Impact on Steam
- You reduce the time of firing by improving the efficiency of transfer
- If 100 tons of steam at desired temperature and pressure is produced per hour by your boiler for feeder RPM of say 20
- Then with Actigain technology you will produce 100 tons of steam at desired temperature and pressure, with feeder RPM of 20 in 55 minutes
Impact on Steam 2
- This feat is achieved due to higher heat transferability and absorption per second
- The saving is not firing Biomass for the rest of the time
- Alternatively, you can reduce the feeder RPM for more time and obtain desired steam quantity and quality i.e. by firing lesser Biomass
- With Actigain technology, you can use less heat quantity and still get the same steam quality and quantity by improving transferability
Impact on Steam Quality
- Since time of transfer has reduced, the boiler steam response increases
- You can produce steam very quickly and in short time
- The steam quality with Actigain will be much better with very low or negligible variations
- Due to stable equilibrium conditions, the boiler works comfortably with lesser thermal load and delivers high steam quality
Impact on Turbine Operations
- With very low or negligible variations in steam quality or quantity, the turbine will operate more comfortably with Stable RPM and the power generated per MT of steam is expected to rise
- You produce more power per MT of steam when steam quality is improved
Impact on ESP and Cyclones
- The Ash quantity reduces, since the boiler has equilibrium, balanced with lesser thermal load i.e. lesser Biomass
- Lesser Biomass firing hence lesser ESP ash at Cyclones
- With Ash quantity reducing, you can reduce the power consumption in the ESP too
Steam Quality (Example By Actigain)
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