The incineration ratio of municipal waste is gradually increasing for the treatment of the rapidly increasing waste. Waste incineration has the risk of releasing various pollutants, but among them, the emission of dioxin is the most strongly regulated. The formation mechanism of the dioxins are classified by gas phase synthesis at high temperatures (homogeneous pathway) and de Novo synthesis at relatively low temperatures (heterogeneous pathway). High temperature synthesis is closely related to furnace, and low temperature generation is closely related to energy recovery units and/or air pollution control devices (APCDs). In order to minimize the generation of dioxins in the furnace, it was considered that homogenization of the waste, optimization of operating conditions, using inhibitors, etc. And the APCDs was considered including activated carbon injection method, decomposition method by catalytic reaction, and decomposition method using other electrical technique. In this paper, we will look around the recent technological trends in these emission reduction technologies, and discuss the latest research trends focused on the use of activated carbon injection + bag filter system, which are currently the most widely used emission reduction technologies.

• ABSTRACT
• 1. 서론
• 2 폐기물 소각 설비 및 기술 개요
• 3. 다이옥신 배출 저감을 위한 최신 기술 동향
• 4. 결론
• References

1 윤석민, "활성탄의 표면처리에 의한 천연가스 흡장" 한국수소및신에너지학회 17 (17): 434-439, 2006

2 국립환경과학원, "폐기물 소각시설의 통합오염방지 및 관리를 위한 최적가용기법 기준서"

3 채호진, "폐기물 소각 시설에서의 다이옥신 배출 저감 기술 현황" 한국에너지기후변화학회 15 (15): 65-80, 2020

4 김수현, "폐기물 가스화 및 합성가스 내 CO2 분리를 통한 CO2 배출 저감 방안" 한국에너지기후변화학회 2 (2): 131-139, 2007

5 허려화, "중국 신재생 에너지 개발 및 정책 현황" 한국에너지기후변화학회 14 (14): 1-10, 2019

6 박선구, "생활폐기물 열분해-가스화-융융공정시설에서 다이옥신의 분포특성" 한국분석과학회 20 (20): 10-16, 2007

7 임용택, "기술성능척도를 이용한 폐기물 가스화 시스템과 초산생산공정의 연계 타당성 평가" 한국에너지기후변화학회 5 (5): 70-84, 2010

8 권은혜, "국내 사업장 폐기물 소각시설에서 배출되는 다이옥신류(PCDDs/DFs) 분석" 57 (57): 258-258, 2016

9 Kreisz, S., "Wet scrubbers — A potential PCDD/F source?" 32 (32): 73-78, 1996

10 Bajamundi, C. J. E., "Towards controlling PCDD/F production in a multi-fuel fired BFB boiler using two sulfur addition strategies. Part I : Experimental campaign and results" 134 : 677-687, 2014

11 Łechtańska, P, "The use of ammonium sulfate as an inhibitor of dioxin synthesis in iron ore sintering process" 21 (21): 59-70, 2014

12 Everaert, K., "The formation and emission of dioxins in large scale thermal processes" 46 (46): 439-448, 2002

13 Makarichi, L., "The evolution of waste-to-energy incineration : A review" 91 : 812-821, 2018

14 Stieglitz, L., "The effects of sulfur dioxide on de novo synthesis of PCDD/PCDF on fly ash" 3 : 175-177, 1990

15 Lundin, L., "The effect of developing nations' municipal waste composition on PCDD/PCDF emissions from open burning" 79 : 433-441, 2013

16 Zheng, Q, "The degradation of PCDD/Fs in fly ash using dielectric barrier discharge in a lab-scale reactor" 387 : 124005-, 2020

17 Kobyashi, N, "The behavior of flue gas from RDF combustion in a fluidized bed" 151 (151): 87-95, 2005

18 Wielgosiński, G., "The Reduction of Dioxin Emissions from the Processes of Heat and Power Generation" 61 (61): 511-526, 2011

19 Zhan, M., "The Behaviors and Relationships of PCDD/Fs and Chlorobenzenes in the Whole Process of one Municipal Solid Waste Incinerator" 18 (18): 3134-3146, 2018

20 Lin, X., "Suppression of dioxins in waste incinerator emissions by recirculating SO2" 133 : 75-81, 2015

21 Sahle‐Demessie E., "Solvent extraction and soil washing treatment of contaminated soils from wood preserving sites:Bench‐scale studies" 10 (10): 85-109, 2000

22 Vick, S, "Slagging Gasification Injection Technology for Industrial Waste Elimination" 1996

23 Lin, G., "Simultaneous HCl/SO2capture by calcined limestone from hot gases" 30 (30): 10696-10704, 2016

24 Wissing, F., "Simulating municipal solid waste incineration with a DEM/CFD method–influences of waste properties, grate and furnace design" 206 : 638-656, 2017

25 Gass, H. C., "Secondary analysis of dioxin emission data of a municipal solid waste incinerator" 46 : 154-157, 2000

26 Addink, R., "Role of Oxygen in Formation of Polychlorinated Dibenzo-p-dioxins/Dibenzofurans from Carbon on Fly Ash" 29 (29): 1586-1590, 1995

27 Trinh, M. M., "Review on occurrence and behavior of PCDD/Fs and dl-PCBs in atmosphere of East Asia" 180 : 23-36, 2018

28 Manouchehri, H., "Review of electrical separation methods" 17 (17): 23-36, 2000

29 Karademir, A., "Removal of PCDD/Fs from Flue Gas by a Fixed-Bed Activated Carbon Filter in a Hazardous Waste Incinerator" 38 (38): 1201-1207, 2004

30 Sam-Cwan, K., "Removal efficiencies of PCDDs/PCDFs by air pollution control devices in municipal solid waste incinerators" 43 (43): 773-776, 2001

31 Kim, B., "Removal characteristics of PCDDs/Fs from municipal solid waste incinerator by dual bag filter(DBF)system" 86 (86): 813-819, 2007

32 김한빈, "Removal Characteristics of Heavy Metal Species by Various Impregnated Activated Carbons" 97-, 2017

33 Wevers, M., "Reduction of dioxin emission from a municipal waste incinerator by wet gas scrubbing" 25 (25): 1435-1439, 1992

34 Higashiyama, Y., "Recent progress in electrostatic separation technology" 16 (16): 77-90, 1998

35 Bie, R., "Reaction mechanism of CaO with HCl in incineration of wastewater in fluidized bed" 60 (60): 609-616, 2005

36 Hwang, S. Y, "Properties of VOCs Adsorption/Desorption on Various Types of Activated Carbons" 243-, 2017

37 Froese, K. L., "Polychlorinated benzene, phenol, dibenzo-p-dioxin, and dibenzofuran in heterogeneous combustion reactions of acetylene" 30 (30): 998-1008, 1996

38 Yoshida, K., "Pilot-Scale Experiment for Simultaneous Dioxin and NOx Removal from Garbage Incinerator Emissions Using the Pulse Corona Induced Plasma Chemical Process" 29 (29): 373-386, 2009

39 Hoornweg, D., "Peak Waste : When Is It Likely to Occur?" 19 (19): 117-128, 2015

40 Park, C, "PVC removal from mixed plastics by triboelectrostatic separation" 144 (144): 470-476, 2007

41 Tejima, H., "PCDDs/PCDFs reduction by good combustion technology and fabric filter with/without activated carbon injection" 32 (32): 169-175, 1996

42 Hunsinger, H., "PCDD/F behavior in wet scrubbing systems of waste incineration plants" 37 (37): 2293-2297, 1998

43 Kantar, C., "Oxidative degradation of chlorophenolic compounds with pyrite-Fenton process" 247 : 349-361, 2019

44 Stieglitz, L, "On the de-novo synthesis of PCDD/PCDF on fly ash of municipal waste incinerators" 18 (18): 1219-1226, 1989

45 Stieglitz, L, "On formation conditions of organohalogen compounds from particulate carbon of fly ash" 23 (23): 1255-1264, 1991

46 Menad, N., "Minimization methods for emissions generated from sinter strands : a review" 14 (14): 740-747, 2006

47 Gullett, B. K, "Mechanistic steps in the production of PCDD and PCDF during waste combustion" 25 (25): 1387-1392, 1992

48 Altarawneh, M., "Mechanisms for formation, chlorination, dechlorination and destruction of polychlorinated dibenzo-p-dioxins and dibenzofurans(PCDD/Fs)" 35 (35): 245-274, 2009

49 Cui, J., "Mechanical recycling of waste electric and electronic equipment : a review" 99 (99): 243-263, 2003

50 Ma, H., "Inhibition of element sulfur and calcium oxide on the formation of PCDD/Fs during co-combustion experiment of municipal solid waste" 633 : 1263-1271, 2018

51 Ke, S., "Inhibition of de novo synthesis of PCDD/Fs by SO2 in a model system" 78 (78): 1230-1235, 2010

52 Li, Z, "Industrial Application of Non-thermal Plasma (NTP) for Mercury and Dioxin Removal in Flue Gas" 677 : 032022-, 2019

53 Qiu, Q., "Improving microwave-assisted hydrothermal degradation of PCDD/Fs in fly ash with added Na2HPO4 and water-washing pretreatment" 220 : 1118-1125, 2019

54 Abad, E., "Improvements in dioxin abatement strategies at a municipal waste management plant in Barcelona" 50 (50): 1175-1182, 2003

55 Li, Y., "HCl and PCDD/Fs emission characteristics from incineration of source-classified combustible solid waste in fluidized bed" 5 (5): 67866-67873, 2015

56 Wang, H. C., "Formation and removal of PCDD/Fs in a municipal waste incinerator during different operating periods" 67 (67): S177-S184, 2007

57 Van Caneghem, J., "Fluidized bed waste incinerators : Design, operational and environmental issues" 38 (38): 551-582, 2012

58 Ryan, S. P., "Experimental study on the effect of SO2 on PCDD/F emissions : determination of the importance of gas-phase versus solid-phase reactions in PCDD/F formation" 40 (40): 7040-7047, 2006

59 Everaert, K., "Entrained-Phase Adsorption of PCDD/F from Incinerator Flue Gases" 37 (37): 1219-1224, 2003

60 Zhang, T., "Emissions of unintentional persistent organic pollutants from open burning of municipal solid waste from developing countries" 84 (84): 994-1001, 2011

61 Shi, B., "Effects of internal flue gas recirculation rate on the NOx emission in a methane/air premixed flame" 188 : 199-211, 2018

62 Gullett, B. K., "Effect of sulfur dioxide on the formation mechanism of polychlorinated dibenzodioxin and dibenzofuran in municipal waste combustors" 26 (26): 1938-1943, 1992

63 Lin, X, "Effect of different air pollution control devices on the gas/solid-phase distribution of PCDD/F in a full-scale municipal solid waste incinerator" 265 : 114888-, 2020

64 Wang, L., "Effect of chlorine content in feeding wastes of incineration on the emission of polychlorinated dibenzo-p-dioxins/dibenzofurans" 302 (302): 185-198, 2003

65 Kulkarni, P. S., "Dioxins sources and current remediation technologies — A review" 34 (34): 139-153, 2008

66 Buekens, A, "Dioxins from thermal and metallurgical processes: recent studies for the iron and steel industry" 42 (42): 729-735, 2001

67 Ogawa, H., "Dioxin reduction by sulfur component addition" 32 (32): 151-157, 1996

68 Anthony, E. J., "Dioxin and furan formation in FBC boilers" 35 (35): 3002-3007, 2001

69 Gunes, G., "Determination of optimum dose of adsorbent for PCDD/F removal in the flue gas of a medical waste incineration plant" 104 : 695-702, 2015

70 Zhao, W, "Decomposition of dioxinlike components in a DBD reactor combined with Hg/Ar electrodeless ultraviolet" 22 (22): 034005-, 2019

71 Cao, X, "Comprehensive diagnosis of PCDD/F emission from three hazardous waste incinerators" 5 (5): 172056-, 2018

72 Kim, J., "Comparison Analysis of Dioxin Removal Efficiency Followed by Incinerator Air Pollution Prevention Facility" 25-31, 2014

73 Chang, M. B., "Characterization of dioxin emissions from two municipal solid waste incinerators in Taiwan" 36 (36): 279-286, 2002

74 최진수, "Characteristics of the PCDD/DFs Emissions in the Flue Gases of Full Scale Incinerators" 330-331, 2000

75 Chyang, C., "An investigation on pollutant emissions from co-firing of RDF and coal" 30 (30): 1334-1340, 2010

76 Pan, W., "Adsorption of TCDD with 1-butyl-3-methylimidazolium dicyanamide ionic liquid : A combined molecular dynamics simulation and quantum chemistry study" 91 (91): 157-164, 2013

77 Lindgren, P., "Adiox® for dioxin removal in wet scrubbers and semi-wet or dry absorbers" 109 : 569-577, 2008

78 Liu, K., "A study of chlorine behavior in a simulated fluidized bed combustion system" 79 (79): 1115-1124, 2000

79 Qiang, N., "A novel activated carbon injection method to enhance PCDD/Fs removal efficiency in flue gas from a medical waste incinerator in Shanghai, China" 16 (16): 2717-2728, 2018

80 Griffin, R. D, "A new theory of dioxin formation in municipal solid waste combustion" 15 (15): 1987-1990, 1986