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NTIS 바로가기청정기술 = Clean technology, v.26 no.2, 2020년, pp.145 - 150
박지혜 (충남대학교 화학공학교육과) , 조광희 (충남대학교 에너지과학기술대학원) , 황라현 (충남대학교 에너지과학기술대학원) , 백정훈 (한국에너지기술연구원 변환저장소재연구실) , 이광복 (충남대학교 화학공학교육과)
Nitrous oxide (N2O) is one of the six greenhouse gases, and it is essential to reduce N2O by showing a global warming potential (GWP) equivalent to 310 times that of carbon dioxide (CO2). Selective catalytic reduction (SCR) is a technology that converts ammonia into harmless N2 and H2O by using ammo...
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Rani, B., Singh, U., Chuhan, A. K., Sharma, D., and Maheshwari, R., "Photochemical Smog Pollution and Its Mitigation Measures," J. Adv. Sci. Res., 2(4), 28-33 (2011).
Chang, K. S., "Status and Trends of Emission Reduction Technologies and CDM Projects of Greenhouse Gas Nitrous Oxide," Appl. Chem. Eng., 19(1), 17-26 (2008).
Kaiser, J., Hastings, M. G., Houlton, B. Z., Rockmann, T., and Sigman, D. M., "Triple Oxygen Isotope Analysis of Nitrate Using the Denitrifier Method and Thermal Decomposition of $N_2O$ ," Anal. Chem., 79(2), 599-607 (2007).
Maniak, G., Stelmachowski, P., Stanek, J. J., Kotarba, A., and Sojka, Z., "Catalytic Properties in $N_2O$ Decomposition of Mixed Cobalt-Iron Spinels," Catal. Commun., 15(1), 127-131 (2011).
Yang, S., Xiong, S., Liao, Y., Xiao, X., Qi, F., Peng, Y., Fu, Y., Shan, W., and Li, J., "Mechanism of $N_2O$ Formation During the Low-Temperature Selective Catalytic Reduction of NO with $NH_3$ over Mn-Fe Spinel," Environ. Sci. Technol., 48(17), 10354-10362 (2014).
Baek, J. H., Lee, S. M., Park, J. H., Jeong, J. M., Hwang, R. H., Ko, C. H., Jeon, S. G., and Yi, K. B., "Effects of Steam Introduction on Deactivation of Fe-BEA Catalyst in $NH_3$ -SCR of $N_2O$ and NO," J. Ind. Eng. Chem., 48, 194-201 (2017).
Kwon, D. W., and Hong, S. C., "Selective Catalytic Reduction (SCR) Technology Trends for the Nitrogen Oxide Removal of Exhaust Gas," Korea Ind. Chem. News, 19(5), 12-24 (2016).
Zhang, X., Shen, Q., He, C., Ma, C., Cheng, J., and Hao, Z., " $N_2O$ Catalytic Reduction by $NH_3$ over Fe-Zeolites: Effective Removal and Active Site," Catal. Commun., 18, 151-155 (2012).
Xia, Y., Zhan, W., Guo, Y., Guo, Y., and Lu, G., "Fe-Beta Zeolite for Selective Catalytic Reduction of $NO_x$ with $NH_3$ : Influence of Fe Content," Chin. J. Catal., 37(12), 2069-2078 (2016).
Maier, S. M., Jentys, A., and Lercher, J. A., "Steaming of Zeolite BEA and Its Effect on Acidity: A Comparative NMR and IR Spectroscopic Study," J. Phys. Chem. C, 115(16), 8005-8013 (2011).
Baran, R., Millot, Y., Onfroy, T., Krafft, J. M., and Dzwigaj, S., "Influence of the Nitric Acid Treatment on Al Removal, Framework Composition and Acidity of BEA Zeolite Investigated by XRD, FTIR and NMR," Micropor. Mesopor. Mat., 163, 122-130 (2012).
Hajjar, R., Millot, Y., Man, P. P., Che, M., and Dzwigaj, S., "Two Kinds of Framework Al Sites Studied in BEA Zeolite by X-ray Diffraction, Fourier Transform Infrared Spectroscopy, NMR Techniques, and V Probe," J. Phys. Chem. C, 112(51), 20167-20175 (2008).
Van Bokhoven, J. A., Koningsberger, D. C., Kunkeler, P., Van Bekkum, H., and Kentgens, A. P. M., "Stepwise Dealumination of Zeolite ${\beta}eta$ at Specific T-Sites Observed with $^{27}Al$ MAS and $^{27}Al$ MQ MAS NMR," J. Am. Chem. Soc., 122(51), 12842-12847 (2000).
Li, J., Liu, H., An, T., Yue, Y., and Bao, X. "Carboxylic Acids to Butyl Esters over Dealuminated-Realuminated Beta Zeolites for Removing Organic Acids from Bio-Oils," RSC Adv., 7(54), 33714-33725 (2017).
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