II.Data file
This Data File should include all the information described above using GAMS format.

INCORPORATING TOXICOLOGY IN THE SYNTHESIS OF INDUSTRIAL

CHEMICAL COMPLEXES

* I.E. GROSSMANN, R. DRABBANT AND R.K. JAIN

* Ref: Chem.Eng.Commun.Vol,17,pp, 151-170, 1982

SCALARS

NPRO NUMBER OF PROCESSES / 7 /

NCHE NUMBER OF CHEMICALS / 10 /

NMAR NUMBER OF MARKETS / 2 /

INTR INTEREST RATE / 0.10 /

SETS

I PROCESSES / 1*7 /

J CHEMICALS / 1*10 /

L MARKETS / 1*2 /

* Market1: Local, Market2: Inter

SCALAR TT PROJECT LIFETIME / 10 / ;

* Life of project 10 years (1 period)

PARAMETER       ALPHA(I)    VARIABLE INVESTEMENT COEFFICIENT /

( $/KG )

1   0.9
2   1.15
3   3.09
4   1.64
5   1.27
6   1.31
  7   2.23/;
PARAMETER       BETA(I)            FIXED INVESTEMENT COEFFICIENT /

(1E6 $)

1    45.3
2    45.2
3    32.2
4    48.1
5    23.3
6    46.2
   7    32.8;   
PARAMETER   DELTA(I)    OPERATING EXPENSES PER UNIT OF MAIN PRODUCT / 

( $ / KG )

1     0.1
      2    0.12      
3    0.25
4    0.15
5    0.12
6    0.28
       7    0.35/;     
PARAMETER            JMM(I)             MAIN PRODUCT FOR EACH PROCESS / 

1 4

2 5

3 5

4 7

5 8

6 9

                        7 10 /:
PARAMETER            T(J)          TOXICITY INDEX FOR EACH CHEMICAL (LD-50) / 

* (GR/KG)

1   2
2   5
  3   2.5
4   2 
5   1
     6    0.0714
     7    0.0813
     8    0.6667
 9    10
       10    0.333 /;
PARAMETER                  CLB(I)      MINIMUM CAPACITIES OF PROCESS (I) /
    (1E3 TON/YR)

1 10

2 10

3 10

4 10

5 10

6 10

   7 10 /;
PARAMETER        CUB(I)             MAXIMUM CAPACITIES OF PROCESS (I) /
* (1E3 TON/YR)

1 5000

2 5000

3 5000

4 5000

5 5000

6 5000

   7 5000 /;
TABLE              MI(I,J)                MASS BALANCE COEFFICIENTS 

* POSITIVE FOR INPUTS AND NEGATIVE FOR OUTPUTS.

* VALUE SHOULD BE LEFT TO ZERO IF PRODUCT J IS NEITHER INPUT TO

* NOR OUTPUT FROM PROCESS J

  1 2 3 4 5 6 7 8 9 10
1 1.2     -1.0   0.2        
2   0.5 0.8 -1.0            
3   0.4 0.7 -1.0            
4         1.8 -0.7 -1.0      
5 0.3 1.1           -1.0    
6           0.3   1.3 -1.0  
7                 1.1 -1.0
TABLE              LAM(J,L)      COST FOR PURCHASE OF ONE UNIT OF CHEMICAL 
            * ( $/KG ) 

* VALUES SHOULD BE LEFT TO ZERO IF CHEMICAL J IS NOT AVAILABLE

* FROM MARKET L

  1 2
1 0.5  
2 0.7 1.1
3 1.2.  
4    
5   3.7
6    
7    
8 1.7 1.9
9    
10    
       TABLE                        PLB(J,L)            PURCHASE LOWER BOUNDS 
                             (KTON/YR) 

* BOTH LOWER AND UPPER BOUNDS SHOULD BE LEFT TO ZERO

* IF CHEMICAL J IS UNAVAILABLE FROM MARKET L

  1 2
1    
2    
3    
4    
5    
6    
7    
8    
9    
10    
        TABLE                      PUB(J,L)        PURCHASE UPPER BOUNDS 
               (KTON/YR) 

* BOTH UPPER AND LOWER BOUND SHOULD BE LEFT TO ZERO

* IF CHEMICAL J IS UNAVAILABLE FROM MARKET L

  1 2
1 400  
2 50 200
3 320  
4    
5   200
6    
7    
8 10 50
9    
10    
TABLE              GAMMA(J,L)                 SALE PRICES 

* ( $/KG )

* VALUES SHOULD BE LEFT TO ZERO IF CHEMICAL J IS NOT

* DESIRED BY MARKET L

  1 2
1    
2    
3    
4    
5    
6 4.8  
7   6.2
8    
9 4.6 8.8
10 7.2 7.0
TABLE         SLB(J,L)          SALES LOWER BOUNDS 
*                               (KTON/YR) 

* BOTH LOWER AND UPPER BOUNDS SHOULD BE LEFT TO ZERO

* IF CHEMICAL J IS NOT DESIRED BY MARKET L

  1 2
1    
2    
3    
4    
5    
6    
7    
8    
9    
10    
TABLE           SUB(J,L)         SALES UPPER BOUNDS 
                      (KTON/YR) 

* BOTH UPPER AND LOWER BOUNDS SHOULD BE LEFT TO ZERO

* IF CHEMICAL J IS NOT DESIRED BY MARKET L

  1 2
1    
2    
3    
4    
5    
6 60  
7 10 50
8    
9 100 50
10 40 20