*Flow_network 1.0
*Date,Sun Jan 13 05:58:35 2019
*Doc,Freie Lueftung
*Domain,Flow,2  # domain for this network
*windpressure,1.000  # wind speed reduction
# tag name fluid type assoc zone & surface
# position & data
*node,Keller,1,0,Keller,-   # internal unknown pressure
3.5000,2.5000,0.0000,20.0000,0.0000,87.5017  # position temp data
*node,Gang,1,0,Gang,-   # internal unknown pressure
3.5000,6.0000,0.0000,20.0000,0.0000,35.0007  # position temp data
*node,EG,1,0,EG,-   # internal unknown pressure
3.5000,3.5000,2.5000,20.0000,0.0000,122.5025  # position temp data
*node,Technik,1,0,Technik,-   # internal unknown pressure
8.5000,0.5000,-0.7500,20.0000,0.0000,1.0000  # position temp data
*node,Ext_S,1,3,-,-   # boundary wind pressure
1.5000,-0.9000,0.9000,0.0000,13.0000,180.0000  # position temp data
*node,Ext_N,1,3,-,-   # boundary wind pressure
3.5000,7.9000,0.2250,0.0000,23.0000,0.0000  # position temp data
*node,Ext_W,1,3,-,-   # boundary wind pressure
-0.9000,2.5000,0.2250,0.0000,9.0000,270.0000  # position temp data
# tag name assoc zone & surface type C+ L+
start&end positions  description
# data
*cmp,Kipp_o,Keller,window,110,2,0
0,1.5000,0.0000,1.1000,Specific air flow opening           m = rho.f(A,dP)         
1.00000000,1.39999997E-06  # Fluid opening area(m)
*cmp,Kipp_u,Keller,window,110,2,0
0,1.5000,0.0000,0.7000,Specific air flow opening           m = rho.f(A,dP)         
1.00000000,9.00000074E-09  # Fluid opening area(m)
*cmp,Tuer,Keller,Wall-3,120,3,0
0,3.5000,5.0000,-1.2500,Specific air flow crack             m = rho.f(W,L,dP)       
1.00000000,1.00000005E-03,1.00000000  # Fluid crack width(m) crack length(m)
*cmp,Crack_N,Gang,Wall-3,120,3,0
0,3.5000,7.0000,0.0000,Specific air flow crack             m = rho.f(W,L,dP)       
1.00000000,1.00000005E-03,1.00000000  # Fluid crack width(m) crack length(m)
*cmp,Crack_S,Keller,Wall-111,120,3,0
0,2.5000,0.0000,0.4500,Specific air flow crack             m = rho.f(W,L,dP)       
1.00000000,1.00000091E-02,2.00000000  # Fluid crack width(m) crack length(m)
*cmp,Vent_WG,EG,Wall-1, 30,2,0
0,3.5000,0.0000,3.7500,Constant vol. flow rate component   m = rho.a               
1.00000000,1.36113847E-02  # Fluid flow rate (m^3/s)
*cmp,Vent_KG,Keller,Wall-44, 30,2,0
0,7.0000,2.5000,0.0000,Constant vol. flow rate component   m = rho.a               
1.00000000,2.43060384E-07  # Fluid flow rate (m^3/s)
*cmp,Crack_T,Technik,Wall-2,120,3,0
0,9.0000,0.5000,-0.2500,Specific air flow crack             m = rho.f(W,L,dP)       
1.00000000,1.00000005E-03,1.00000000  # Fluid crack width(m) crack length(m)
*cmp,Crack_EG,EG,Top-5,120,3,0
0,3.5000,3.5000,3.7500,Specific air flow crack             m = rho.f(W,L,dP)       
1.00000000,1.00000005E-03,1.00000000  # Fluid crack width(m) crack length(m)
*cmp,Crack_W,Keller,Wall-22,120,3,0
0,7.0000,2.5000,0.0000,Specific air flow crack             m = rho.f(W,L,dP)       
1.00000000,5.00000007E-02,2.00000000  # Fluid crack width(m) crack length(m)
# connection +node deltaZ  -node deltaZ via component
*cnn,Keller, -1.250,Gang, -1.250,Tuer
*cnn,Ext_S,  0.200,Keller,  1.100,Kipp_o
*cnn,Ext_S, -0.200,Keller,  0.700,Kipp_u
*cnn,Ext_S, -0.450,Keller,  0.450,Crack_S
*cnn,Technik, -0.450,Keller,  0.450,Vent_KG
*cnn,Ext_S, -1.150,Technik,  0.500,Crack_T
*cnn,EG,  1.250,Ext_S,  2.850,Crack_EG
*cnn,Gang,  0.000,Ext_N, -0.225,Crack_N
*cnn,Technik,  0.750,Keller,  0.000,Vent_KG
*cnn,Ext_S,  2.850,EG,  1.250,Vent_WG
*cnn,Keller,  0.000,Ext_W, -0.225,Crack_W
*IPSMOD 0  # stack calc
*MFBSNC 0  # timing
*MSLVTP 0  # flow solution
*MFTRAC 0  # trace level
*End_network