E cient Management of HVAC Systems - Automatica - Università ...

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CO2
≥ ≥ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤ ≤
Page 23 and 24: 1
Page 25 and 26: 1
Page 27 and 28: 1
Page 29 and 30: 1
Page 31 and 32: 1
Page 33 and 34: 1
Page 35 and 36: m 2
Page 37 and 38: 1 ≈ 1005 J
Page 39 and 40: 2
Page 41 and 42: 2
Page 43 and 44: 2
Page 45: CO2
Page 50 and 51: 3
Page 52 and 53: 3
Page 54 and 55: 3
Page 56 and 57: 3
Page 58 and 59: 3
Page 60 and 61: ∆T
Page 66 and 67: cp e ec ep f L
Page 68 and 69: τ dTk,f − ˙mk,icpTk,i + ˙mk,o
Page 70 and 71: ˙mP = ˙mS ˙mP < ˙mS
Page 72 and 73: ˙mCh1cpTchw1,o + ... + ˙mChncpTch
Page 74 and 75: ɛ
Page 76 and 77: ɛ
Page 78 and 79: EER = f(P LR) .
Page 80 and 81: Pefull Pcfull
Page 82 and 83: EER P LR Tair Tchwr
Page 84 and 85: 1.4 1.2 1 0.8 0.6 0.4 0.2 T air = 3
Page 87 and 88: 6
Page 89 and 90: Capacity steps [−] 6 5 4 3 2 1 0
Page 91 and 92: T
Page 93 and 94: ∆τ arg min (P LRi, s
Page 95 and 96: P MV = 0.303 · e −0.036M + 0.02
Page 97 and 98:
Fobj hobj i = 1, ..., n , i Pe,i
Page 99 and 100:
QL [KW] 200 150 100 50 0 Load Estim
Page 101 and 102:
nph,Max ng/ph = nph,Max nph
Page 103 and 104:
TspiGA = ˆ TP,i − P LRi · ∆T
Page 105 and 106:
λ L = ⎡ ⎤ I I KWi + λ
Page 107:
CCi kW CCi kW
Page 110 and 111:
1 Tair 2 TChwr 3 m_dot 4 step
Page 112 and 113:
Tair hour TChw 1,o NoOp Carico edif
Page 114 and 115:
P LRi
Page 116 and 117:
L1 L2 hobj ÷ nph νobj
Page 118 and 119:
∆ E PCL −
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∆ E PCL −
Page 122 and 123:
[°C] 8.5 8 7.5 7 6.5 Temperature M
Page 124 and 125:
E PCL − ˆ PCL V ar PCL − ˆ
Page 126 and 127:
Step [−] Step [−] Step [−] St
Page 128 and 129:
n
Page 130 and 131:
Memory [bytes] 4.5 4 3.5 3 2.5 2 1.
Page 133 and 134:
A
Page 135 and 136:
Nind Nind × Lind 0,
Page 137 and 138:
MAX MIN
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[0 Sum/N] ptr N 1 [p
Page 141 and 142:
[0 Sum/N] ptr N 1 [p
Page 143 and 144:
function genot = rv2bs(var,fieldD)
Page 145 and 146:
B arg (x∈F ⊆S
Page 147:
i cj
Page 150 and 151:
i {} = cumPf, i cumPf + P (1C)
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i {} = cumPf, i cumPf + P (2C)
Page 154 and 155:
D
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Specification Controller design Mod
Page 158 and 159:
y ss System model SOPDT 0 0 50 Norm
Page 160 and 161:
Temperature [°C] 11.5 11 10.5 10
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Temperature [°C] Valve position [%
Page 164 and 165:
Gcl(s) = Y (s) R(s) = Ke−ds τ 2s
Page 167 and 168:
Process output y ss 0 0 t p1 y p1 y
Page 169 and 170:
Page 171:
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