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Thermal agent temperature
85
80
75
70
65
60
0
0.5
1
1.5
2
2.5
x 10
5
Time [s]
Fig. 85 Thermal agent temperature evolution in the accumulation tank in summer regime, model 5
Dissipated power
0
-5000
-10000
-15000
0
0.5
1
1.5
2
2.5
x 10
5
Time [s]
Fig. 86 Dissipated power evolution in summer regime, model 5
The analyzed functional solution can be considered only if the energy con-
sumption parameters are modi
ed in summer regime. Therefore, if it is considered
that all the air conditioning equipments are identical, with an electrical energy
consumption of 0.82 kW, and they are scheduled to operate daily, between the
hours: 10 pm
7.30 pm, then
the battery voltage, given by Fig.
87
, represents the existence of a permanent
regime, acceptable in the electrical subsystem.
-
1 am; 12.30 pm
-
2.30 pm; 3 pm
-
5 pm; and 5.30 pm
-
4.9 Conclusions
1. A
first conclusion is referring to the choice of the type of the air conditioning
equipment. When using the adsorption device, the total thermal power con-
sumed in summer regime has the evolution presented in Fig.
88
. In the
hypothesis that the air conditioning equipments with electrical supply are used, a
correct operating regime of the electrical subsystem requires in summer regime a
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