Kwang-Hun Lee
Master
E-mail: lkh322@postech.ac.kr
Phone (Mobile):
+82-10-5547-4682
Kwang-Hun Lee
Master
E-mail: lkh322@postech.ac.kr
Phone (Mobile):
+82-10-5547-4682
Education
POSTECH, Pohang , Korea
Ph.D. course at Hydroclimatology Research Grooup in Postech, Korea: Feb. 2022 ~
Gwangju institute sciences and technology (GIST), Gwangju, Korea
M.S. in Earth Sciences and Environmental Engineering at GIST, Korea: Mar. 2018 – Feb. 2020
B.S. in Earth Sciences and Environmental Engineering at GIST, Korea: Mar. 2014 – Feb. 2018
Research experiences
Researcher at Hydroclimatology Research Grooup in Postech, Korea: Jun. 2021 – Feb. 2022
Research Interests
1. Big data analysis of water quantity and water quality data
Water-use pattern of agricultural reservoirs
Lee, K. H., Nam, W.-H & Kam, J. (2026). Adaptive Rice Transplanting Schedules and Reservoir Use Reveal Emerging Climate Vulnerability in South Korea, Agricutural water management, in review
(Lee et al., 2026; unpublished)
Water Resource Management of Agricultural Reservoir in Drought
Lee, K. H., & Kam, J. (2024). Spatiotemporal patterns of water volume and total organic carbon concentration of agricultural reservoirs over South Korea. Water Research, 121610.
(Lee and Kam, 2024)
2. High resolution monitoring of water quantity and water quality using an Uncrewed Surface Vehicle
Measurement of water quantity and water quality using an Uncrewed Surface Vehicle
Lee, K.-H., Ali, S., Kim, Y., Lee, K., Kwon, S. Y., & Kam, J. (2023). High resolution mapping of nitrate loads of a reservoir using an uncrewed surface vehicle: Potential opportunities and challenges. Water Resources Research, 59, e2023WR034665. https://doi. org/10.1029/2023WR034665
Lee, K. H., Han, S., Oh.H. & Kam, J. (2026). High-resolution reservoir monitoring using uncrewed surface vehicles: Spatiotemporal dynamics of nitrate loads and drought impacts, ACS ES&T Water, in review
(Lee et al., 2023)
Published Papers
[1] Lee, K. H., & Kam, J. (2024). Spatiotemporal patterns of water volume and total organic carbon concentration of agricultural reservoirs over South Korea. Water Research, 121610.
[2] Lee, K.-H., Ali, S., Kim, Y., Lee, K., Kwon, S. Y., & Kam, J. (2023). High resolution mapping of nitrate loads of a reservoir using an uncrewed surface vehicle: Potential opportunities and challenges. Water Resources Research, 59, e2023WR034665. https://doi.org/10.1029/2023WR034665
[3] Choi, S., K.-H. Lee, J.-H. Park, S. Jeon, H. J. Lee, P.-G. Kang, J. Kam, 2024, Reliable AI models can reveal key processes of heat recovery steam generator operation in air pollutant emission, J. Clean. Prod., 140806. https://doi.org/10.1016/j.jclepro.2024.140806
[5] HY Kang, CS Kim, DY Kim, YJ Lee, HJ Park, GK Kundu, YK Kim, R Bibi, JB Jang, KH Lee, HW Kim, SG Yun, HY Kim, CK Kang (2020) Identifying patterns in the multitrophic community and food-web structure of a low-turbidity temperate estuarine bay. Scientific reports, 10(1), 1-16.
Patent
[1] 오염물질 배출 수준 산정 시스템 및 방법 (Pollutant Emission Concentration Prediction System and Method). 10-2023-0021417. Rep. of Korea.
[2] 오염물질 관리 시스템 및 방법 (). 10-2024-0-58479. Rep. of Korea