Resources Recycling ISSN:2765-3439(Print) 2765-3447(Online) 자원리싸이클링

Introduction of Korean Law Information Center, Clean airConservation Act. https://www.law.go.kr/engLsSc.do?menuId=1&subMenuId=21&tabMenuId=117&query=%EB%8C%80%EA%B8%B0%ED%99%98%EA%B2%BD%EB%B3%B4%EC%A0%84%EB%B2%95, March 21, 2024.

Hong, H. Y., Jung, S. W., Son, J. H., et al., 2015 : Speed-dependent emission characteristics of the hazardous air pollutants from diesel medium-duty trucks according to emission standards, Journal of ILASS-Korea, 20(2), pp.121-129.

Jeong, J. H., Kim, S. G., Choi, E. J., 2020 : A study on the Improvement of preventive management in strengthening the regulation of marine air pollution-focusing on the role of the Korea coast guard, The Journal of Humanities and Social Sciences, 21, 11(3), pp.1649-1662.

Lee, J. H., Kwak, J. S., 2018 : Marine generator system for reduction in air pollutants, Transactions of the KSME - A, 42(10), pp.939-944.

Kim, E. J., 2019 : The legislative study for the integrated management of air pollutant, KLRI Research Report, pp.1-446.

Kim, Y. G., Park, S. I., Park, H. S., et al., 2016 : A study on the emission characteristics of air pollutants and NOx reduction method from incinerator in Jeollanam-do, Journal of Korea Society of Waste Management, 33(1), pp.18-28.

Chen, T. M., Kuschner, W. G., Gokhale, J., et al., 2007 : Outdoor air pollution: nitrogen dioxide, sulfur dioxide, and carbon monoxide health effects, The American Journal of the Medical Sciences, 333(4), pp.249-256.

Han, J. W., 2019 : Development of a dry classification flow reaction demonstration facility for removing acidic gas (HCl, SO₂) applicable to the combustion process and waste incineration facilities of thermal power plants, Ministry of Environment, 1485015214.

Korea Cement Association, Annual Report of Cement Statistics. http://www.cement.or.kr/mater_2014/viewboard.asp?sm=3_1_2&tb_name=mater_3&title=%C5%EB%B0%E8%BF%AC%BA%B8, October 11, 2023.

Korea Cement Association, Recycling of Circular Resources in the Cement Industry in Korea. http://recycling.cement.or.kr/contents/sub3_01.asp?sm=3_1_0, October 11, 2023.

Introduction of Korean Law Information Ceter, Act on the integrated control of pollutant-discharging facilities. https://www.law.go.kr/LSW/eng/engLsSc.do?menuId=2&section=lawNm&query=Enforcement+decree+of+the+act+on+the+integrated+control+of+pollutant-discharging+facilities&x=41&y=22, October 16, 2023.

Seo, J. H., Hwang, H. J., Khan, J. B., et al., 2021 : The present status and improvement of air quality assessment methodology for integrated environmental permission system, Journal of Korean Society for Atmospheric Environment, 37(3), pp.523-535.

Introduction of Korean Law Information Center, Enforcement decree of the act on the integrated control of pollutant-discharging facilities. https://www.law.go.kr/LSW/eng/engLsSc.do?menuId=2&section=lawNm&query=Enforcement+decree+of+the+act+on+the+integrated+control+of+pollutant-discharging+facilities&x=41&y=22, October 16, 2023.

Lee, H. G., 2007 : Flue gas desulfurization process, The Magazine of the Society of Air-Conditioning and Refrigerating Engineers of Korea, 36(12), pp.34-41.

Miller, F. M., Young, G. L., Von Seebach, M., 2001 : Formation and techniques for control of sulfur dioxide and other sulfur compounds in Portland cement kiln systems, Research Development Information, R&D Serial 2460.

Kumar, L., Jana, S. K., 2022 : Advances in absorbents and techniques used in wet and dry FGD: a critical review, Reviews in Chemical Engineering, 38(7), pp.843-880.

Liu, X., Wen, H., Edil, T., et al., 2011 : Stabilization of flue gas desulfurization by-products with fly ash, cement, and sialite, Transportation Research Record, 2204(1), pp.102-109.

Dragan, S., Ozunu, A., 2012 : Characterization of calcium carbonates used in wet flue gas desulphurization processes, Open Chemistry, 10(5), pp.1556-1564.

Gou, X., Liu, Y., Liu, S., et al., 2020 : Study on sulfur-fixation effects of cement raw meal during pulverized coal combustion under different atmospheres, Fuel, 270, 117484.

Del Valle-Zermeño, R., Formosa, J., Chimenos, J. M., 2015 : Wet flue gas desulfurization using alkaline agents, Reviews in Chemical Engineering, 31(4), pp.303-327.

Gao, X., Zhong, Y., Wu, Z., et al., 2010 : Operating experience of CFB semi-dry FGD with novel humidification technology in China, pp.19, Paper presented at: Coal-Gen 0210 Conference, Pittsburgh, Pennsylvania, USA, 10-12 August 2010.

Wu, C., Khang, S. J., Keener, T. C., et al., 2004 : A model for dry sodium bicarbonate duct injection flue gas desulfurization, Advances in Environmental Research, 8(3-4), pp.655-666.

Park, S. H., 1995 : Wet flue gas desulfurization technology, Korean Air Cleaning Association, 8(1), pp.36-46.

An, H. S., Kim, K. H., Park, S. S., et al., 2008 : Operating characteristics of 0.4 mw-scale gas dispersion type FGD absorber, Journal of Korean Society for Atmospheric Environment, 24(4), pp.415-422.

Ministry of Environment, 2004 : Optimization of 500MW KEPAR De-SOx technology, Daejeon, Korea Electric Power Research Institute, pp.101-102.

Akiho, H., Ito, S., Matsuda, H., 2010 : Effect of oxidizing agents on selenate formation in a wet FGD, Fuel, 89(9), pp.2490-2495.

Poullikkas, A., 2015 : Review of design, operating, and financial considerations in flue gas desulfurization systems, Energy Technology & Policy, 2(1), pp.92-103.

Li, S., Xin, F., Li, L., 2017 : Reaction engineering, pp. 405-441, Butterworth-Heinemann, Oxford.

Park, C. H., Park, C. L., Park, G. H., et al., 1995 : the development of spray drying absorption process for flue gas treatment, The Korea Institute of Chemical Engineers, 1(1), pp.541-544.

Xie, D., Wang, H., Chang, D., et al., 2017 : Semidry desulfurization process with in situ supported sorbent preparation, Energy & Fuels, 31(4), pp.4211-4218.

Jung, J. H., Yoo, K. S., Lee, G. W., et al., 2002 : A study on the Ca(OH)₂-SO₂ reaction characteristics in a fixed bed reactor using shirinking core model, Journal of Korean Society of Environmental Engineers, 24(11), pp.1911-1922.

Choi, J. H., Oh, S. C., 2019 : A Study on the reaction characteristics for high temperature mineral carbonation of calcium oxide and carbon dioxide, Korea Society of Waste Management, 36(3), pp.278-288.

Deng, Y., Ansart, R., Baeyens, J., et al., 2019 : Flue gas desulphurization in circulating fluidized beds, Energies, 12(20), 3908.

Fierro, J. J., Escudero-Atehortua, A., Nieto-Londoño, C., et al., 2020 : Evaluation of waste heat recovery technologies for the cement industry, International Journal of Thermofluids, 7, 100040.

Amiri, A., Vaseghi, M. R., 2014 : Waste heat recovery power generation systems for cement production process, IEEE Transactions on Industry Applications, 51(1), pp.13-19.

Seong, J. W., Rha, C. Y., Kim, C. E., et al., 1999 : Hydration and mechanical properties blended cement added bypass dust, Journal of the Korea Concrete Institute, 11(1), pp.33-39.

Boldyryev, S., 2018 : Heat integration in a cement production, Cement Based Materials, pp.23-34.

C. S. Lim, 2010. KR. 10-2010-0104613.

Y. O. Park, 2013. KR. 10-1340389.

H. J. Hee, 2008. KR. 10-2008-0009657.

E. S. Yoo, 2018. KR. 10-1928669.

S. K. Son, 2010. KR. 10-2010-0094671.

T. Junichi, 2016. JP. 6012071.

Siddique, R., 2014 : Utilization of industrial by-products in concrete, Procedia Engineering, 95, pp.335-347.

Taha, R., Al-Rawas, A., Al-Jabri, K., et al., 2004 : An overview of waste materials recycling in the Sultanate of Oman, Resources, Conservation and Recycling, 41(4), pp.293-306.

Yun, Y., Jeong, J., Chu, Y., 2016 : Solubility and yield characteristics of kcl in cement by-pass dust, Resources Recycling, 25(3), pp.43-48.

Seo, S. K., Chu, Y. S., Shim, K. B., 2015 : A study on desulfurization efficiency of limestone sludge with particle size, Resources Recycling, 24(6), pp.17-23.

Passamaquoddy, T., 1999 : Project performance summary clean coal technology demonstration program, Cement Kiln Flue Gas Recovery Scrubber^TM, pp.1-12.