Monster Media 1994 #1

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Text File | 1994-02-22 | 3KB | 169 lines

; VisSim Block Diagram Format (VBDF) ; Copyright (C) 1989-1993 Visual Solutions PV=1.500 PS=0 PE=0.008 PP=0.0001 PI=175 PX=0.0001 PN=1e-006 Pn=-10,6,16,"Times New Roman" Pc=49 PD=800x600 Pf=0x0 Pr="b0=2,1,0,7,544;b1=19,-1,2,0,784;b2=18,-1,0,0,800" Ps=1600,0,0,1122,0,0 Pd=17 PM=1,1,1,1 N.1="*"*26x13#3,1<M> N.2="variable"*8x14<M> n="Rdot" N.3="variable"*17x48 n="deltaP" N.4="variable"*17x52 n="rho" N.5="variable"*17x56 n="eta" N.6="variable"*17x60 n="sigma" N.7="const"(500.0001)*6x48 N.8="const"(659)*7x52 N.9="const"(0.0002001)*3x56 N.10="const"(0.02502)*4x60 N.11="variable"*3x2<M> n="deltaP" N.12="integrator"(0,0)*93x17<M> N.13="integrator"(0.00010008,1)*110x17<M> N.14="variable"*111x24<M> n="Rdot" N.15="variable"*119x9<M> n="R" N.16="/"*46x2<M> N.17="variable"*15x4<M> n="rho" N.18="*"*32x4<M> N.19="variable"*17x6<M> n="R" N.20="summingJunction"*68x14#4,1<M> N.21="/"*47x15<M> N.22="const"(1.5)*10x17<M> N.23="variable"*34x18<M> n="R" N.24="variable"*57x31<M> n="R" N.25="*"*73x31#3,1<M> N.26="*"*22x25<M> N.27="const"(2)*12x25<M> N.28="variable"*7x27<M> n="sigma" N.29="/"*48x26<M> N.30="Compound"*17x30#0,1<MC> n="rho*R*R" Ms=1600,0,0,1122,0,0 N.31="variable"*57x35<M> n="rho" N.32="/"*49x51<M> N.33="Compound"*7x54#0,1<MC> n="rho*R*R" Ms=446,0,0,295,0,0 N.34="variable"*50x31<M> n="R" N.35="*"*73x31#3,1<M> N.36="variable"*50x35<M> n="rho" N.37="variable"*9x45<M> n="eta" N.38="*"*25x45#3,1<M> N.39="const"(4)*12x47<M> N.40="variable"*7x49<M> n="Rdot" N.41="Compound"*11x26#0,3<C> n="Rayleigh Equation" Ms=1600,0,0,1122,0,0 N.42="variable"*87x24<M> n="RDotDot" N.43="variable"*109x53<M> n="RDotDot" N.44="plot"*42x0*86x19 pt="Rayleigh Bubble Explosion" px="Time (sec)" pax=0 pc=512 pm=10 pL.0="Bubble Radius" N.45="comment"*1x0*34x24 C="This block diagram simulates the Rayleigh Equation for bubble growth in super heated (boiling) liquids, where: deltaP = pressure difference between bubble and ambient liquid at infinity rho = liquid density eta = liquid viscosity sigma = surface tension" N.46="variable"*112x31<M> n="Rdot" N.47="plot"*43x22*85x19 px="Time (sec)" pax=0 pc=512 pm=10 pL.1="Radius Velocity" N.48="plot"*42x43*84x20 px="Time (sec)" pax=0 pc=512 pm=10 pL.3="Radius Acceleration" N.49="wireLabel"*114x6<M> n="Bubble Radius" I.1.i1=2.o1 I.1.i2=2.o1 I.1.i3=22.o1 I.3.i1=7.o1 I.4.i1=8.o1 I.5.i1=9.o1 I.6.i1=10.o1 I.12.i1=20.o1 I.13.i1=12.o1 I.14.i1=12.o1 I.15.i1=13.o1 I.16.i1=11.o1 I.16.i2=18.o1 I.18.i1=17.o1 I.18.i2=19.o1 I.20.i1=16.o1 f20.2.i=- I.20.i2=21.o1 f20.3.i=- I.20.i3=29.o1 f20.4.i=- I.20.i4=32.o1 I.21.i1=1.o1 I.21.i2=23.o1 I.25.i1=24.o1 I.25.i2=24.o1 I.25.i3=31.o1 I.26.i1=27.o1 I.26.i2=28.o1 I.29.i1=26.o1 I.29.i2=30.o1 G.30=24,25,31, I.30.o1=25.o1 I.32.i1=38.o1 I.32.i2=33.o1 G.33=34,35,36, I.33.o1=35.o1 I.35.i1=34.o1 I.35.i2=34.o1 I.35.i3=36.o1 I.38.i1=37.o1 I.38.i2=39.o1 I.38.i3=40.o1 G.41=1,2,11,12,13,14,15,16,17,18,19,20,21,22,23,26,27,28,29,30,32,33,37,38,39,40,42,43,46,49, I.41.o1=15.o1 I.41.o2=46.o1 I.41.o3=43.o1 I.42.i1=20.o1 I.44.i1=41.o1 I.47.i2=41.o2 I.48.i4=41.o3