Microclimates of various road weather stations in Devon were
examined. Road surface temperatures were measured during various
synoptic conditions. Data from the thermal mapping exercise
conducted by Vaisala TMI were analysed and categorised as clear
and calm, cloudy and windy, and a condition between the two
extremes. Results indicate valleys to be relative cold spots in
clear conditions, and high altitude stations are cold spots
during cloudy conditions. A separate case study during the cold
spell of February 1991 reinforced the conclusion and extended
these views county wide. Coastal stations with surface winds
were observed to be 1 to 3 deg.C warmer than inland stations.
Reaction times, the delay in road temperature reaction due
to synoptic change, showed for the most difficult forecasting
scenario on the passage of a cold front, small reaction times
(less than 30 minutes) at exposed sites when clear skies
resulted, sheltered sites having a reaction time of up to 2
hours. Sheltered sites in valleys had the largest temperature
drop due to cold air drainage.
A surface climate model was used in retrospect to predict
road surface temperatures at night, each station having its own
characteristic exposure. Cloud change was estimated from
satellite images. Results indicate predicted minimum temperature
within 0.5 deg.C of observation. Real time forecasts were tried
and an accuracy of 65% at this level was achieved. These results
were equal or better than the existing "Open Road" forecasts.
Date of Award | 1995 |
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Original language | English |
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Awarding Institution | |
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THE EFFECT OF SYNOPTIC SCALE WEATHER AND TOPOGRAPHY ON ROAD SURFACE TEMPERATURES IN DEVON
MCLEAN, P. J. (Author). 1995
Student thesis: PhD