Browse > Article
http://dx.doi.org/10.17137/korrae.2018.26.2.43

Effect of Dry Fog Injection on Waste Decomposition in an Aerobic Landfill  

Park, Jin-Kyu (Ecowillplus Co. Ltd.)
Lee, Byung-Sun (FORCEBEL Co. Ltd.)
Yoon, Seok-Pyo (Department of Biological and Environmental Engineering, Semyung University)
Lee, Nam-Hoon (Department of Environmental and Energy Engineering, Anyang University)
Publication Information
Journal of the Korea Organic Resources Recycling Association / v.26, no.2, 2018 , pp. 43-51 More about this Journal
Abstract
The objective of this research was to assess the effect of moisture content and water injection method into the landfill on waste decomposition in an aerobic landfill. Firstly, respirometric experiments were performed in order to assess the effect of initial moisture content (20%, 30%, 40% and 50% respectively) on landfilled waste decomposition. The cumulative oxygen uptake and oxygen uptake rate were highly increased with the increase of initial moisture content. Secondly, lysimeter experiments showed that in comparison with the vertical injection method, dry fog system enhanced decomposition of organic wastes. Also, dry fog system provided uniform moisture distribution more than the vertical injection method within landfill.
Keywords
Solid Waste; Aerobic Landfill; Moisture Content; Water Injection; Dry fog;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Heyer, K.-U., Hupe, K., Ritzkowski, M. and Stegmann, R., "Pollutant Release and Pollutant Reduction - Impact of the Aeration of Landfills", Waste Management, 25(4), pp. 353-359. (2005).   DOI
2 Lee, N., Kusuda, T., Shimaoka, T., Matsufuji, Y. and Hanashima, M., "Pollutant Transformations in Landfill Layers", Waste Management and Research, 12(1), pp. 33-48. (1994).   DOI
3 Prantl, R., Tesar, M., Huber-Humer, M. and Lechner, P., "Changes in Carbon and Nitrogen Pool during In-situ Aeration of Old Landfills under Varying Conditions", Waste Management, 26(4), pp. 373-380. (2006).   DOI
4 Rich, C., Gronow, J. and Voulvoulis, N., "The Potential for Aeration of MSW Landfills to Accelerate Completion", Waste Management, 28(6), pp. 1039-1048. (2008).   DOI
5 Lee, N. H., "Improvement of Post-care System for Solid Waste Landfills", Korea Environment Resources Corporation, pp. 98-103 (2008).
6 Ritzkowski, M., Heyer, K.-U. and Stegmann, R., "Fundamental Processes and Implications during In Situ Aeration of Old Landfills", Waste Management, 26(4), pp. 356-372. (2006).   DOI
7 Park, J. K., Lee, N. H. and Kim, N. J., "The Effect of Air Injection Quantity on Stabilization of Screened Soil in Aerobic Bioreactor Landfill", Journal of the Korea Organic Resources Recycling Association, 12(1), pp. 104-109. (2004).
8 Ritzkowski, M. and Stegmann, R., "Generating $CO_2$-credits through Landfill In Situ Aeration", Waste Management, 30(4), pp. 702-706. (2010)   DOI
9 Park, J. K., Lee, N. H. and Yoon, S. P., "Change in Biodegradability of Landfilled Waste by Field-Scale Aerobic Landfill Stabilization", Journal of Korea Society of Waste Management, 28(3), pp. 242-248. (2011).
10 Yoon, S. P., Kim, H. W., Lee, N. H., Kim, K. and Lee, B. S., "Change of Leachate Characteristics at Aerobic Landfill Lysimeter with Different Air Flow-rate", Journal of Korea Society of Waste Management, 29(3), pp. 275-280. (2012).
11 Yoon. S. P., Zhao, X., Lee, N. H., Jeon, Y. H., Byun, Y. D., Ahn, Y. M. and Min, J. H., "A Field Study on Early Stabilization of Waste Landfill Using Air Injection and Leachate Recirculation", Journal of the Korea Organic Resources Recycling Association, 18(2), pp. 45-54. (2010).
12 Kim, H. J. and Lee, N. H., "Effect of Oxygen and Moisture on Stabilization of Municipal Solid Wastes in Landfill", Journal of the Korea Organic Resources Recycling Association, 14(1), pp. 139-150. (2006).
13 Kim, K., Jeong, S. R., Yoon, S. P., Lee, B. S. and Lee, N. H., "The Suggestion of a Pre-stabilization Technology for Sustainable Solid Waste Landfill", Proceedings of the 2011 Autumn Conference of the Korea Society of Waste Management, pp. 489-491. (2011).
14 Haug, R., "The Practical Handbook of Compost Engineering", Lewis Publishers, Boca Raton, pp. 385-436. (1993).
15 Kim, Y. H., Park, H. S. and Choi, Y. H., "Mean Size of Droplets Ejected from Humidifier and Distributions of Relative Humidity as Affected by Different Humidifying Methods in Graft-taking Enhancement System", Journal of Bio-Environment Control, 12(1), pp. 12-16. (2003).
16 Pommier, S., Chenu, D., Quintard, M. and Lefebvre, X., "Modelling of Moisture-dependent Aerobic Degradation of Solid Waste", Waste Management, 28(7), pp. 1188-1200. (2008).   DOI
17 Kallel, A., Matsuto, T. and Tanaka, N., "Determination of Oxygen Consumption for Landfilled Municipal Solid Wastes", Waste Management and Research, 21(4), pp. 346-355. (2003).   DOI
18 Petric, I. and Selimbasic, "Development and validation of mathematical model for aerobic composting process", Chemical Engineering Journal, 139(2), pp. 304-317. (2008).   DOI
19 Krivan, V., "The ideal free distribution and bacterial growth on two substrates", Theoretical Population Biology, 69(2), pp. 181-191. (2006).   DOI
20 Kim, H. J., Jung, S. R., Park, J. K. and Lee, N. H., "Evaluation of Anaerobic Biodegradability of Organic Waste Considering Diauxic Growth", Journal of Korea Society of Waste Management, 25(7), pp. 652-658. (2008).