Differenze tra le versioni di "Bioedilizia Formule"
Riga 2: | Riga 2: | ||
== p.003 == | == p.003 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> EP_{\rm gl} = EP_{\rm i} + EP_{\rm ACS} + EP_{\rm e} + EP_{\rm ill}</math></span> ← | <math> EP_{\rm gl} = EP_{\rm i} + EP_{\rm ACS} + EP_{\rm e} + EP_{\rm ill}</math></span> ← | ||
Riga 9: | Riga 10: | ||
== p.015 == | == p.015 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> F = \frac{E}{E_0} \; \times \; 100 \; [\%]</math></span> ← | <math> F = \frac{E}{E_0} \; \times \; 100 \; [\%]</math></span> ← | ||
Riga 14: | Riga 16: | ||
== p.016 == | == p.016 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> FLD_{\rm m} = A_{\rm f} \; t \; \epsilon \; \psi \; A_{\rm tot} \; (1-r_{\rm m})</math></span> ← | <math> FLD_{\rm m} = A_{\rm f} \; t \; \epsilon \; \psi \; A_{\rm tot} \; (1-r_{\rm m})</math></span> ← | ||
FLD_{\rm m} = A_{\rm f} \; t \; \epsilon \; \psi \; A_{\rm tot} \; (1-r_{\rm m}) | FLD_{\rm m} = A_{\rm f} \; t \; \epsilon \; \psi \; A_{\rm tot} \; (1-r_{\rm m}) | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> A_{\rm f} = 0,75 \cdot A_{\rm i}</math></span> ← | <math> A_{\rm f} = 0,75 \cdot A_{\rm i}</math></span> ← | ||
A_{\rm f} = 0,75 \cdot A_{\rm i} | A_{\rm f} = 0,75 \cdot A_{\rm i} | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> t = 0,9 \cdot \tau </math></span> ← | <math> t = 0,9 \cdot \tau </math></span> ← | ||
Riga 25: | Riga 30: | ||
== p.018 == | == p.018 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>\epsilon = (1 - \sin\alpha) / 2</math></span> ← | <math>\epsilon = (1 - \sin\alpha) / 2</math></span> ← | ||
\epsilon = (1 - \sin\alpha) / 2 | \epsilon = (1 - \sin\alpha) / 2 | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>\epsilon = \sin\alpha_2 / 2</math></span> ← | <math>\epsilon = \sin\alpha_2 / 2</math></span> ← | ||
\epsilon = \sin\alpha_2 / 2 | \epsilon = \sin\alpha_2 / 2 | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>\epsilon = (\sin\alpha_2 - \sin\alpha) / 2</math></span> ← | <math>\epsilon = (\sin\alpha_2 - \sin\alpha) / 2</math></span> ← | ||
\epsilon = (\sin\alpha_2 - \sin\alpha) / 2 | \epsilon = (\sin\alpha_2 - \sin\alpha) / 2 | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>\frac{\eta_{\rm min}}{\eta_{\rm max}} > 0,16</math></span> ← | <math>\frac{\eta_{\rm min}}{\eta_{\rm max}} > 0,16</math></span> ← | ||
Riga 39: | Riga 48: | ||
== p.019 == | == p.019 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>{\rm DGI} = 10 \; \log \; \sum_i \nolimits \, G_i </math></span> ← | <math>{\rm DGI} = 10 \; \log \; \sum_i \nolimits \, G_i </math></span> ← | ||
{\rm DGI} = 10 \; \log \; \sum_i \nolimits \, G_i | {\rm DGI} = 10 \; \log \; \sum_i \nolimits \, G_i | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> G_{\rm i} = 0,48 \, (L_{\rm s}^{1,6} \Omega^{0,8})/L_{\rm b} + 0,07 \cdot \omega^{0,5} L_{\rm w}</math></span> ← | <math> G_{\rm i} = 0,48 \, (L_{\rm s}^{1,6} \Omega^{0,8})/L_{\rm b} + 0,07 \cdot \omega^{0,5} L_{\rm w}</math></span> ← | ||
Riga 47: | Riga 58: | ||
== p.023 == | == p.023 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> D_{\rm v} \, A \, n = q \, (T_{\rm i}-T_0) \, 24</math></span> ← | <math> D_{\rm v} \, A \, n = q \, (T_{\rm i}-T_0) \, 24</math></span> ← | ||
Riga 54: | Riga 66: | ||
== p.031 == | == p.031 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> EP_{\rm estivo} = a \cdot {\rm 0,1} \cdot EP_{\rm lim}</math></span> ← | <math> EP_{\rm estivo} = a \cdot {\rm 0,1} \cdot EP_{\rm lim}</math></span> ← | ||
Riga 59: | Riga 72: | ||
== p.032 == | == p.032 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> Y_{\rm ie} = f_{\rm a} \cdot U \;\; \rm [W/m^2K]</math></span> ← | <math> Y_{\rm ie} = f_{\rm a} \cdot U \;\; \rm [W/m^2K]</math></span> ← | ||
Riga 66: | Riga 80: | ||
== p.048 == | == p.048 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>\alpha = \rm \frac{Energia \; sonora \; assorbita \; dal \; materiale}{Energia \; sonora \; incidente \; sul \; materiale}</math></span> ← | <math>\alpha = \rm \frac{Energia \; sonora \; assorbita \; dal \; materiale}{Energia \; sonora \; incidente \; sul \; materiale}</math></span> ← | ||
Riga 73: | Riga 88: | ||
== p.066 == | == p.066 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> FS = \frac{Q_{\rm s}}{Q_{\rm s} + Q_{\rm t}}</math></span> ← | <math> FS = \frac{Q_{\rm s}}{Q_{\rm s} + Q_{\rm t}}</math></span> ← | ||
FS = \frac{Q_{\rm s}}{Q_{\rm s} + Q_{\rm t}} | FS = \frac{Q_{\rm s}}{Q_{\rm s} + Q_{\rm t}} | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>{\rm Efficienza} = \frac{Q_{\rm s}}{E \cdot A}</math></span> ← | <math>{\rm Efficienza} = \frac{Q_{\rm s}}{E \cdot A}</math></span> ← | ||
Riga 81: | Riga 98: | ||
== p.067 == | == p.067 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> Q_{\rm richiesta} = m \cdot c \cdot \Delta t </math></span> ← | <math> Q_{\rm richiesta} = m \cdot c \cdot \Delta t </math></span> ← | ||
Q_{\rm richiesta} = m \cdot c \cdot \Delta t | Q_{\rm richiesta} = m \cdot c \cdot \Delta t | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> Q_{\rm mese, \, richiesta} = {\rm giorni} \cdot Q \;\;\;\; \rm [kcal]</math></span> ← | <math> Q_{\rm mese, \, richiesta} = {\rm giorni} \cdot Q \;\;\;\; \rm [kcal]</math></span> ← | ||
Riga 89: | Riga 108: | ||
== p.068 == | == p.068 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> S = \frac{Q_{\rm mese, \, richiesta}}{Q_{\rm effettiva}}</math></span> ← | <math> S = \frac{Q_{\rm mese, \, richiesta}}{Q_{\rm effettiva}}</math></span> ← | ||
S = \frac{Q_{\rm mese, \, richiesta}}{Q_{\rm effettiva}} | S = \frac{Q_{\rm mese, \, richiesta}}{Q_{\rm effettiva}} | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> m = \frac{Q \cdot S}{\Delta t} \;\;\;\; \rm [kg, \; litri]</math></span> ← | <math> m = \frac{Q \cdot S}{\Delta t} \;\;\;\; \rm [kg, \; litri]</math></span> ← | ||
Riga 97: | Riga 118: | ||
== p.069 == | == p.069 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>{\rm Efficienza} = \frac{P_{\rm max}}{P_{\rm sol} \cdot A}</math></span> ← | <math>{\rm Efficienza} = \frac{P_{\rm max}}{P_{\rm sol} \cdot A}</math></span> ← | ||
Riga 102: | Riga 124: | ||
== p.072 == | == p.072 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> I_{\rm a} = I_{\rm g} \cdot 365 \;</math></span> ← | <math> I_{\rm a} = I_{\rm g} \cdot 365 \;</math></span> ← | ||
I_{\rm a} = I_{\rm g} \cdot 365 \; | I_{\rm a} = I_{\rm g} \cdot 365 \; | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> E_{\rm a} = I_{\rm a} \cdot \eta_{\rm mod} \cdot \eta_{\rm BOS} \;</math></span> ← | <math> E_{\rm a} = I_{\rm a} \cdot \eta_{\rm mod} \cdot \eta_{\rm BOS} \;</math></span> ← | ||
E_{\rm a} = I_{\rm a} \cdot \eta_{\rm mod} \cdot \eta_{\rm BOS} \; | E_{\rm a} = I_{\rm a} \cdot \eta_{\rm mod} \cdot \eta_{\rm BOS} \; | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> S = C_{\rm a} / E_{\rm a} \;</math></span> ← | <math> S = C_{\rm a} / E_{\rm a} \;</math></span> ← | ||
S = C_{\rm a} / E_{\rm a} \; | S = C_{\rm a} / E_{\rm a} \; | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> n_{\rm m} = S / S_{\rm m}</math></span> ← | <math> n_{\rm m} = S / S_{\rm m}</math></span> ← | ||
n_{\rm m} = S / S_{\rm m} | n_{\rm m} = S / S_{\rm m} | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> W_{\rm p} = W_{\rm m} \cdot n{\rm m}</math></span> ← | <math> W_{\rm p} = W_{\rm m} \cdot n{\rm m}</math></span> ← | ||
W_{\rm p} = W_{\rm m} \cdot n{\rm m} | W_{\rm p} = W_{\rm m} \cdot n{\rm m} | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> m_{\rm s} = V_{\rm max,inv} / V_{\rm oc}</math></span> ← | <math> m_{\rm s} = V_{\rm max,inv} / V_{\rm oc}</math></span> ← | ||
m_{\rm s} = V_{\rm max,inv} / V_{\rm oc} | m_{\rm s} = V_{\rm max,inv} / V_{\rm oc} | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math> n_{\rm s} = I_{\rm max,inv} / I_{\rm sc}</math></span> ← | <math> n_{\rm s} = I_{\rm max,inv} / I_{\rm sc}</math></span> ← | ||
Riga 125: | Riga 154: | ||
== p.074 == | == p.074 == | ||
+ | |||
<span style="background-color:#00ffff;"> | <span style="background-color:#00ffff;"> | ||
<math>\eta = \frac{E_{\rm e}+E_{\rm t}}{E_{\rm c}}</math></span> ← | <math>\eta = \frac{E_{\rm e}+E_{\rm t}}{E_{\rm c}}</math></span> ← | ||
\eta = \frac{E_{\rm e}+E_{\rm t}}{E_{\rm c}} | \eta = \frac{E_{\rm e}+E_{\rm t}}{E_{\rm c}} |
Versione delle 08:06, 31 mag 2019
Indice
Capitolo 1 - Sistema normativo relativo all’efficienza energetica nell’edilizia[modifica]
p.003[modifica]
← EP_{\rm gl} = EP_{\rm i} + EP_{\rm ACS} + EP_{\rm e} + EP_{\rm ill}
Capitolo 3 - Guadagno solare[modifica]
p.015[modifica]
← F = \frac{E}{E_0} \; \times \; 100 \; [\%]
p.016[modifica]
← FLD_{\rm m} = A_{\rm f} \; t \; \epsilon \; \psi \; A_{\rm tot} \; (1-r_{\rm m})
← A_{\rm f} = 0,75 \cdot A_{\rm i}
← t = 0,9 \cdot \tau
p.018[modifica]
← \epsilon = (1 - \sin\alpha) / 2
← \epsilon = \sin\alpha_2 / 2
← \epsilon = (\sin\alpha_2 - \sin\alpha) / 2
← \frac{\eta_{\rm min}}{\eta_{\rm max}} > 0,16
p.019[modifica]
← {\rm DGI} = 10 \; \log \; \sum_i \nolimits \, G_i
← G_{\rm i} = 0,48 \, (L_{\rm s}^{1,6} \Omega^{0,8})/L_{\rm b} + 0,07 \cdot \omega^{0,5} L_{\rm w}
p.023[modifica]
← D_{\rm v} \, A \, n = q \, (T_{\rm i}-T_0) \, 24
Capitolo 4 - Isolamenti termici[modifica]
p.031[modifica]
← EP_{\rm estivo} = a \cdot {\rm 0,1} \cdot EP_{\rm lim}
p.032[modifica]
← Y_{\rm ie} = f_{\rm a} \cdot U \;\; \rm [W/m^2K]
Capitolo 5 - Soluzioni per il benessere acustico[modifica]
p.048[modifica]
← \alpha = \rm \frac{Energia \; sonora \; assorbita \; dal \; materiale}{Energia \; sonora \; incidente \; sul \; materiale}
Capitolo 7 - Tecnologie attive per l'edificio[modifica]
p.066[modifica]
← FS = \frac{Q_{\rm s}}{Q_{\rm s} + Q_{\rm t}}
← {\rm Efficienza} = \frac{Q_{\rm s}}{E \cdot A}
p.067[modifica]
← Q_{\rm richiesta} = m \cdot c \cdot \Delta t
← Q_{\rm mese, \, richiesta} = {\rm giorni} \cdot Q \;\;\;\; \rm [kcal]
p.068[modifica]
← S = \frac{Q_{\rm mese, \, richiesta}}{Q_{\rm effettiva}}
← m = \frac{Q \cdot S}{\Delta t} \;\;\;\; \rm [kg, \; litri]
p.069[modifica]
← {\rm Efficienza} = \frac{P_{\rm max}}{P_{\rm sol} \cdot A}
p.072[modifica]
← I_{\rm a} = I_{\rm g} \cdot 365 \;
← E_{\rm a} = I_{\rm a} \cdot \eta_{\rm mod} \cdot \eta_{\rm BOS} \;
← S = C_{\rm a} / E_{\rm a} \;
← n_{\rm m} = S / S_{\rm m}
← W_{\rm p} = W_{\rm m} \cdot n{\rm m}
← m_{\rm s} = V_{\rm max,inv} / V_{\rm oc}
← n_{\rm s} = I_{\rm max,inv} / I_{\rm sc}
p.074[modifica]
← \eta = \frac{E_{\rm e}+E_{\rm t}}{E_{\rm c}}