A. Thermal Load
| Total Cooling Capacity | kW | |
| Sensible Cooling Capacity | kW | |
| Latent Cooling Capacity | kW | |
| Solving Mode (Fixed Inputs) | ||
| Fix Thermal Capacity | ||
| Fix Airflow | ||
| Fix On-coil Condition | ||
| Fix Off-coil Condition | ||
B. Air Side
| Ambient | ||
| Site Altitude | m | |
| Atmospheric Pressure | kPa | |
| Air On-Coil | ||
| Inlet Dry Bulb Temperature | °C | |
| Inlet Relative Humidity | % | |
| Inlet Humidity Ratio | kg/kg dry air | |
| Inlet Air Enthalpy | kJ/kg dry air | |
| Air Off-Coil | ||
| Outlet Dry Bulb Temperature | °C | |
| Outlet Relative Humidity | % | |
| Outlet Humidity Ratio | kg/kg dry air | |
| Outlet Air Enthalpy | kJ/kg dry air | |
| Air Flow | ||
| Face Velocity | m/s | |
| Face Area | m² | |
| Moist Air Density | kg/m³ | |
| Dry Air Mass Flow Rate | kg/s | |
| Air Volume Flow Rate | m³/s | |
| Air Volume Flow Rate | m³/hr | |
| External Heat Transfer Coefficient | W/m²K | |
| Airflow, face velocity, face area, and geometry are solved dynamically from available inputs and selected fix modes. | ||
Rough space reserved for future expansion.
Coil Geometry Diagram
Project convention: Width / Length is the horizontal front-face dimension, Height is vertical, Depth is front-to-back, Rows are through depth, and fin count follows coil width / length.