The Analysis of the Impact of Urbanization on Urban Meteorology from Urban Growth Management Perspective
The amount of urban artificial heat which affects the
urban temperature rise in urban meteorology was investigated in order
to clarify the relationships between urbanization and urban
meteorology in this study.
The results of calculation to identify how urban temperate was
increased through the establishment of a model for measuring the
amount of urban artificial heat and theoretical testing revealed that the
amount of urban artificial heat increased urban temperature by plus or
minus 0.23 ˚ C in 2007 compared with 1996, statistical methods
(correlation and regression analysis) to clarify the relationships
between urbanization and urban weather were as follows.
New design techniques and urban growth management are
necessary from urban growth management point of view suggested
from this research at city design phase to decrease urban temperature
rise and urban torrential rain which can produce urban disaster in terms
of urban meteorology by urbanization.
[1] Jeongwung Koh, Hee Baek, Wontae Gwon, Jongyeol Park, 2006,
"Temperature Distribution Features of Korean Peninsula and Regional
Classification", Weather Research, 1(1): 3-14.
[2] Haejeong Goo, Yeonhee Kim, Jaecheol Nam, 2005, "Characteristic
changes of Rainfall in Seoul by Urbanization ", Journal of spring
academic conference, 282-283, Korea Meteorological Society.
[3] Gyeonghwan Kim, Baekjo Kim, Jaeho Oh, Wontae Gwon, Heejeong
Baek, 2000, "A Study on Extraction of Urbanization Effects in
Temperature Changes in Korean Peninsula", Journal of Korean
Meteorological Society, 36(5 ): 519-526.
[4] Sanjin Kim, Seonyoung Lee, Heejeong Ham, 2003, "Changes in local
climate due to urban development", Planning Part of Architectural
Institute of Korea, 19(5) : 175-181.
[5] Yoonjong Kim, Sangyeong Shin, 2009, "Evaluation Method on Danger of
Disasters for Reducing Urban Disasters", Seoul Development Institute,
Seoul.
[6] Nowuk Park, Dongho Jang, 2008, "Numerical Elevation Model and
Distribution Map of Temperature and Precipitation using multivariate
kriging", Journal of The Korea Geographical Society, 43(6) : 1002-1015.
[7] Eunha Son, Yugeun Kim, Jeonghye Hong, 2000, "A Study on Calculation
of Urban Artificial Heat", Journal of Korean Society for Atmospheric
Environment, 16(1) : 37-47.
[8] Imcheol Shin, Heeil Lee, Wontae Gwon, Hyosang Jung, 2005, "Current
Climate Changes from the Ancient Meteorology Point of View", Journal
of Korea Meteorological Society, 41(2-1): 229-237
[9] Inae Yeo, Jeongjae Lee, Seonghwan Yoon, 2009a, "Analysis on the
Impact of Building-to-Land Ratio and Floor Area Ratio on Urban
Meteorology", Journal of Korean Solar Energy Society, 29(3) : 19-27.
[10] Inae Yeo, Kamata Yoko, Jeongjae Lee, Seonghwan Yoon, 2009b,
"Quantative Review on the Effects of Conditions of Building Groups on
Urban Thermal Environment", Journal of Korean Solar Energy Society,
29(1) : 180-183.
[11] Inae Yeo, Seonghwan Yoon, 2009, "Numerical Simulation on Effects of
Urban Planning Elements on Heat Island Formulation in Summer",
Journal of an academic conference of Architectural Society of Korea,
29(1) : 577-580.
[12] Gangook Lee, Wonwha Hong, 2007, "A Study on Features of Heat Island
and Cold Island by Urban Temperature Rise", Journal of Planning Part in
Architectural Society of Korea, 23(8) : 219-228.
[13] Imsoo Jung, Dongho Choi, Buyong, "Comparison of Thermal
Environment in Summer Through Observation of Microscopic
Meteorology", Journal of Korean Solar Energy Society, 29(6) : 94-101.
[14] Woncheol Cho, Wonhwan Lee, Gilchun Lee, 1987, "Consideration of
Spatial Characteristics in Case of Flooding in Han River Basin", Korea
Water Resources Association, 17-28.
[15] Yongwha Cha, Hakyeol Kim, Taeyoung Huh, 2009, "Impact of Land
Utilization, Land Cover Features on Urban Temperature of Seoul", Seoul
City Research, 10(4) : 107-120.
[16] Giok Hong, Myoungseok Suh, Jeonho Kang, 2008, "Analysis of Urban
Heat Island using Geostationary Satellite Data", Journal of spring
academic conference, 2008, Korea Meteorological Society : 322-323.
[17] Kyoungja Ha, Eunho Ha, Cheolsang Ryu, Eunhee Jeon, 2004,
"Temperature Trends and Extreme Weather of 4 Major Cities in Korea
Since 1909", Korean Meteorological Society, 40(1) : 1-16.
[18] Judit Bartholy, Rita Pongrácz, Yukihiro Kikegawa, Yutaka Genchi,
Hiroaki Kondo and Keisuke Hanaki. 2007. "Reginal analysis of extreme
temperature and precipitation indices for the Carpathian Basin from 1946
to 2001". Global and Planetary Change 57. : 83-95.
[19] Nicole Mölders and Mark A. Olson. 2004. "Impact of Urban Effects on
Precipitation in High Latitudes". Journal of Hydrometeorology. :
409-429.
[20] Shobhakar Dhakal, and Keisuke Hanaki. 2002. "Improvement of urban
thermal environment by managing heat discharge sources and surface
modification in Tokyo". Energy and Buildings, 34. : 13-23.
[21] Sung-Nam Oh, Yeon-Hee Kim and Myung-Suk Hyun. 2004. "Impact of
Urbanization on Climate Change in Korea, 1973-2002". Journal of The
Korean Meteorological Society, 40(6) : 725-740.
[22] Energy Statistics Year Book, 2009, "Energy Economy Research",
Ministry of Knowledge Economy, Korea.
[1] Jeongwung Koh, Hee Baek, Wontae Gwon, Jongyeol Park, 2006,
"Temperature Distribution Features of Korean Peninsula and Regional
Classification", Weather Research, 1(1): 3-14.
[2] Haejeong Goo, Yeonhee Kim, Jaecheol Nam, 2005, "Characteristic
changes of Rainfall in Seoul by Urbanization ", Journal of spring
academic conference, 282-283, Korea Meteorological Society.
[3] Gyeonghwan Kim, Baekjo Kim, Jaeho Oh, Wontae Gwon, Heejeong
Baek, 2000, "A Study on Extraction of Urbanization Effects in
Temperature Changes in Korean Peninsula", Journal of Korean
Meteorological Society, 36(5 ): 519-526.
[4] Sanjin Kim, Seonyoung Lee, Heejeong Ham, 2003, "Changes in local
climate due to urban development", Planning Part of Architectural
Institute of Korea, 19(5) : 175-181.
[5] Yoonjong Kim, Sangyeong Shin, 2009, "Evaluation Method on Danger of
Disasters for Reducing Urban Disasters", Seoul Development Institute,
Seoul.
[6] Nowuk Park, Dongho Jang, 2008, "Numerical Elevation Model and
Distribution Map of Temperature and Precipitation using multivariate
kriging", Journal of The Korea Geographical Society, 43(6) : 1002-1015.
[7] Eunha Son, Yugeun Kim, Jeonghye Hong, 2000, "A Study on Calculation
of Urban Artificial Heat", Journal of Korean Society for Atmospheric
Environment, 16(1) : 37-47.
[8] Imcheol Shin, Heeil Lee, Wontae Gwon, Hyosang Jung, 2005, "Current
Climate Changes from the Ancient Meteorology Point of View", Journal
of Korea Meteorological Society, 41(2-1): 229-237
[9] Inae Yeo, Jeongjae Lee, Seonghwan Yoon, 2009a, "Analysis on the
Impact of Building-to-Land Ratio and Floor Area Ratio on Urban
Meteorology", Journal of Korean Solar Energy Society, 29(3) : 19-27.
[10] Inae Yeo, Kamata Yoko, Jeongjae Lee, Seonghwan Yoon, 2009b,
"Quantative Review on the Effects of Conditions of Building Groups on
Urban Thermal Environment", Journal of Korean Solar Energy Society,
29(1) : 180-183.
[11] Inae Yeo, Seonghwan Yoon, 2009, "Numerical Simulation on Effects of
Urban Planning Elements on Heat Island Formulation in Summer",
Journal of an academic conference of Architectural Society of Korea,
29(1) : 577-580.
[12] Gangook Lee, Wonwha Hong, 2007, "A Study on Features of Heat Island
and Cold Island by Urban Temperature Rise", Journal of Planning Part in
Architectural Society of Korea, 23(8) : 219-228.
[13] Imsoo Jung, Dongho Choi, Buyong, "Comparison of Thermal
Environment in Summer Through Observation of Microscopic
Meteorology", Journal of Korean Solar Energy Society, 29(6) : 94-101.
[14] Woncheol Cho, Wonhwan Lee, Gilchun Lee, 1987, "Consideration of
Spatial Characteristics in Case of Flooding in Han River Basin", Korea
Water Resources Association, 17-28.
[15] Yongwha Cha, Hakyeol Kim, Taeyoung Huh, 2009, "Impact of Land
Utilization, Land Cover Features on Urban Temperature of Seoul", Seoul
City Research, 10(4) : 107-120.
[16] Giok Hong, Myoungseok Suh, Jeonho Kang, 2008, "Analysis of Urban
Heat Island using Geostationary Satellite Data", Journal of spring
academic conference, 2008, Korea Meteorological Society : 322-323.
[17] Kyoungja Ha, Eunho Ha, Cheolsang Ryu, Eunhee Jeon, 2004,
"Temperature Trends and Extreme Weather of 4 Major Cities in Korea
Since 1909", Korean Meteorological Society, 40(1) : 1-16.
[18] Judit Bartholy, Rita Pongrácz, Yukihiro Kikegawa, Yutaka Genchi,
Hiroaki Kondo and Keisuke Hanaki. 2007. "Reginal analysis of extreme
temperature and precipitation indices for the Carpathian Basin from 1946
to 2001". Global and Planetary Change 57. : 83-95.
[19] Nicole Mölders and Mark A. Olson. 2004. "Impact of Urban Effects on
Precipitation in High Latitudes". Journal of Hydrometeorology. :
409-429.
[20] Shobhakar Dhakal, and Keisuke Hanaki. 2002. "Improvement of urban
thermal environment by managing heat discharge sources and surface
modification in Tokyo". Energy and Buildings, 34. : 13-23.
[21] Sung-Nam Oh, Yeon-Hee Kim and Myung-Suk Hyun. 2004. "Impact of
Urbanization on Climate Change in Korea, 1973-2002". Journal of The
Korean Meteorological Society, 40(6) : 725-740.
[22] Energy Statistics Year Book, 2009, "Energy Economy Research",
Ministry of Knowledge Economy, Korea.
@article{"International Journal of Architectural, Civil and Construction Sciences:54890", author = "Hansung Wan and Hyungkwan Cho and Kiho Sung and Hongkyu Kim", title = "The Analysis of the Impact of Urbanization on Urban Meteorology from Urban Growth Management Perspective", abstract = "The amount of urban artificial heat which affects the
urban temperature rise in urban meteorology was investigated in order
to clarify the relationships between urbanization and urban
meteorology in this study.
The results of calculation to identify how urban temperate was
increased through the establishment of a model for measuring the
amount of urban artificial heat and theoretical testing revealed that the
amount of urban artificial heat increased urban temperature by plus or
minus 0.23 ˚ C in 2007 compared with 1996, statistical methods
(correlation and regression analysis) to clarify the relationships
between urbanization and urban weather were as follows.
New design techniques and urban growth management are
necessary from urban growth management point of view suggested
from this research at city design phase to decrease urban temperature
rise and urban torrential rain which can produce urban disaster in terms
of urban meteorology by urbanization.", keywords = "The amount of urban artificial heat, Urban growth management, Urbanization, Urban meteorology", volume = "5", number = "11", pages = "563-7", }
