Modeling Technology for Assessment of Summer Thermal Comfort Conditions of Arctic City on Microscale: Application for City of Apatity
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Modeling Technology for Assessment of Summer Thermal Comfort Conditions of Arctic City on Microscale : Application for City of Apatity. / Gommershtadt, Olga; Konstantinov, Pavel; Varentsov, Mikhail; Baklanov, Alexander.
Springer Geography. Springer VS, 2020. p. 66-75 (Springer Geography).Research output: Chapter in Book/Report/Conference proceeding › Book chapter › Research › peer-review
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TY - CHAP
T1 - Modeling Technology for Assessment of Summer Thermal Comfort Conditions of Arctic City on Microscale
T2 - Application for City of Apatity
AU - Gommershtadt, Olga
AU - Konstantinov, Pavel
AU - Varentsov, Mikhail
AU - Baklanov, Alexander
PY - 2020/1/1
Y1 - 2020/1/1
N2 - Arctic warming changes not only natural landscapes in polar latitudes but also brings relatively warm summer episodes in cities. In this study the results of the modeling research of the thermal comfort of Apatity town with population about 57 000 inhabitants (the fifth among the biggest cities, located to the North from the Arctic circle), situated in Murmansk region of Russian Federeration are considered. Here, directly in city center were performed first constant measurements of UHI (Urban Heat Island)’s intensity by automatic weather stations during winter 2015–spring 2017 (UHIARC measuring campaign). Received data of this measurements network were assimilated by Rayman model to simulate thermal comfort conditions in «Apatity’s science campus» - central district of city. This model calculates the radiation temperature, average radiation fluxes and biometeorological indices (PET, PMV, SET) at a particular point at a particular time. The main goal of this investigation was to test the technology for thermal comfort assessment at microscale for city of Arctic region. Also preliminary analysis of spatial and temporal characteristics of PET (Physiological Equivalent Temperature) for 500 m 2 populated area in central part of Kola Peninsula during short Arctic summer was performed. Simulated results showed significant spatial diversity of PET-values during contrast weather conditions. In night hours as during hottest day in summer of 2016 modeling points located in different local conditions differs to each other due to non-uniform wind speed and radiation shield conditions.
AB - Arctic warming changes not only natural landscapes in polar latitudes but also brings relatively warm summer episodes in cities. In this study the results of the modeling research of the thermal comfort of Apatity town with population about 57 000 inhabitants (the fifth among the biggest cities, located to the North from the Arctic circle), situated in Murmansk region of Russian Federeration are considered. Here, directly in city center were performed first constant measurements of UHI (Urban Heat Island)’s intensity by automatic weather stations during winter 2015–spring 2017 (UHIARC measuring campaign). Received data of this measurements network were assimilated by Rayman model to simulate thermal comfort conditions in «Apatity’s science campus» - central district of city. This model calculates the radiation temperature, average radiation fluxes and biometeorological indices (PET, PMV, SET) at a particular point at a particular time. The main goal of this investigation was to test the technology for thermal comfort assessment at microscale for city of Arctic region. Also preliminary analysis of spatial and temporal characteristics of PET (Physiological Equivalent Temperature) for 500 m 2 populated area in central part of Kola Peninsula during short Arctic summer was performed. Simulated results showed significant spatial diversity of PET-values during contrast weather conditions. In night hours as during hottest day in summer of 2016 modeling points located in different local conditions differs to each other due to non-uniform wind speed and radiation shield conditions.
KW - Arctic region
KW - PET
KW - Rayman model
KW - Thermal comfort
KW - Urban climate
UR - http://www.scopus.com/inward/record.url?scp=85064895574&partnerID=8YFLogxK
U2 - 10.1007/978-3-030-16091-3_10
DO - 10.1007/978-3-030-16091-3_10
M3 - Book chapter
AN - SCOPUS:85064895574
T3 - Springer Geography
SP - 66
EP - 75
BT - Springer Geography
PB - Springer VS
ER -
ID: 230996098