SOLUTION 1 #New Version #GRID 1 units mol/kgw temp 25.000000 Urea 4.000000000000e+001 # comp pH 7.247190342440e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 1 Urea_degradation -formula Urea 1 -m 4.000000000000e+001 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende SELECTED_OUTPUT -file phout_sel.dat -high_precision -reset false #ende USER_PUNCH -head Urea pH H+ pe 10 PUNCH TOT("Urea"), 20 PUNCH -LA("H+"), MOL("H+"), -LA("e-") END SOLUTION 2 #New Version #GRID 2 units mol/kgw temp 25.000000 Urea 3.214359311910e+001 # comp pH 7.155076902777e+000 charge # comp pe 1.136758699796e+001 # comp #ende KINETICS 2 Urea_degradation -formula Urea 1 -m 3.214359311910e+001 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 3 #New Version #GRID 3 units mol/kgw temp 25.000000 Urea 2.185379376420e+001 # comp pH 7.077974853483e+000 charge # comp pe 1.136758701312e+001 # comp #ende KINETICS 3 Urea_degradation -formula Urea 1 -m 2.185379376420e+001 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 4 #New Version #GRID 4 units mol/kgw temp 25.000000 Urea 1.198162894066e+001 # comp pH 7.031161579953e+000 charge # comp pe -1.572000017363e+000 # comp #ende KINETICS 4 Urea_degradation -formula Urea 1 -m 1.198162894066e+001 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 5 #New Version #GRID 5 units mol/kgw temp 25.000000 Urea 5.133036689226e+000 # comp pH 7.008196106859e+000 charge # comp pe 1.136758701214e+001 # comp #ende KINETICS 5 Urea_degradation -formula Urea 1 -m 5.133036689226e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 6 #New Version #GRID 6 units mol/kgw temp 25.000000 Urea 1.584341134795e+000 # comp pH 7.001587468161e+000 charge # comp pe -1.740946073607e+000 # comp #ende KINETICS 6 Urea_degradation -formula Urea 1 -m 1.584341134795e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 7 #New Version #GRID 7 units mol/kgw temp 25.000000 Urea 3.894575445331e-001 # comp pH 7.000106556796e+000 charge # comp pe 1.136276073300e+001 # comp #ende KINETICS 7 Urea_degradation -formula Urea 1 -m 3.894575445331e-001 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 8 #New Version #GRID 8 units mol/kgw temp 25.000000 Urea 8.199760963269e-002 # comp pH 6.999823093565e+000 charge # comp pe -1.739178826811e+000 # comp #ende KINETICS 8 Urea_degradation -formula Urea 1 -m 8.199760963269e-002 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 9 #New Version #GRID 9 units mol/kgw temp 25.000000 Urea 1.546490943592e-002 # comp pH 6.999774407308e+000 charge # comp pe 1.133261724290e+001 # comp #ende KINETICS 9 Urea_degradation -formula Urea 1 -m 1.546490943592e-002 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 10 #New Version #GRID 10 units mol/kgw temp 25.000000 Urea 2.688027584267e-003 # comp pH 6.999766669803e+000 charge # comp pe 8.011894707087e+000 # comp #ende KINETICS 10 Urea_degradation -formula Urea 1 -m 2.688027584267e-003 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 11 #New Version #GRID 11 units mol/kgw temp 25.000000 Urea 4.387846468932e-004 # comp pH 6.999765509144e+000 charge # comp pe -1.500560609768e+000 # comp #ende KINETICS 11 Urea_degradation -formula Urea 1 -m 4.387846468932e-004 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 12 #New Version #GRID 12 units mol/kgw temp 25.000000 Urea 6.815198217864e-005 # comp pH 6.999765342626e+000 charge # comp pe -1.606531584952e+000 # comp #ende KINETICS 12 Urea_degradation -formula Urea 1 -m 6.815198217864e-005 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 13 #New Version #GRID 13 units mol/kgw temp 25.000000 Urea 1.016716571160e-005 # comp pH 6.999765319566e+000 charge # comp pe 8.807431161820e+000 # comp #ende KINETICS 13 Urea_degradation -formula Urea 1 -m 1.016716571160e-005 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 14 #New Version #GRID 14 units mol/kgw temp 25.000000 Urea 1.467060607246e-006 # comp pH 6.999765316464e+000 charge # comp pe 8.770818581309e+000 # comp #ende KINETICS 14 Urea_degradation -formula Urea 1 -m 1.467060607246e-006 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 15 #New Version #GRID 15 units mol/kgw temp 25.000000 Urea 2.058419429480e-007 # comp pH 6.999765316056e+000 charge # comp pe 9.102589321512e+000 # comp #ende KINETICS 15 Urea_degradation -formula Urea 1 -m 2.058419429480e-007 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 16 #New Version #GRID 16 units mol/kgw temp 25.000000 Urea 2.820069966096e-008 # comp pH 6.999765316003e+000 charge # comp pe 2.156117179726e+000 # comp #ende KINETICS 16 Urea_degradation -formula Urea 1 -m 2.820069966096e-008 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 17 #New Version #GRID 17 units mol/kgw temp 25.000000 Urea 3.784971249470e-009 # comp pH 6.999765315997e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 17 Urea_degradation -formula Urea 1 -m 3.784971249470e-009 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 18 #New Version #GRID 18 units mol/kgw temp 25.000000 Urea 4.989450288726e-010 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 18 Urea_degradation -formula Urea 1 -m 4.989450288726e-010 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 19 #New Version #GRID 19 units mol/kgw temp 25.000000 Urea 6.468787531163e-011 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 19 Urea_degradation -formula Urea 1 -m 6.468787531163e-011 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 20 #New Version #GRID 20 units mol/kgw temp 25.000000 Urea 8.252663255058e-012 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 20 Urea_degradation -formula Urea 1 -m 8.252663255058e-012 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 21 #New Version #GRID 21 units mol/kgw temp 25.000000 Urea 1.036452937605e-012 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 21 Urea_degradation -formula Urea 1 -m 1.036452937605e-012 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 22 #New Version #GRID 22 units mol/kgw temp 25.000000 Urea 1.282099024167e-013 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 22 Urea_degradation -formula Urea 1 -m 1.282099024167e-013 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 23 #New Version #GRID 23 units mol/kgw temp 25.000000 Urea 1.563115020168e-014 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 23 Urea_degradation -formula Urea 1 -m 1.563115020168e-014 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 24 #New Version #GRID 24 units mol/kgw temp 25.000000 Urea 1.879588982102e-015 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 24 Urea_degradation -formula Urea 1 -m 1.879588982102e-015 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 25 #New Version #GRID 25 units mol/kgw temp 25.000000 Urea 2.230671064494e-016 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 25 Urea_degradation -formula Urea 1 -m 2.230671064494e-016 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 26 #New Version #GRID 26 units mol/kgw temp 25.000000 Urea 2.611476575153e-017 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 26 Urea_degradation -formula Urea 1 -m 2.611476575153e-017 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 27 #New Version #GRID 27 units mol/kgw temp 25.000000 Urea 2.995859144581e-018 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 27 Urea_degradation -formula Urea 1 -m 2.995859144581e-018 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 28 #New Version #GRID 28 units mol/kgw temp 25.000000 Urea 2.998295519171e-019 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 28 Urea_degradation -formula Urea 1 -m 2.998295519171e-019 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 29 #New Version #GRID 29 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 29 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 30 #New Version #GRID 30 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 30 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 31 #New Version #GRID 31 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 31 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 32 #New Version #GRID 32 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 32 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 33 #New Version #GRID 33 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 33 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 34 #New Version #GRID 34 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 34 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 35 #New Version #GRID 35 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 35 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 36 #New Version #GRID 36 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 36 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 37 #New Version #GRID 37 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 37 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 38 #New Version #GRID 38 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 38 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 39 #New Version #GRID 39 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 39 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 40 #New Version #GRID 40 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 40 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 41 #New Version #GRID 41 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 41 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 42 #New Version #GRID 42 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 42 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 43 #New Version #GRID 43 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 43 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 44 #New Version #GRID 44 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 44 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 45 #New Version #GRID 45 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 45 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 46 #New Version #GRID 46 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 46 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 47 #New Version #GRID 47 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 47 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 48 #New Version #GRID 48 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 48 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 49 #New Version #GRID 49 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 49 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 50 #New Version #GRID 50 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 50 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 51 #New Version #GRID 51 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 51 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 52 #New Version #GRID 52 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 52 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 53 #New Version #GRID 53 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 53 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 54 #New Version #GRID 54 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 54 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 55 #New Version #GRID 55 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 55 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 56 #New Version #GRID 56 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 56 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 57 #New Version #GRID 57 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 57 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 58 #New Version #GRID 58 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 58 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 59 #New Version #GRID 59 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 59 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 60 #New Version #GRID 60 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 60 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 61 #New Version #GRID 61 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 61 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 62 #New Version #GRID 62 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 62 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 63 #New Version #GRID 63 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 63 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 64 #New Version #GRID 64 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 64 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 65 #New Version #GRID 65 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 65 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 66 #New Version #GRID 66 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 66 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 67 #New Version #GRID 67 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 67 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 68 #New Version #GRID 68 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 68 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 69 #New Version #GRID 69 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 69 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 70 #New Version #GRID 70 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 70 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 71 #New Version #GRID 71 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 71 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 72 #New Version #GRID 72 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 72 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 73 #New Version #GRID 73 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 73 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 74 #New Version #GRID 74 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 74 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 75 #New Version #GRID 75 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 75 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 76 #New Version #GRID 76 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 76 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 77 #New Version #GRID 77 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 77 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 78 #New Version #GRID 78 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 78 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 79 #New Version #GRID 79 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 79 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 80 #New Version #GRID 80 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 80 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 81 #New Version #GRID 81 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 81 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 82 #New Version #GRID 82 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 82 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 83 #New Version #GRID 83 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 83 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 84 #New Version #GRID 84 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 84 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 85 #New Version #GRID 85 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 85 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 86 #New Version #GRID 86 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 86 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 87 #New Version #GRID 87 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 87 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 88 #New Version #GRID 88 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 88 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 89 #New Version #GRID 89 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 89 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 90 #New Version #GRID 90 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 90 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 91 #New Version #GRID 91 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 91 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 92 #New Version #GRID 92 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 92 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 93 #New Version #GRID 93 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 93 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 94 #New Version #GRID 94 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 94 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 95 #New Version #GRID 95 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 95 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 96 #New Version #GRID 96 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 96 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 97 #New Version #GRID 97 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 97 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 98 #New Version #GRID 98 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 98 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 99 #New Version #GRID 99 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 99 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 100 #New Version #GRID 100 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 100 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END SOLUTION 101 #New Version #GRID 101 units mol/kgw temp 25.000000 Urea 0.000000000000e+000 # comp pH 6.999765315996e+000 charge # comp pe 4.000000000000e+000 # comp #ende KINETICS 101 Urea_degradation -formula Urea 1 -m 0.000000000000e+000 -steps 1.000000000000e+002 in 1 steps RATES Urea_degradation -start 20 if tot("Urea") < 1e-9 then goto 50 30 rate = - 4.3e-9 * tot("Urea") /(8.7e-3 + tot("Urea")) 40 moles = rate * time 50 save moles -end ADDITIONAL_OUTPUT Urea_degradation ADDITIONAL_PUNCH PUNCH KIN("Urea_degradation") PRINT -reset true -selected_output true #ende END