UHI formula (Heat Overlay): Difference between revisions

The Urban heat island effect is calculated using the following formula:
${\displaystyle UHI_{max}=(2-S_{vf}-F_{veg})\cdot {\sqrt[{4}]{\frac {S\cdot (T_{max}-T_{min})^{3}}{U}}}}$ where:

• S_vf is the calculated average sky view factor;
• F_veg is the calculated average vegetation fraction;
• S is the calculated daily average global radiation in K m/s
• T_max is the maximum temperature measured at a weather station between 8 AM and 7 AM the next day.
• T_min is the minimum temperature measured at a weather station between 8 AM and 7 AM the next day.
• U is the daily average wind speed measured at 10 meters above ground at a weather station.

Formula Decomposition

The formula has two parts, the factor and the temperature effect:
${\displaystyle UHI_{max}=factor\cdot effect_{temperature}}$

Factor

The factor is influenced by the sky view factor and the vegetation fraction, both ranging from 0 to 1. When both are low, i.e. barely any sky and no vegetation, the factor is near 2. When both are high, i.e. no surrounding buildings and a lot of vegetation, the factor is near 0. In that case, the resulting heat island effect will be low as well.

Temperature effect

The Urban heat island temperature effect is calculated as:

• the daily average global radiation S,
• the maximum-minimum temperature difference ΔT
• the daily average wind speed, measured at 10m above ground.

Daily average global radiation

The S is calculated as followed:
${\displaystyle \rho _{air}=p/R_{specific}\cdot (T_{station}+273.15)}$

${\displaystyle S={\frac {Q_{ql-avg}}{C_{air}\cdot \rho _{air}}}}$

where,

• ${\displaystyle Q_{ql-avg}}$ is the daily average global radiation in W/m²/hr
• ${\displaystyle C_{air}}$ is the air heat capacity in J. We use a value of 1007 J.
• ${\displaystyle T_{station}}$ is the hourly temperature measured at the station
• ${\displaystyle \rho _{air}}$ is the calculated air density in kg/m³;
• ${\displaystyle R_{specific}}$ is the gas constant for dry air. We use a value of 287.058 J/(kg·K)

See also

• Atmospheric temperature formula

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UHI • Temperatures • Diffuse radiation • PET

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