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http://dx.doi.org/10.9715/KILA.2021.49.2.113

Installation Design of Landscape-use Artificial Channel for Sustainable Management -Focusing on the Water Volume and Equipment System of Streamlet in Jeonju and Wanju Innovation City-  

Oh, Chang-Song (Dept. of Landscape Architecture, Yeungnam University)
Publication Information
Journal of the Korean Institute of Landscape Architecture / v.49, no.2, 2021 , pp. 113-127 More about this Journal
Abstract
Although planning techniques linking parks, green areas, and waterways have become common, there are frequent disruptions in the operation and management of landscape-use artificial channels (LuAC). Therefore, this study examined a design to promote the sustainable management and operation of a LuAC using rainwater for the streamlets of the Jeonju-Wanju Innovative City. In order to accomplish the purpose of this study, scenarios were set up by dividing the design into waterhead and waterway portions. First, the scenario regarding the waterhead was analyzed to calculate the water supply and storage required for the waterway and waterhead. The analysis showed that the waterway requires a water supply of 676.8 tons/months, 3,018 tons to 5,512 tons of storage space, and a water depth of 0.75 m to 1.37 m considering the ecological and landscape aspects. The second scenario is to select an effective system of facilities for the operation and management of the LuAC. To accomplish this, a single-circulation system (SCS), which transports water to a highland location was compared to a multi-circulation system (MCS), which supplied water separately to each water space and operated independently. The results showed that the MCS, which was operated independently by small power units, was more effective owing to the vast difference in water supply operation times.
Keywords
Water Circulation Facility; Detention Pond in Urban Parks; Water Balance Analysis; Waterscape Facility; Water supply;
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Times Cited By KSCI : 4  (Citation Analysis)
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1 Park, S. N. and H. J. Cho(2016) Physiological and psychological effects of an interior falling waterscape facility on university students. Journal of the Korean Institute of Landscape Architecture 44(5): 38-46.   DOI
2 Yoon, S. H., S. G. Kim, N. H. Kim, W. Wi, S. H. Lee, G. W. Jo, D. S. Kim and Y. G. Cho(2014) Distribution of antibiotic resistant escherichia coli and water quality in waterscape facilities. Journal of Environmental Health Science 40(3): 225-233.   DOI
3 Ministry of Land, Infrastructure, and Transport(2016) Eco-pond and Constructed Wetland: Korean Design Standard, KDS 34 70 20. pp.1-19.
4 Noh, H. J., K. S. Choi, Y. N. Kim, M. S. Park, J. H. Lim and H. S. Park(2020) Ethnographic study on diachronic aspects of children's play around a stream. The Journal of Learner-Centered Curriculum and Instruction 20(4): 1223-1245.
5 Oh, S. H., J. W. Kim, M. B. Chae, Y. H. Bae and H. S. Kim(2018) Case study: Runoff analysis of a mountain wetland using water balance method. Journal of Wetlands Researh 20(3): 210-218.
6 Sejong city, (https://www.sejong.go.kr/lake/sub01_03_03.do;jsessionid=HsfXh3fc5RmWxLuy4GctYRSvAuZthMLvjqYrUqDkjd66grWfyIzRW9Uh1EKdV9Dp.Portal_WAS2_servlet_engine5)
7 Yu, N.(2013) A study on citizen's preference for waterscape design in urban open space. Applied Mechanics and Materials 357-360: 1995-2001.   DOI
8 Zo, Y. G.(2012) Risk assessment of escherichia coli infection from use of interactive waterscape facilities. Journal of Environmental Health Science 38(1): 73-81.   DOI
9 Namu wuki (https://namu.wiki/w/%EC%A0%84%EB%B6%81%ED%98%81%EC%8B%A0%EB%8F%84%EC%8B%9C?from=%EC%A0%84%EC%A3%BC%ED%98%81%EC%8B%A0%EB%8F%84%EC%8B%9C)
10 Wikiwand (https://www.wikiwand.com/en/Water_balance)
11 Yoo, S. H., D. K. Lee, H. M. Kim and Y. C. Cho(2015) An analysis of the water balance of low impact development techniques according to the rainfall types. Journal of Environmental Impact Assessment 24(2): 163-174.   DOI
12 Gwon, Y. H.(2019) The Drought Evaluation through the Development of Water Balance Model Linked with Reservoirs and Rivers. Ph. D. Dissertation, Graduate School of Incheon National University, Korea.
13 Oh, S. M., I. S. Cho and S. G. Oh(2013) Analysis on characteristic of planning and introduction effect according to water space in housing environment. Journal of the Regional Association of Architectural Institute of Korea 15(6): 73-81.
14 Oh, S. M., S. G. Oh and H. S. Won(2010) Analyzing the change of indoor thermal environment with the introduction of the water space in exterior housing. Journal of the Korean Houising Association 21(2): 41-48.
15 Park, K. Y., S. W. Lee, Y. J. Shim and H. Y. Hwang(2011) Analysis on the mitigation effects of urban heat island through creation of water space - A case study of Yeol-Mae village Apt in Daejeon's. KIEAE Journal 11(5): 13-18.
16 Bulut, Z. and H. Yilmaz(2009) Determination of waterscape beauties through visual quality assessment method. Environmental Monitoring and Assessment 154(1-4): 459-468.   DOI
17 JBDC & LH(2010) Landscape Architecture Masterplan in Jeonju and Wanju Innovation City Development Project. Inprocess Review Report. pp.1-100. (Unpublished)
18 Jeong, D. S.(2010) The characteristics of water space in the spatial structure of oeam folk village. Journal of The Urban Design Insitute of Korea 11(2): 23-44.
19 Jeong, Y.G., J. P. Park and H. S. Sin(2020) Correlation between LID flood control capability and runoff coefficient. Journal of The Korean Society of Hazard Mitigation 20(5): 339-351.   DOI
20 Bae, W. K. and K. H. Yoon(2012) A design guideline of the apartment house complex for mitigation of heat island effect - For the planning agenda constructed and elected in 2005~2010. Journal of The Urban Design Insitute of Korea 13(2): 47-60.
21 Byeon, C. W. and J. C. Lee(2019) A study on ecological reprocessing and creation of biotope by reuse of treated waste water and nonpoint pollution source of stream. Journal of Wetlands Research 21(4): 374-383.   DOI
22 Choi, G. W., D. E. Kim, G. H. Yoon and M. S. Han(2011) The effect and application of flow induction machine in artificial canal way and lake through water quality model test. Journal od Korea Water Resources Association 44(6): 477-486.
23 Choi, J. H., O. J. Lee and S. D. Kim(2017) Estimation of stormwater interception rate for bio-retention LID facility. Journal of Korean Society on Water Environment 33(5): 563-571.   DOI
24 Choi, J. S. and J. M. Lee(2016) A study on introduction plan of water circulation facilities considering site-condition. Research Report to Land & Housing Institute pp. 1-222.
25 Gimpo city(2015) Operation and management of water circulation system in Gimpo Han River New Town. Research Report to Gimpo. pp. 1.1-7.69.
26 Kim, J. H., S. H. Kim and K. W. Kwon(2020) Water supply method according to reservoir water balance analysis using UAV and USV. Journal of the Korean Society of Cadastre 36(3): 103-114.   DOI
27 Kim, J. P., Y. S. Kim and W. H. Im(2007) An analytical study of the design and characteristics of water bodies in urban parks - A case study of urban parks in Gyeong-Nam -. Journal of the Korean Institute of Landscape Architecture 35(2): 25-36.
28 Kim, M. S.(2008) A Study on Improvement of Waterscape Facilities Supplied by Rainwater in Apartment Complex, Master's Thesis, Graduate School of Seoul National University, Korea.
29 Clarke, J.(2010) Living waterscape: The practice of water in everyday life. Performance Research 15(4): 115-122.   DOI
30 Eom, H. Y.(2010) Constructed wetland design. Korean National Committee on Irrigation and Drainage 43: 20-24.
31 Lee, O. J., J. H. Choi, J. H. Lee, and S. D. Kim(2017) Determination of optimum design capacity of bio-retention for improvement of urban water cycle. Korean Chemical Engineering Research 55(6): 745-753.   DOI
32 Ji, J. S.(2007) A development on method of algae removal for water quality improvement by using compacted equipment in eutrophic lakes. Research Report to Korea Institute of Construction Technology pp. 1-234.
33 Ji, W. K., J. H. Ahn and J. H. Lee(2012) Urban instream flow augmentation using reclaimed water in Korea. Journal of Korean Society of Water and Wastewater 26(2): 285-294.   DOI
34 Jo, J. W. and M. W. Lee(2020) Water space classification for rainwater circulation in residential complexes and reservoir park design - With case study on Youngho urban park at Hyoja residential complex, Jeonju city. Journal of The Urban Design Insitute of Korea 21(2): 99-116.
35 Joo, J. W.(2011) A Study on the Analysis of Types of Flaws and Improving the Maintenance of Music Fountains. Master's Thesis, Graduate School of Hanyang University, Korea.
36 Kwon, T. G.(2019) Measure for Improving Urban Park Water Balance by Estimate Run Off Coefficients by Land Cover Types. Ph. D. Dissertation, Graduate School of Dankook University, Korea.
37 Lee, J. M., C. J. Joo, Y. G. Yun and Y. G. Jeong(2016) Investigations on establishing a water circulating system for securing the quantity and quality of water at the Seok-Mun detention basin. Journal of the Korean Society of Hazard Mitigation 16(4): 329-337.   DOI
38 Lee, K. J., A. Y. Choi and B. H. Song(2008) Characteristics analysis of the design factors followed by present techniques of waterscape facilities in the apartment complex. KIEAE Journal 8(4): 11-18.
39 LH(2011) Groundswell: Landscape Design of Urban Infrastructure in Incheon Gajeong District. pp. 1-166.
40 Kwon, S. H.(2002) A Study on the Improvement Plans for Construction and Maintenance of the Waterscape Facility in the Outdoor Space in Apartment Complex. Master's Thesis, Graduate School of Hanyang University, Korea.
41 Ministry of Environment(2019) Guidelines for Operation and Management of Waterfront Facilities. pp.1-82.
42 Lianyong, W. and F. J. Eagles(2009) Some theoretical considerations: From Landscape ecology to waterscape ecology. Acta Ecologyica Sinica 29(3): 176-181.
43 Ministry of Construction and Transportation(2016) Waterscape Facility: Korean Design Strandard, KDS 34 50 35. pp. 1-11.