C
C There are a total of 19 entries in the algebraic variable array.
C There are a total of 17 entries in each of the rate and state variable arrays.
C There are a total of 18 entries in the constant variable array.
C
C
C VOI is time in component environment (second).
C STATES(1) is A in component differentials (molar).
C STATES(2) is G in component differentials (molar).
C STATES(3) is GA in component differentials (molar).
C STATES(4) is T in component differentials (molar).
C STATES(5) is R in component differentials (molar).
C STATES(6) is GT in component differentials (molar).
C STATES(7) is GD in component differentials (molar).
C STATES(8) is Pi_ in component differentials (molar).
C STATES(9) is D in component differentials (molar).
C STATES(10) is RG in component differentials (molar).
C STATES(11) is RGT in component differentials (molar).
C STATES(12) is GAT in component differentials (molar).
C STATES(13) is GAD in component differentials (molar).
C STATES(14) is RGD in component differentials (molar).
C STATES(15) is RGA in component differentials (molar).
C STATES(16) is RGAT in component differentials (molar).
C STATES(17) is RGAD in component differentials (molar).
C ALGBRC(8) is A2 in component A2 (molar_per_second).
C ALGBRC(9) is A3 in component A3 (molar_per_second).
C ALGBRC(17) is A5 in component A5 (molar_per_second).
C ALGBRC(7) is R2 in component R2 (molar_per_second).
C ALGBRC(10) is R3 in component R3 (molar_per_second).
C ALGBRC(15) is R4 in component R4 (molar_per_second).
C ALGBRC(1) is T1 in component T1 (molar_per_second).
C ALGBRC(6) is T3 in component T3 (molar_per_second).
C ALGBRC(16) is T4 in component T4 (molar_per_second).
C ALGBRC(4) is P1 in component P1 (molar_per_second).
C ALGBRC(13) is P2 in component P2 (molar_per_second).
C ALGBRC(11) is P3 in component P3 (molar_per_second).
C ALGBRC(18) is P4 in component P4 (molar_per_second).
C ALGBRC(5) is D1 in component D1 (molar_per_second).
C ALGBRC(14) is D2 in component D2 (molar_per_second).
C ALGBRC(12) is D3 in component D3 (molar_per_second).
C ALGBRC(19) is D4 in component D4 (molar_per_second).
C ALGBRC(2) is Z in component output (dimensionless).
C ALGBRC(3) is v in component output (per_second).
C CONSTS(1) is G_tot in component output (molar).
C CONSTS(2) is k1 in component P1 (per_second).
C CONSTS(3) is k1 in component P2 (per_second).
C CONSTS(4) is k1 in component P3 (per_second).
C CONSTS(5) is k1 in component P4 (per_second).
C CONSTS(6) is k1 in component T1 (per_molar_per_second).
C CONSTS(7) is k1 in component D1 (per_second).
C CONSTS(8) is k1 in component T3 (per_molar_per_second).
C CONSTS(9) is k2 in component R2 (per_second).
C CONSTS(10) is k1 in component A2 (per_molar_per_second).
C CONSTS(11) is k2 in component A3 (per_second).
C CONSTS(12) is k1 in component R3 (per_molar_per_second).
C CONSTS(13) is k1 in component D3 (per_second).
C CONSTS(14) is k1 in component D2 (per_second).
C CONSTS(15) is k1 in component R4 (per_molar_per_second).
C CONSTS(16) is k1 in component T4 (per_molar_per_second).
C CONSTS(17) is k1 in component A5 (per_molar_per_second).
C CONSTS(18) is k1 in component D4 (per_second).
C RATES(1) is d/dt A in component differentials (molar).
C RATES(2) is d/dt G in component differentials (molar).
C RATES(3) is d/dt GA in component differentials (molar).
C RATES(4) is d/dt T in component differentials (molar).
C RATES(5) is d/dt R in component differentials (molar).
C RATES(6) is d/dt GT in component differentials (molar).
C RATES(7) is d/dt GD in component differentials (molar).
C RATES(8) is d/dt Pi_ in component differentials (molar).
C RATES(9) is d/dt D in component differentials (molar).
C RATES(10) is d/dt RG in component differentials (molar).
C RATES(11) is d/dt RGT in component differentials (molar).
C RATES(12) is d/dt GAT in component differentials (molar).
C RATES(13) is d/dt GAD in component differentials (molar).
C RATES(14) is d/dt RGD in component differentials (molar).
C RATES(15) is d/dt RGA in component differentials (molar).
C RATES(16) is d/dt RGAT in component differentials (molar).
C RATES(17) is d/dt RGAD in component differentials (molar).
C
      SUBROUTINE initConsts(CONSTS, RATES, STATES)
      REAL CONSTS(*), RATES(*), STATES(*)
      STATES(1) = 0
      STATES(2) = 0
      STATES(3) = 0
      STATES(4) = 0.000468
      STATES(5) = 0
      STATES(6) = 0
      STATES(7) = 1e-8
      STATES(8) = 0.0044
      STATES(9) = 0.000149
      STATES(10) = 0
      STATES(11) = 0
      STATES(12) = 0
      STATES(13) = 0
      STATES(14) = 0
      STATES(15) = 0
      STATES(16) = 0
      STATES(17) = 0
      CONSTS(1) = 1e-8
      CONSTS(2) = 0.013
      CONSTS(3) = 25
      CONSTS(4) = 0.013
      CONSTS(5) = 25
      CONSTS(6) = 529000
      CONSTS(7) = 0.0001
      CONSTS(8) = 853000
      CONSTS(9) = 1.28
      CONSTS(10) = 386000
      CONSTS(11) = 0.95
      CONSTS(12) = 94700000
      CONSTS(13) = 2
      CONSTS(14) = 0.0001
      CONSTS(15) = 22800000
      CONSTS(16) = 1620000
      CONSTS(17) = 6300000
      CONSTS(18) = 2.75
      RETURN
      END
      SUBROUTINE computeRates(VOI, CONSTS,  RATES, STATES, ALGBRC)
      REAL VOI, CONSTS(*), RATES(*), STATES(*), ALGBRC(*)
      ALGBRC(1) =  CONSTS(6)*STATES(2)*STATES(4)
      ALGBRC(5) =  CONSTS(7)*STATES(7)
      RATES(2) = ALGBRC(5) - ALGBRC(1)
      ALGBRC(8) =  CONSTS(10)*STATES(6)*STATES(1)
      ALGBRC(7) =  - CONSTS(9)*STATES(11)
      ALGBRC(4) =  CONSTS(2)*STATES(6)
      RATES(6) = ((ALGBRC(1) - ALGBRC(4)) - ALGBRC(7)) - ALGBRC(8)
      ALGBRC(9) =  - CONSTS(11)*STATES(13)
      ALGBRC(10) =  CONSTS(12)*STATES(7)*STATES(5)
      RATES(7) = ((ALGBRC(4) - ALGBRC(5)) - ALGBRC(9)) - ALGBRC(10)
      ALGBRC(6) =  CONSTS(8)*STATES(10)*STATES(4)
      ALGBRC(12) =  CONSTS(13)*STATES(14)
      RATES(10) = - ALGBRC(6)+ALGBRC(12)
      ALGBRC(11) =  CONSTS(4)*STATES(11)
      RATES(14) = (ALGBRC(10)+ALGBRC(11)) - ALGBRC(12)
      ALGBRC(13) =  CONSTS(3)*STATES(12)
      RATES(12) = ALGBRC(8) - ALGBRC(13)
      ALGBRC(14) =  CONSTS(14)*STATES(13)
      RATES(13) = (ALGBRC(9)+ALGBRC(13)) - ALGBRC(14)
      ALGBRC(15) =  CONSTS(15)*STATES(3)*STATES(5)
      RATES(3) = ALGBRC(14) - ALGBRC(15)
      RATES(5) = - (ALGBRC(7)+ALGBRC(10)+ALGBRC(15))
      ALGBRC(16) =  CONSTS(16)*STATES(15)*STATES(4)
      RATES(4) = - (ALGBRC(1)+ALGBRC(6)+ALGBRC(16))
      ALGBRC(17) =  CONSTS(17)*STATES(11)*STATES(1)
      RATES(1) = - (ALGBRC(8)+ALGBRC(9)+ALGBRC(17))
      RATES(11) = ((ALGBRC(6)+ALGBRC(7)) - ALGBRC(11)) - ALGBRC(17)
      ALGBRC(18) =  CONSTS(5)*STATES(16)
      RATES(8) = ALGBRC(4)+ALGBRC(11)+ALGBRC(13)+ALGBRC(18)
      RATES(16) = (ALGBRC(16)+ALGBRC(17)) - ALGBRC(18)
      ALGBRC(19) =  CONSTS(18)*STATES(17)
      RATES(9) = ALGBRC(5)+ALGBRC(12)+ALGBRC(14)+ALGBRC(19)
      RATES(15) = (ALGBRC(15) - ALGBRC(16))+ALGBRC(19)
      RATES(17) = ALGBRC(18) - ALGBRC(19)
      RETURN
      END
      SUBROUTINE computeVariables(VOI, CONSTS, RATES, STATES, ALGBRC)
      REAL VOI, CONSTS(*), RATES(*), STATES(*), ALGBRC(*)
      ALGBRC(1) =  CONSTS(6)*STATES(2)*STATES(4)
      ALGBRC(5) =  CONSTS(7)*STATES(7)
      ALGBRC(8) =  CONSTS(10)*STATES(6)*STATES(1)
      ALGBRC(7) =  - CONSTS(9)*STATES(11)
      ALGBRC(4) =  CONSTS(2)*STATES(6)
      ALGBRC(9) =  - CONSTS(11)*STATES(13)
      ALGBRC(10) =  CONSTS(12)*STATES(7)*STATES(5)
      ALGBRC(6) =  CONSTS(8)*STATES(10)*STATES(4)
      ALGBRC(12) =  CONSTS(13)*STATES(14)
      ALGBRC(11) =  CONSTS(4)*STATES(11)
      ALGBRC(13) =  CONSTS(3)*STATES(12)
      ALGBRC(14) =  CONSTS(14)*STATES(13)
      ALGBRC(15) =  CONSTS(15)*STATES(3)*STATES(5)
      ALGBRC(16) =  CONSTS(16)*STATES(15)*STATES(4)
      ALGBRC(17) =  CONSTS(17)*STATES(11)*STATES(1)
      ALGBRC(18) =  CONSTS(5)*STATES(16)
      ALGBRC(19) =  CONSTS(18)*STATES(17)
      ALGBRC(2) = (STATES(6)+STATES(11)+STATES(16)+STATES(12))/CONSTS(1)
      ALGBRC(3) = ( CONSTS(5)*STATES(16)+ CONSTS(3)*STATES(12)+ CONSTS(4)*STATES(11)+ CONSTS(2)*STATES(6))/CONSTS(1)
      RETURN
      END