[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.13106/jwmap.2021.Vol4.no3.1

Development of Complex Module Device for Odor Reduction in Sewage

KIM, Young-Do (dnc-korea.com)
KWON, Woo-Taeg (Department of Environmental Health & Safety, Eulji University)

Publication Information

Journal of Wellbeing Management and Applied Psychology / v.4, no.3, 2021 , pp. 1-9 More about this Journal

Abstract

Purpose: This study was conducted to develop a module with higher removal efficiency and effectiveness by adapting two or more deodorization techniques for main cause of odor pollution exposed citizen living near water treatment facilities. Research design, data and methodology: To consider the standard, unity, electrical wire, compatibility of detachable device by installing two types of dry deodorization device within one module for easy replacement. Complex odor, H₂S, NH₃ were collected from sewage treatment facilities for evaluation of deodorization device. Results: Using the developed application in this study, removal efficiency of complex odor, H₂S, NH₃ were 93%, 100%, 82%, respectively. Conclusions: The H₂S removal efficiency of deodorization device was higher than bio-filter system, which were currently used by sewage treatment. Further, the device should be considered for use in efficient odor removal system.

Keywords

Complex odor; $H_2S$ ; $NH_3$ ; Water treatment; Complex module devices;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Jang, H., Kim, S., Lee, J. K., Oh, N., & Song, J. (2017). Estimating the odor emission factors of the grit removal chambers of publicly-owned wastewater treatment plants. Journal of Odor and Indoor Environment, 16(4), 393-400. doi: 10.15250/joie.2017.16.4.393 DOI
2	Easter, C., Quigley, C., Burrows, P., Witherspoon, J., &Apgar, D. (2005). Odor and air emissions control using biotechnology for both collection and wastewater treatment systems. Chemical Engineering Journal, 113, 93-104. doi: 10.1016/j.cej.2005.04.007 DOI
3	Abalos, M., Bayona J. M., & Ventura, F. (1999). Development of a Solid-Phase Microextraction GC-NPD Procedure for the Determination of Free Volatile Amines in Wastewater and Sewage-Polluted Waters. Analytical Chemistry, 71, 3531-3537. doi: 10.1021/ac990197h DOI
4	Barbusinski, K., Kalemba, K., Kasperczyk, D., Urbaniec, K., Kozik, V. (2017). Biological methods for odor treatment - A review. Journal of Cleaner Production, 152, 223-241. doi: 10.1016/j.jclepro.2017.03.093 DOI
5	Gandu, B., Palanivel, S., Juntupally, S., Arelli, V., Begum, S., & Anupoju., G. R. (2021). Removal of NH₃ and H₂S from odor causing tannery emissions using biological filters: Impact of operational strategy on the performance of a pilot-scale biofilter. Journal of Environmental Science and Health, Part A, 56, 625-634. DOI
6	Gostelow, P., Parsons, S.A., & Stuetz, R.M. (2001). Odour measurements for sewage treatment works. Water Research, 35(3), 579-597. doi: 10.1016/S0043-1354(00)00313-4 DOI
7	Han, Z., Qi, F., Wang, H., Li, R., & Sun, D. (2019). Odor assessment of NH₃ and volatile sulfide compounds in a full-scale municipal sludge aerobic composting plant. Bioresource Technology, 282, 477-455.
8	Jiang, X., & Tay, J. H. (2010). Operational characteristics of efficient co-removal of H₂S and NH₃ in a horizontal biotrickling filter using exhausted carbon. Journal of Hazardous Materials, 176, 638-643. doi: 10.1016/j.jhazmat.2009.11.079 DOI
9	Jung, M. J., Kim, Y. D., Kwon, L. S., Lee, W. S., & Kwon, W. T. (2018). A Study on Cost-effective Treatment of Wastewater and Odor Reduction for Southeast Asian Market Entry. International Journal of Industrial Distribution & Business, 9(12), 23-29. DOI
10	Alinezhad, E., Mohsen, H., Rahmani, F., Keshizadeh, H., Abdi, M., & Naddafi, K. (2019). Technical and economic investigation of chemical scrubber and bio-filtration in removal of H₂S and NH₃ from wastewater treatment plant. Journal of Environmental Management, 241, 32-43. doi: 10.1016/j.jenvman.2019.04.003 DOI
11	Lee, M. S., Kang, D. H., Keum, J. L., Kwon, B. Y., Jo, H. W., Lee, C. H., Kim, E. D., Lim, H. J., & Song, H. B. (2018). Emission Characteristics of Odor Compounds from a Sewage Treatment Plant Near an Industrial Complex Area in Daegu City. Journal of Environmental Health Sciences, 44(2), 178-187. doi: 10.5668/JEHS.2018.44.2.178 DOI
12	Seo, B. R., Jeon, H. S., Park, Y. S., Yun, B. R., Jang, T., & Kim, T. (2013). The Emission Characteristics and Management of Odor Compounds from Public Sewage Treatment Facility. Journal of Korean Society of Odor Research and Engineering, 12(3), 97-109. DOI
13	Sun, G., Guo, H., & Peterson, J. (2010). Seasonal Odor, Ammonia, Hydrogen Sulfide, and Carbon Dioxide Concentrations and Emissions from Swine Grower-Finisher Rooms.Journal of the Air & Waste Management Association, 60, 471-480. doi: 10.3155/1047-3289.60.4.471 DOI
14	Kim, H., Kim, Y. J., & Chung J. S. (2002). Long-Term Operation of a Bio-filter for Simultaneous Removal of H₂S and NH₃. Journal of the Air & Waste Management Association, 52, 1389-1398. doi: 10.1080/10473289.2002.10470871 DOI
15	Kim, J., Sekyama, K., Lee, D., & Kim, H. (2006). Odors from Wastewater Treatment Plants. Korean Journal of Odor Research and Engineering, 5(3), 180-192.
16	Kim, S.-H., Lee, S.-H., Yun, Y.-J., Choi, S.-Y., Jung, M.-J., & Kwon, W.-T. (2021). A Study on the Sewage Sludge Odor Control System. Journal of Wellbeing Management and Applied Psychology, 4(2), 19-25. DOI
17	National Institute of Environmental Research(NIER). (2018b). Standard Method of Odor Compounds ES 09303.1a sulfur compounds - cold trap - capillary GC method.
18	Lee, M., Li, P., Koziel, J. A., Ahn, H., Wo, J., Chen, B., Meiirkhanuly, Z., Banik, C., & Jenks, W. S. (2020). Pilot-Scale Testing of UV-A Light Treatment for Mitigation of NH₃, H₂S, GHGs, VOCs, Odor, and O₃ Inside the Poultry Barn. Frontiers in Chemistry, 8, 613. DOI
19	Ministry of Environment(MOE). (2021). Environment Statistics Portal. Retrieved July 23, 2021 (actual access data), from http://stat.me.go.kr/nesis/mesp2/webStatistics/stat_main.jsp?tblID=DT_106N_99_2400002&inq_gubun=1&lang=kor&list_id=106H_01_002014&l_interval=2
20	National Institute of Environmental Research(NIER). (2018a). Standard Method of Odor Compounds ES 09302.1a ammonia - boric acid solution absorption - ultraviolet/visible spectrometry.
21	Ko, B. C., Lee, J. K., Lee, Y. S., Lee, M. G., & Kam, S. K. (2012). A Study on Odor Emission Characteristics of Domestic Sewage Treatment Facilities Using Composite Odor Concentration and Hydrogen Sulfide Concentration. Journal of the Environmental Sciences, 21(11), 1379-1388. doi: 10.5322/JES.2012.21.11.1379 DOI
22	National Institute of Environmental Research(NIER). (2021). Standard Methods for the Measurements of Air Pollution ES 01607.1a Method for the Determination of Ozone in Ambient Air - Ultraviolet Photometric Method.
23	Lee, B. K., Lee, S. H., Tak, S. J., & Lee, B. K. (2017). The Study on the Removal of Odor Emitting Environmental Fundamental Facility. Journal of Climate Change Research, 8(1), 5-56.
24	Sun, G., Guo, H., Peterson, J., Predicala, B., & Lague, C. (2008). Diurnal odor, ammonia, hydrogen sulfide, and carbon dioxide emission profiles of confined swine grower/finisher rooms. Journal of the Air & Waste Management Association, 58, 1434-1448. doi: 10.3155/1047-3289.58.11.1434 DOI
25	Yeo, U. H., Lee, I. B., Ha, T. H., Decano, C., Kim, R. W., Lee, S. Y., Kim, J. G., Choi, Y. B., & Park, Y. M. (2019).Evaluation of Odor Dispersion from Livestock Building through Field Experiment. Journal of the Korean Society of Agricultural Engineers, 61(6), 21-30.
26	Liang, J. Cheng, G., & Feng, H. (2016). Engineering practices of deodorization for odor in urban sewage treatment plants in China. Advances in Economics, Business and Management Research, 30, 86-91.
27	Zarra, T., Giuliani, S., Naddeo, V., & Belgiorno, V. (2012). Control of odour emission in wastewater treatment plants by direct and undirected measurement of odour emission capacity. Water Science & Technology, 66(8), 1627-1633. doi: 10.2166/wst.2012.362 DOI
28	Kang, S. W., Lee, J. S., Lee, K. S., Lim, H. A., Kim, J. S., Lee, J. D., Park, W. S., & Park, Y. K. (2020). Decomposition of odor using atmospheric-pressure plasma. Journal of the Korea Academia-Industrial Cooperation Society, 21(7), 708-718. doi: 10.5762/KAIS.2020.21.7.708 DOI
29	Kennes, C., & Thalasso, F. (1998). Review: Waste gas biotreatment technology. Journal of Chemical Technology & Biotechnology, 72, 303-319. doi: 10.1002/(SICI)1097-4660(199808)72:4<303::AID-JCTB903>3.0.CO;2-Y DOI
30	Kim, K.-O., Kim, Y.-J., & Won, Y.-S. (2008). Removal of VOCs and H₂S from Waste Gas with Biotrickling Filter. Journal of Industrial and Engineering Chemistry, 19(5), 519-525.
31	Lee, T., Lee, J., & Lee, J. (2009). Determination of Major Reduced Sulfur Gases Emitted from Wastes Stored in Environmental Facility Using GC/FPD. Journal of the Korean Geo-Environmental Society, 10(2), 37-43.
32	Morral, E., Gabriel, D., Dorado, A. D., & Gamisans, X. (2021). A review of biotechnologies for the abatement of ammonia emissions. Chemosphere, 273, 128006.
33	National Institute of Environmental Research(NIER). (2019). Standard Method of Odor Compounds ES 09301.b air dilution olfactory method.
34	Shammay, A., Sivret, E. C., Le-Minh, N., Fernandez, R. L., Evanson, I., & Stuetz, R. M. (2016). Review of odour abatement in sewer networks. Journal of Environmental Chemical Engineering, 4, 3866-3881. doi: 10.1016/j.jece.2016.08.016 DOI
35	Won, Y. S. (2007). Biotreatment Technologies for Air Pollution Control. CLEAN TECHNOLOGY, 13(1), 1-15. doi: 10.1007/s10098-010-0342-0 DOI