--------------------------------------------- naUTilus A Model for Predicting Chemical Emissions from Industrial Sewers version 1.0 developed by David A. Olson, Sunil Varma, Richard L. Corsi Program in Air Resources Engineering The University of Texas at Austin --------------------------------------------- Network water flows (L/s) Qbr( 1) = 2.500 Qbr( 2) = 2.500 Qbr( 3) = .000 Qbr( 4) = .000 Qbr( 5) = 2.500 Qbr( 6) = .000 Qbr( 7) = .000 Qbr( 8) = .000 Qbr( 9) = 1.500 Qbr( 10) = 2.500 Qbr( 11) = 1.500 Qbr( 12) = .000 Qbr( 13) = .000 Qbr( 14) = .000 Qbr( 15) = .000 Qbr( 16) = 4.000 Qbr( 17) = .000 Qbr( 18) = .000 Qbr( 19) = 4.000 Qbr( 20) = .000 Qbr( 21) = .000 Qbr( 22) = 4.000 Qbr( 23) = 4.000 Qbr( 24) = 2.500 Network temperatures (C) Tbr( 1) = 30.000 Tbr( 2) = 30.000 Tbr( 3) = .000 Tbr( 4) = .000 Tbr( 5) = 30.000 Tbr( 6) = 20.000 Tbr( 7) = 20.000 Tbr( 8) = .000 Tbr( 9) = 35.000 Tbr( 10) = 30.000 Tbr( 11) = 35.000 Tbr( 12) = .000 Tbr( 13) = .000 Tbr( 14) = .000 Tbr( 15) = 20.000 Tbr( 16) = 31.875 Tbr( 17) = 20.000 Tbr( 18) = .000 Tbr( 19) = 31.875 Tbr( 20) = 20.000 Tbr( 21) = .000 Tbr( 22) = 31.875 Tbr( 23) = 31.875 Tbr( 24) = 30.000 Network air flows (L/s) Qgas( 1)= 11.556 Qgas( 2)= 11.556 Qgas( 3)= 11.556 Qgas( 4)= 11.556 Qgas( 5)= 11.556 Qgas( 6)= .000 Qgas( 7)= .000 Qgas( 8)= 11.592 Qgas( 9)= 11.556 Qgas( 10)= 11.592 Qgas( 11)= 11.592 Qgas( 12)= 11.592 Qgas( 13)= 11.592 Qgas( 14)= 11.592 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Emissions calculations : Equilibrium assumption ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Network concentrations (mg/L) Cbr( 1) = .1570 Cbr( 2) = .0704 Cbr( 3) = .0000 Cbr( 4) = .0000 Cbr( 5) = .0315 Cbr( 6) = .0000 Cbr( 7) = .0000 Cbr( 8) = .0000 Cbr( 9) = .2500 Cbr( 10) = .0141 Cbr( 11) = .2500 Cbr( 12) = .0000 Cbr( 13) = .0000 Cbr( 14) = .0000 Cbr( 15) = .0000 Cbr( 16) = .0564 Cbr( 17) = .0000 Cbr( 18) = .0000 Cbr( 19) = .0310 Cbr( 20) = .0000 Cbr( 21) = .0000 Cbr( 22) = .0171 Cbr( 23) = .0094 Cbr( 24) = .3501 Mass emissions from node (mg/s) 1= .483 Mass emissions from node (mg/s) 2= .216 Mass emissions from node (mg/s) 3= .097 Mass emissions from node (mg/s) 4= .000 Mass emissions from node (mg/s) 5= .044 Mass emissions from node (mg/s) 6= .000 Mass emissions from node (mg/s) 7= .000 Mass emissions from node (mg/s) 8= .185 Mass emissions from node (mg/s) 9= .000 Mass emissions from node (mg/s) 10= .000 Mass emissions from node (mg/s) 11= .102 Mass emissions from node (mg/s) 12= .000 Mass emissions from node (mg/s) 13= .056 Mass emissions from node (mg/s) 14= .031 ----------------------------------------------- Network totals Total mass input to system (mg/s)= 1.250 Total network emissions (mg/s)= 1.213 Stripping Efficiency (%) = 97.00 -----------------------------------------------