| 1. |
INCREASED REFUSE INCINERATOR EFFICIENCY |
| 2. |
INCREASED ON-LINE RUN TIME |
| 3. |
MORE STEAM PRODUCTION PER TON OF REFUSE |
| 4. |
INCREASED PRODUCTION OF INSOLUBLE
COMPONENTS IN THE ASH |
| 5. |
INCREASES CONVERSION OF HEAVY METALS
TO THE MORE INSOLUBLE METAL OXIDES
|
| 6. |
IONIC VALENCE CONTROL FOR
INCREASED METAL STABILIZATION |
| 7. |
REDUCTION OF CHLORIDE EMISSIONS |
| 8. |
REDUCTION OF SULFUR OXIDE EMISSIONS |
| 9. |
REDUCTION OF HEAVY METALS EMISSIONS |
| 10. |
REDUCTION OF PARTICULATE ASH EMISSIONS |
| 11. |
REDUCTION OF STACK OPACITY |
| 12. |
REDUCTION OF SHOT CLEANING FREQUENCY |
| 13. |
REDUCTION OF SOOT BLOWING |
| 14. |
REDUCTION OF SLAG AND DEPOSITS
ON TUBES SURFACES AND FURNACE WALLS |
| 15. |
REDUCTION OF EXCESS AIR REQUIREMENTS |
| 16. |
REDUCTION OF PHYSICAL CLEANING TIME |
| 17. |
GAS PASSES ARE KEPT CLEAR |
