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SolCoat Simulation Input Form
1. Project & Boiler Details
Project Name:
*
Client Name:
*
Boiler Name:
*
Boiler Type:
Coating Area (m²):
*
Boiler Function in Plant:
2. Current Boiler Operational Data (Baseline)
Fluid Flow Rate (kg/hr):
*
Fluid Outlet Temp (°C):
*
Stack Gas Temp (°C):
*
Annual Operating Hours:
Main Fuel Type:
*
Select Fuel Type
LPG
Natural Gas
Fuel Oil
Waste Process (SRM)
Other...
Fuel Price per Unit:
*
USD
IDR
THB
EUR
/ kg
e.g., 0.40 USD/kg. Units may vary based on fuel type.
3. Fuel Composition & Characteristics
LHV (Lower Heating Value) Main Fuel (kcal/kg):
Leave blank to calculate from composition.
Fuel Composition (
)
Propane (%):
Butane (%):
Other (%):
Styrene (%):
Ethyl benzene (%):
Component List:
+ Add Component
Add each component and its percentage. Total should be 100%.
Is there any Additional/Co-firing Fuel?
Yes
No
If Yes, you'll need to add a second fuel input section in the application.
Current Baseline CO2 & N2O Emissions (Ton/yr)
CO2 (Ton/yr):
*
Total CO2 emissions from current boiler per year.
N2O (Ton/yr):
*
Total N2O emissions from current boiler per year.
4. SolCoat Costs & Performance Parameters
Total Coating Cost:
*
USD
IDR
THB
EUR
Total cost for coating the specified area.
Mobilization Cost:
*
USD
IDR
THB
EUR
Calculated Net Saving (%):
*
e.g., 2.21% (from SolCoat's optimal performance claim).
Guarantee Net Saving (%):
*
e.g., 1.80% (from SolCoat's guaranteed minimum performance).
5. Current Baseline Heat Balance (MMkcal/h)
Supplied:
*
Radiation:
Convection:
Loss:
Sum of Radiation, Convection, and Loss should equal Supplied.
6. Current Baseline Heat Distribution (%)
Radiation (%):
Convection (%):
Loss (%):
Sum of Radiation, Convection, and Loss should equal 100%.
Proceed to Simulation & Results