Absorption of Heat
- In conditions where consistent heat is generated and distributed consistently the heat becomes intensive and hence acquires excellent transferability properties
- The rate of heat absorption increases
- The rate of net heat transfer increases per second in the furnace
Equilibrium with Our Product ( example Actigain)
- With consistent heat generation, consistent heat distribution, consistent absorption the thermal equilibrium becomes stable and the boiler works with very high efficiency
- The work done with Actigain is now =
- 5000 x 1 x 1 x (0.96 to 0.98) = 4800 to 4900
- The heat balance will be
- 5000 x 1.23 = (4250*1.23) + (750*1.23)
- Here 1.23 is the heat availability due to high transferability factor
Heat Availability with Actigain
- Assume Biomass calorific value to be 5000 kcal / kg
- With Actigain treatment the heat available would be
- 5000 = 250 + 250 + 250 + 250 + 250 + 250 + …..
- Actigain changes fuel behavior to exactly produce the same heat energy every time
- Heat availability becomes very organized and stable
- Heat energy is available consistently
- Heat frequency thus generated by controlled carbon combustion is therefore very stable
- Actigain design ensures that the frequency produced is within the band width of absorption range of the metal
Impact on Boiler Operations
- The heat transferred in the boiler was say 4250 kcal in 1 minute in normal operations
- With Actigain technology 4800 kcal is being transferred in 1 minute
- Now if the boiler needed only 4250 k cal in 60 seconds then with Actigain the firing time can be reduced for the same transferability
- = 4250 * 60 / 4800 = 52 to 55 seconds
- Your reduce the time
Principal Of Operation (Example By Actigain)
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