Simulation of nocturnal surface urban heat islands under `ideal’ conditions
Abstract
A simple energy balance model which simulates the thermal regime of urban and rural surfaces under calm, cloudless conditions at night is used to assess the relative importance of the commonly stated causes of urban heat islands. Results show that the effects of street canyon geometry on radiation and of thermal properties on heat storage release, are the primary and almost equal causes on most occasions. In very cold conditions, space heating of buildings can become a dominant cause but this depends on wall insulation. The effects of the urban 
greenhouse
and surface emissivity are relatively minor. The model confirms the importance of local control especially the relation between street geometry and the heat island and highlights the importance of rural thermal properties and their ability to produce seasonal variation in the heat island. A possible explanation for the small heat
Oke, T. R., G. T. Johnson, D. G. Steyn and I. D. Watson, 1991: “Simulation of nocturnal surface urban heat islands under `ideal’ conditions: Part 2. Diagnosis of causation,” Boundary-Layer Meteorology, 56, 339-358.
No comments yet.