Journal of Korean Society of Rural Planning (농촌계획)

Korean Society of Rural Planning (한국농촌계획학회)
권호 표지
DOI QR코드

DOI QR Code

Direct Runoff Reduction Analysis and Application Feasibility Evaluation of Vegetation-type Facilities

식생형시설의 직접유출량 저감 효과분석 및 적용 방법 타당성 검토

  • Hanyong Lee (Research and Development team, Korea Engineering) ;
  • Won Hee Woo (Research and Development team, Korea Engineering) ;
  • Youn Shik Park (Department of Regional Construction Engineering, Kongju National University)
  • 이한용 (주식회사 고려엔지니어링 기업부설연구소) ;
  • 우원희 (주식회사 고려엔지니어링 기업부설연구소) ;
  • 박윤식 (국립공주대학교 지역건설공학과)
  • Received : 2024.04.27
  • Accepted : 2024.05.31
  • Published : 2024.05.31
Download PDF
⟨ Previous Next ⟩

Abstract

As impervious area increases due to urbanization, rainfall on the impervious area does not infiltrate into the ground, and stormwater drains quickly. Low impact development (LID) practices have been suggested as alternatives to infiltrate and store water in soil layers. The practices in South Korea is applied to urban development projects, urban renewal projects, urban regeneration projects, etc., it is required to perform literature research, watershed survey, soil quality, etc. for the LID practices implementation. Prior to the LID implementation at fields, there is a need to simulate its' effect on watershed hydrology, and Storm Water Management Model (SWMM) provides an opportunity to simulate LID practices. The LIDs applied in South Korea are infiltration-based practices, vegetation-based practices, rainwater-harvesting practices, etc. Vegetation-based practices includes bio-retention cell and rain garden, bio-retention cells are mostly employed in the model, adjusting the model parameters to simulate various practices. The bio-retention cell requires inputs regarding surface layer, soil layer, and drain layer, but the inputs for the drain layer are applied without sufficient examination, while the model parameters or inputs are somewhat influential to the practice effects. Thus, the approach to simulate vegetation-based LID practices in SWMM uses was explored and suggested for better LID simulation in South Korea.

Keywords

References

  1. Andong, 2018, Report on the basic plan for the water circulation leading city in Andong, pp.1-349. 
  2. Busan, 2020, Eco delta city T/K report, pp.70-76. 
  3. D. N. Moriasi, M. W. Gitau, N. Pai, P. Daggupati, 2015, Hydrologic and Water quality Model: Performance measures and evaluation criteria, American Society of Agricultural and Biological Engineers (ASABE), 58(6) pp.1763-1785. 
  4. Gimhae, 2019, Basic and detailed design of Zelmi village green infrastructure paper, pp.1-246. 
  5. Jeonju, 2016, Basic and detailed design of Deokjin watershed green infrastructure paper, pp.1-328. 
  6. Jung, J.S., Jung K.W., Kang, S.M., Hyun, K.H., 2018, Evaluation of Water Cycle improvement in LH Institute Using SWMM-LID Model, Journal of Korean Society on Water Environment, 34(3), pp.308-315. 
  7. Jung, K.W., Jung, J.S., Park, J.S., Hyun, K.H., 2017, Application of SWMM for Reduction of Runoff and Pollutant Loading in LID Facilities, LHI Journal of Land and Housing Research Institute, 8(4), pp.249-256. 
  8. Kim, B.Y., Lee, B.Y., 2019, Integrated Planning System for Low-Impact Development, Korea Institite of Ecological Architecture and Environment, 19(3), pp.15-28. 
  9. Kim E.S., 2020, Analysis of Runoff According to Application of SWMM-LID Element Technology (I): Parameter Sensitivity Analysis, Journal of the Korean Society of Hazard Mitigation, 20(6), pp.437-444. 
  10. Kim, J.H., Choi, S.W., Joo, J.G., 2017, EPA SWMM-LID Modeling for Low Impact Development, Journal of the Korean Society of Hazard Mitigation, 17(2), pp.415-424. 
  11. Lee, J.M., Hyun, K.H., Lee, Y.S., Kim, J.G., Park, Y.B., Choi, J.S., 2011, Analysis of Water Cycle Effect by Plan of LID-decentralized Rainwater Management Using SWMM-LID Model in a Low-carbon Green Village, LHI Journal of Land and Housing and Urban Affairs 2(4), pp.503-507. 
  12. Ministry of Environment (ME), 2016, Low-Impact Development design Guideline, Ministry of Environment, pp.1-116. 
  13. Ministry of Environment (ME), 2019, White paper on zero rainwater runoff pilot project, Ministry of Environment, pp.19-42. 
  14. Ministry of Environment (ME), 2020, Manual for installation, maintenance, and operation of reduction facilities for non-point pollution, Ministry of Environment, pp.1-202. 
  15. Ministry of Environment (ME), 2023, Environmental Geographic Information Service (EGIS), http://egis.me.go.kr (accessed Feb. 2024). 
  16. Nash, J. E., and Sutcliffe, J. V., 1970, River flow forecasting through conceptual models Part I-A discussion of principles, Journal of Hydrology, 10(3), pp. 282-290. 
  17. Moon, J.H., Park, J.R., Kwon, S.C., Kim, J.M., Journal of the Korean Society of Hazard Mitigation, 23(3), pp.33-40. 
  18. Pyeongtaek, 2022, Pyeongtaek smart green city paper, pp.1-249. 
  19. Rossman, L.A., 2010, Modeling Low Impact Development Alternatives with SWMM, J. Water Manag. Model., 6062, pp.167-182. 
  20. Ramanarayanan, T.S., Williams, J. R., Dugas, W. A., Hauck, L. M., and McFarland, A. M. S., 1997, Using APEX to identify alternative practices for animal waste management, ASAE International Meeting, Paper 97-2209, pp.1-7. 
  21. Shin, D.S., Park, J.B., Kang, D.K., Jo, D.J., 2014, An Analysis of Runoff Mitigation Effect Using SWMM-LID Mode for Frequently Inundated Basin, Journal of The Korean Society of Hazard Mitigation, 13(4), pp.303-309. 
  22. U.S. Environmental Protection Agency (EPA), 2007, http://www.lowimpactdevelopment.org 
  23. U.S. Environmental Protection Agency (EPA), 2022, SWMM 5.2 User's Manual, U.S. Environmental Protection Agency, pp.290. 
  24. Won, J.E., Seo, J.Y., Kim, S.D., 2021, Hydrologically Route-based Green Infra facilities assessment Model:Focus on Bio-retention cells, Infiltration trenches, Porous Pavement System, and Vegetative Swales, Journal of Wetlands Reaserch, 23(1), pp.74-84. 
  25. Yeon, J.S., Jang, Y.S., Lee, J.H., Shin, H.S., Kim, E.S., 2014, Analysis of Stormwater Runoff Characteristics for Spatial Distribution of LID Element Techniques using SWMM, Journal of the Korea Academia-Industrial cooperation Society, 15(6), pp.3983-3989.