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Reference

[ Introduction ]

1) Cho, H., Ha, H., & Lee, S. (2019). Exploring Physical Environments, Demographic and Socioeconomic Characteristics of Urban Heat Island Effect Areas in Seoul, Korea. Journal of the Korean Regional Science Association, 35(4), 61-73. 

2) Hong, S., Kim, D., Byon, J., Park, H., & Ha, J. (2019). Analysis of the Effects of Advection and Urban Fraction on Urban Heat Island Intensity using Unified Model for Seoul Metropolitan Area, Korea. Atmosphere, 29(4), 381-390. 

3) Kim, D. (2022). Climate Crisis, The City : Getting Hotter. JOURNAL OF THE KOREAN SOCIETY OF CIVIL ENGINEERS, 70(7), 72-73. 4) Lee, C., Kim, J., & Jang, Y. (2012). A Study of Urban Heat Island in Chuncheon Using WRF Model and Field Measurements. Journal of Korean Society for Atmospheric Environment, 28(2), 119-130.

5) Park, J., & Cho, G. (2016). Influence of park size on the park cooling effect - Focused on Ilsan new town in Korea. Journal of Korea Planning Association, 51(5), 247-261, 10.17208/jkpa.2016.10.51.5.247

6) Park, S., & Bae, W. (2020). An Analysis of Changes in the Distribution of Heat Island in Seoul Using AWS Data - A Comparison of Heat Island Phenomena in 2005 and 2019. Journal of the Korean Housing Association (pp. 163 - 166). Seoul, Korea.

[ Method ]

       1) 국토교통부&국토지리정보원. (2016). 대한민국 국가지도집 2권 2020. 국토교통부

       2) NCAR. (n.d.). Weather Research & Forecasting Model (WRF). https://www.mmm.ucar.edu/models/wrf

       3) ncl.ucar.edu.  (n.d.). Overview of NCL. https://www.ncl.ucar.edu/overview.shtml)

2023-2 Numerical Weather Prediction
Team 4

Ideal Urban Heat Island Simulation

- Analysis of relationship between heat dome intensity and the degree of urbanization

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