OCR Text |
Show 1.0 0.8. 0.6. 0.4. 0.2- 00* (a) CI = 0 ppm, S = 0 ppm , . . , . . , i i • \ \ Ni \ \ \ \ Cr\ \ \ \ \ \ \\ \\ \ \ \ \ 1 1 1 1 - i | > i | 1.0 0.8- 0.6- 0.4. 0.2. 0.0 1.0 CrOCI4 and CrCI6 (b) CI = 2500 ppm, S = 0 ppm 0.8. 0.6. 0.4^ 0.2- oo" (c) CI = 2500 ppm, S = 2500 ppm • • i • • i • i i i i %V\ Cr \ \ \ \ Ni \\ \\ \\ 1 1 1 , > 1 1 1.0 0.8- 0.6. 0.4- 0.2. 00. (d) CI = 0 ppm, S = 2500 ppm 1 1 1 r- , . . | i -r - j - \ \ Ni \ \ Cr\ \ \ \ \ \ \ \ • • i < i i > • i 300 600 900 1200 1500 1800 2100 Figl. Temperature (K) Ni and Cr equilibrium predictions for four experimental conditions: (a) 0 p pm chlorine, 0 p p m sulfur; (b) 0 p p m chlorine, 2500 p p m sulfur; (c) 2500 p pm chlorine, 0 p p m sulfur; and (d) 2500 p p m chlorine, 2500 p p m sulfur . Table 1 presents Ni and Cr species considered. Table 2 presents input concentrations used for calculations. Lines represent total condensed species. |