An explicit finite difference simulation model is developed to study the th
ermal performance of an outdoor test-room with one transparently insulated
(TI) wall. The thermal behavior of the room is examined under different con
trol strategies for the shading device and for air flow through the TI wall
to the room. Simulation results indicate significant energy savings with p
ractically no auxiliary heating required on cold sunny days in Montreal. Ho
wever, appropriate control strategies are required to prevent overheating o
f the room and discomfort. Air flow through the TI wall and then into the r
ooms succeeds in lowering its room surface temperature to less than 31 degr
ees C and reducing to zero the auxiliary heating required on any clear day.
Blind control is based on several criteria, including outside temperature,
room-facing surface temperature of TI wall (not to exceed 29 degrees C) an
d room air temperature not to exceed a certain maximum. (C) 2000 Elsevier S
cience Ltd. All rights reserved.