.
Gunawardana, C., Goonetilleke, A., Egodawatta, P., Dawes, L., Koko, S., 2012, Source characterisation of road dust based on chemical and mineralogical composition, Chemosphere, 87(2), 163-70.
Kang, T. W., Kim, H. J., 2022, A study on the collection and analysis of tire and road wear particles(TRWPs) as fine dust generated on the roadside, J. Rec. Const. Resources, 10(3), 293-299.
Kim, B. H., Yoon, J. H., Kim, K. H., 2021, Distribution of microplastics in soil of Seoul according to land use, Korean Journal of Soil Science and Fertilizer, 245.
Klockner, P., Reemtsma, P., Eisentraut, P., Braun, U., Ruhl, A. S., Wagner, S., 2019, Tire and road wear particles in road environment - Quantification and assessment of particle dynamics by Zn determination after density separation, Chemosphere, 222, 714-721.
Kole, P. J., Lohr, A. J., Van Belleghem, F. G. A. J., Ragas, A. M. J., 2017, Wear and tear of tyres: a stealthy source of microplastics in the environment, Int. J. Environ. Res. Public Health, 14(10), 1265.
Kovochich, M., Liong, M., Parker, J. A., Oh, S. C., Lee, J. P., Xi, L., Kreider, M. L., Unice, K. M., 2021, Chemical mapping of tire and road wear particles for single particle analysis, Science of the Total Environment, 757, 144085.
Leads, R. R., Weinstein, J. E., 2019, Occurrence of tire wear particles and other microplastics within the tributaries of Charleston Harbor Estuary, South Carolina, USA, Marine Pollution Bulletin, 145, 569-582.
Lee, H. S., Kim, Y. J., 2017, Consideration on quantitative and qualitative analysis for microplastic in various madia, J. of Korea Society of Waste Management, 34(6), 537-545.
Lee, H. S., Ju, M. S., Kim, Y. J., 2020, Estimation of emission of tire wear particles(TWPs) in Korea, Waste Management, 108, 154-159.
Liu, X. S., Wang, J. M., Gheni, A., el Gawady, M. A., 2018, Reduced zinc leaching from scrap tire during pavement applications, Waste Management, 81, 53-60.
Milani, M., Pucillo, F. P., Ballerini, M., Camatini, M., Gualtieri, M., Martino, S., 2004, First evidence of tyre debris characterization at the nanoscale by focused ion beam, Materials Characterization, 52(4-5), 283-288.
Prata, J. C., da Costa, J. P., Duarte, A. C., Rocha-Santos, T., 2019, Methods for sampling and detection of microplastics in water and sediment: A critical review, Trends in Analytical Chemistry, 110, 150-159.
Rafique, R. M. U., 2012, Life cycle assessment of waste car tyres at Scandinavian environmental system, Master's thesis, Chalmers University of Technology, Sweden.
Rural development administration, 2018, Agriculture technology direction, 103, 94.
Song, Y. K., Hong, S. H., Jang, M., Han, G. M., Rani, M., Lee, J., Shim, W. J., 2015, A Comparison of microscopic and spectroscopic identification methods for analysis of microplastics in environmental samples, Marine Pollution Bulletin, 93(1-2), 202-209.
Tancharernrat, T., Rempel, G. L., Prasassarakich, P., 2014, Preparation of styrene butadiene copolymer- silica nanocomposites via differential microemulsion polymerization and NR/SBR-SiO2 membranes for pervaporation of water-ethanol mixtures, Chemical Engineering Journal, 258, 290-300.
The Korean institute of landscape architecture, 2002, Landscape architecture plan standard.
Wagner, S., Huffer, T., Klockner, P., Wehrhahn, M., Hofmann, T., Reemtsma, T., 2018, Tire wear particles in the aquatic environment - A review on generation, analysis, occurrence, fate and effects, Water Research, 1(139), 83-100.
Xiang, Y., Jiang, L., Zhou, Y., Luo, Z., Zhi, D., Yang, J., Lam, S., 2022, Microplatics and environmental pollutants: Key interaction and toxicology in aquatic and soil environments, Journal of Hazardous Material, 422, 126843.
Yoon, C. W., Yoon, Y. S., Hong, S. Y., Jeon, T. W., Shin, S. K., 2021, Hazardous characteristics of dust waste from metal manufacturing industries in South Korea, Waste Management and Research, 39, 1471-1479.
Zhang, G. S., Liu, Y. F., 2018, The distribution of microplastics in soil aggregate fractions in southwestern China, Science of the Total Environment, 642, 12-20.
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