Impacts of Large-Scale Surface Modifications on Meteorological Conditions and Energy Use: A 10-Region Modeling Study |
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Authors: | H Taha S Konopacki S Gabersek |
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Institution: | (1) Lawrence Berkeley National Laboratory, Berkeley, California, U.S.A., US;(2) Heat Island Project, Environmental Energy Technologies Division, Lawrence Berkeley National Laboratory, Berkeley, California, U.S.A., US |
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Abstract: | Summary This paper summarizes results from a mesoscale modeling study to quantify the possible meteorological and energy-use impacts
of large-scale increases in surface albedo and vegetative fraction. Ten regions in the U.S. were characterized and simulated
in base- and modified-surface conditions. Time- and space-dependent meteorological variables were simulated for each region
in four 3-day episodes to represent a range of seasonal variations.
Using a simple interpolative procedure, a complete year of hourly weather data was created for each region (based on episodic
meteorological simulation results) and input into energy-use models. The modified weather input was used to assess the effects
of large-scale albedo and vegetative fraction changes on annual energy consumption in each of the ten areas targeted in this
study. The simulations suggest annual electricity savings of between 1and 6.7 kWh m−2 (of roof area) in residential neighborhoods and between 2 and 6.1 kWh m−2 in office areas, depending on region. Annual gas penalties amount to up to 34.8 MJ m−2 (of roof area) in residential neighborhoods and up to 21.1 MJ m−2 in office areas.
Received December 1, 1996 Revised May 11, 1998 |
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