Microclimate impacts of neighborhood redesign in a desert community using ENVI-met and MaRTy

Peter J. Crank; Ariane Middel; Paul Coseo; David J. Sailor

doi:10.1016/j.uclim.2023.101702

Microclimate impacts of neighborhood redesign in a desert community using ENVI-met and MaRTy

Peter J. Crank, Ariane Middel, Paul Coseo, David J. Sailor

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Municipalities often consider heat mitigation strategies to address urban overheating, but the location of implementation rarely is co-located with the communities that are carrying the majority of the heat burden in the city. The City of Phoenix, is redeveloping a public housing community with a focus on urban cooling as a desired outcome. This research uses in situ measurements (including the mobile micro-meteorological measurement cart, MaRTy) and ENVI-met microscale modeling of the neighborhood to assess air temperature (T_air) cooling capabilities of the planned redesigns to the neighborhood. After validating the ENVI-met model of the current neighborhood with fixed and mobile measurements with an index of agreement d > 0.9 and d > 0.8, respectively, analysis of the planned urban design shows some cool spots connected to new shade and vegetated corridors with T_air cooling magnitudes as high as 3 °C. Yet, some exposed and building-adjacent areas were identified as potential hot spots in the planned neighborhood. These hotspots underscore the importance of continued collaboration among the City, researchers, and the community to address the needs of the community for the creation of healthier urban environments.

Original language	English (US)
Article number	101702
Journal	Urban Climate
Volume	52
DOIs	https://doi.org/10.1016/j.uclim.2023.101702
State	Published - Nov 2023

Keywords

CFD microscale model
Microscale atmospheric modeling
Thermal equity
Urban heat mitigation
Urban micro-climate measurement
Urban overheating

ASJC Scopus subject areas

Geography, Planning and Development
Environmental Science (miscellaneous)
Urban Studies
Atmospheric Science

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10.1016/j.uclim.2023.101702

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title = "Microclimate impacts of neighborhood redesign in a desert community using ENVI-met and MaRTy",

abstract = "Municipalities often consider heat mitigation strategies to address urban overheating, but the location of implementation rarely is co-located with the communities that are carrying the majority of the heat burden in the city. The City of Phoenix, is redeveloping a public housing community with a focus on urban cooling as a desired outcome. This research uses in situ measurements (including the mobile micro-meteorological measurement cart, MaRTy) and ENVI-met microscale modeling of the neighborhood to assess air temperature (Tair) cooling capabilities of the planned redesigns to the neighborhood. After validating the ENVI-met model of the current neighborhood with fixed and mobile measurements with an index of agreement d > 0.9 and d > 0.8, respectively, analysis of the planned urban design shows some cool spots connected to new shade and vegetated corridors with Tair cooling magnitudes as high as 3 °C. Yet, some exposed and building-adjacent areas were identified as potential hot spots in the planned neighborhood. These hotspots underscore the importance of continued collaboration among the City, researchers, and the community to address the needs of the community for the creation of healthier urban environments.",

keywords = "CFD microscale model, Microscale atmospheric modeling, Thermal equity, Urban heat mitigation, Urban micro-climate measurement, Urban overheating",

author = "Crank, {Peter J.} and Ariane Middel and Paul Coseo and Sailor, {David J.}",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier B.V.",

year = "2023",

month = nov,

doi = "10.1016/j.uclim.2023.101702",

language = "English (US)",

volume = "52",

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AU - Crank, Peter J.

AU - Middel, Ariane

AU - Coseo, Paul

AU - Sailor, David J.

PY - 2023/11

Y1 - 2023/11

N2 - Municipalities often consider heat mitigation strategies to address urban overheating, but the location of implementation rarely is co-located with the communities that are carrying the majority of the heat burden in the city. The City of Phoenix, is redeveloping a public housing community with a focus on urban cooling as a desired outcome. This research uses in situ measurements (including the mobile micro-meteorological measurement cart, MaRTy) and ENVI-met microscale modeling of the neighborhood to assess air temperature (Tair) cooling capabilities of the planned redesigns to the neighborhood. After validating the ENVI-met model of the current neighborhood with fixed and mobile measurements with an index of agreement d > 0.9 and d > 0.8, respectively, analysis of the planned urban design shows some cool spots connected to new shade and vegetated corridors with Tair cooling magnitudes as high as 3 °C. Yet, some exposed and building-adjacent areas were identified as potential hot spots in the planned neighborhood. These hotspots underscore the importance of continued collaboration among the City, researchers, and the community to address the needs of the community for the creation of healthier urban environments.

AB - Municipalities often consider heat mitigation strategies to address urban overheating, but the location of implementation rarely is co-located with the communities that are carrying the majority of the heat burden in the city. The City of Phoenix, is redeveloping a public housing community with a focus on urban cooling as a desired outcome. This research uses in situ measurements (including the mobile micro-meteorological measurement cart, MaRTy) and ENVI-met microscale modeling of the neighborhood to assess air temperature (Tair) cooling capabilities of the planned redesigns to the neighborhood. After validating the ENVI-met model of the current neighborhood with fixed and mobile measurements with an index of agreement d > 0.9 and d > 0.8, respectively, analysis of the planned urban design shows some cool spots connected to new shade and vegetated corridors with Tair cooling magnitudes as high as 3 °C. Yet, some exposed and building-adjacent areas were identified as potential hot spots in the planned neighborhood. These hotspots underscore the importance of continued collaboration among the City, researchers, and the community to address the needs of the community for the creation of healthier urban environments.

KW - CFD microscale model

KW - Microscale atmospheric modeling

KW - Thermal equity

KW - Urban heat mitigation

KW - Urban micro-climate measurement

KW - Urban overheating

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Microclimate impacts of neighborhood redesign in a desert community using ENVI-met and MaRTy

Abstract

Keywords

ASJC Scopus subject areas

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