Aims & Scope | Editorial Board| Review Policy | Ethical Policy | Open Access | Contact us
Archives | Search

Estimation on an Amount of the Groundwater Demand and Supply for Applying the Well-network System (WNS) to a Frequent-drought Area
Byung Sun Lee¹·Chanduck Jeong¹·Gyusang Lee¹·Kyoochul Ha²·Jong-Hwa Lee³·Sung-Ho Song¹*
¹Rural Research Institute, Korea Rural Community Corporation
²Climate Change Research Division, Korea Institute of Geoscience and Mineral Resources
³GeoGreen21 Co., Ltd.
관정연계이용 기술 적용을 위한 상습가뭄지역 지하수 수요-공급량 평가
이병선¹·정찬덕¹·이규상¹·하규철²·이종화³·송성호¹*
¹한국농어촌공사 농어촌연구원
²한국지질자원연구원 기후변화대응연구본부
³㈜지오그린21
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. Allen, R.G., Pereira, L.S., Raes, D., and Smith, M., 1998, Crop evapotranspiration-guidelines for computing crop water requirements. FAO irrigation and drainage paper 56. Rome, Italy: Food and agriculture organization of the United Nations. ISBN 92-5-104219-5.
2. Chung, H.W., Kim, S.J., Kim, J.S., Noh, J.K., Park, K.W., Sohn, J.K., Yoon, K.S., Lee, K.H., Lee, N.H., Chung, S.O., Choi, J.D., and Choi, J.Y., 2007, Irrigation and Drainage Engineeirng, Dongmyungsa. 424 p.
3. Chung, S.-O. and Park, K.-J., 2004, Irrigation return flow measurement and analysis in a small size paddy area, J. Korea Water Resour. Associ., 37(7), 517-526.
4. Choo, T.-H., 2004, A study on return flow ratio of irrigation for a paddy field in pumping station by water balance model, J. Korea Water Resour. Associ., 37(3), 249-255.
5. Ha, K., Park, C., Kim, S., Shin, E., and Lee, E., 2021, Groundwater recharge evaluation on Yangok-ri area of Hongseong using a distributed hydrologic model (VELAS), Econ. Environ. Geol., 54(2), 161-176.
6. Hong, S.-O, Song, S.-H., An, J.-G., and Kim, J.,-S., 2016, Agricultural radial collector wells in South Korea and sustainability, J. Engineer. Geol., 26(3), 331-337.
7. JA (The JoongAng daily), 2021, Deadly flooding in western Europe: Developed countries face climate revenges, https://www.joongang.co.kr/article/24108809#home [accessed 21.12.01]
8. KBS (Korea broadcasting system), 2020, [2020 rainy season] ① Not ¡®rainy season¡¯ but ¡®wet rainy season¡¯... Even veteran forecasters were afraid, https://news.kbs.co.kr/news/view.do?ncd= 4522041 [accessed 22.03.24]
9. KIGAM (Korea Institute of Geoscience and Mineral Resources), 2011, Application of analysis technique and modeling for coupled groundwater-surface water flow system, KIGAM, 491 p.
10. KIGAM (Korea Institute of Geoscience and Mineral Resources), KRC (Korea Rural Community Corporation), KMU (Kookmin University), and GeoGreen21, 2021, An annual report on development of the well network system technique keeping up with drought, A research group on optimal groundwater uses against water demands during drought periods, Ministry of Environment, 429 p.
11. Kim, S.W., Park, S.-I., Ko, K., Lee, H.-J., Kihm, Y.H. and Lee, S.R., 2014, 1:100,000 Tectonostratigraphic map of the Hongseong area, map 1: solid geology interpretation; Korea Institute of Geoscience and Mineral Resources.
12. Kim, H.-Y., Nam, W.-H., Mun, Y.-S., An, H.-U., Kim, J., Shin, Y., Do, J.-W., and Lee, K.-Y., 2022, Estimation of irrigation return flow from paddy fields on agricultural watersheds., J. Korea Water Resour. Associ., 55(1), 1-10.
13. Kim, T.-C., Lee, H.-C., and Moon, J.-P., 2010, Estimation of return flow rate of irrigation water in Daepyeong pumping district, J. Korean Soc. Agricult. Eng., 52(1), 41-49.
14. KRC (Korea Rural Community Corporation), 2014, A study on the supply plan of clean groundwater and groundwater heat for facilities in agricultural complex, KRC, Naju, 221 p.
15. KRC (Korea Rural Community Corporation), 2017a, A report on the artificial recharge and recovery to Danmok greenhouse facilities zone, Jinju, Gyongsangnamdo, Korea, KRC, Naju, 164 p.
16. KRC (Korea Rural Community Corporation), 2017b, Development of design and assessment technique for subsurface dams for drought management, KRC, Naju, 162 p.
17. KRC (Korea Rural Community Corporation), 2019, HOMWRS (Hydrological operation model for water resources system) ver. 2.11.
18. KRC (Korea Rural Community Corporation), 2020, Development of subsurface dam operation and maintenance techniques against drought, KRC, Naju, 71 p.
19. KRC (Korea Rural Community Corporation), 2021, Development of regional groundwater dam model in east coastal area of South Korea for sustainable supply of agricultural water, KRC, Naju, 189 p.
20. Lee, C.H. and Kim, S.S., 1963, Explanatory text of the geological map of Hongseong sheet (1:50,000). Geological survey of Korea, Korea, 33 p.
21. Lim, C.-H., Kim, D., Shin Y., and Lee, W.-K., 2015, Assessment of drought severity on cropland in Korea peninsula using normalized precipitation evapotranspiration index (NPEI), J. Climat. Chang Resear., 6(3), 223-231.
22. MOE (Ministry of Environment) and NDIAC (National drought information-analysis center), 2018, 2013~2018 sustainable drought analysis & assessment report (in Korean), MOE and NDIAC, Sejong, 127 p.
23. Moon, J.W., 2018, Analysis of reference evapotranspiration change in Korea by climate change impact, J. Korean Soc. Hazard Mitig., 18(7), 71-81.
24. Moon, S.H., Kim, Y., Jeong, Y.Y., and Hwang, J., 2016, Groundwater-stream watger interaction induced by water curtain cultivation activity in Sangdae-ri area of Cheong-ju, Korea, Econ. Environ. Geol., 49(2), 105-120.
25. MSIT (Ministry of Science and ICT) and KIGAM (Korea Institute of Geoscience and Mineral Resources), 2013, Development of intergrated core technologies in aquifer recharge system for groundwater sustainability, MSIT and KIGAM, Sejong, 261 p.
26. Penman, H.L., 1948, Natural evaporation from open water, bare soil and grass. Proc. Roy. Soc. London A(194), S. 120-145.
27. Sohn, K.H., Bae, D.H., Ahn, J.H., 2014, Projection and analysis of drought according to future climate and hydrological information in Korea, J. Korea Water Resour. Assoc., 47(1), 71-82.
28. Sokcho-si, 1998, Hydrogeologic study in accordance with Ssangchon groundwater dam, Sokcho-si, 361 p.
29. Sokcho-si, 2019, Geologic survey and review on universal validity for placing Ssangchon 2^nd groundwater dam, 330 p.
30. Song, J.H., Song, I.H., Kim, J.T., and Kang, M.S., 2015, Characteristics of irrigation return flow in a reservoir irrigated district, J. Korean Soc. Agricult. Eng., 57(1), 69-78.
31. Song, S.-H., Myoung, W.-H., An, J.-G., Jang, J.-S., Baek, J.-H., and Jung, C.-Y., 2018, Estimation of regional future agricultural water demand in Jeju island considering land use change, J. Soil Groundw. Environ., 23(1), 92-105.
32. Yong, H.-H., Song, S.-H., Myoung, W.-H., An, J.-G., and Hong, S.-W., 2017, Current status and application of agricultural subsurface dams in Korea, J. Soil Groundw. Environ., 22(3), 18-26.

This Article

2022; 27(2): 24-35

Published on Apr 30, 2022
10.7857/JSGE.2022.27.2.024
Received on Feb 10, 2022
Revised on Feb 28, 2022
Accepted on Mar 30, 2022

This Article

Services

Shared

Correspondence to