Ventilation Dampers
Reference data and engineering information about ventilation dampers for hvac systems applications.
ventilationdampers
Overview
Engineering reference data for Ventilation Dampers in HVAC systems.
Key Formulas
Sensible Heat
Heat causing temperature change.
Latent Heat
Heat causing moisture change.
COP (Cooling)
Coefficient of performance.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Heat transfer | W | |
| Mass flow rate | kg/s | |
| Specific heat of air | J/(kg·K) | |
| Temperature difference | K |
Damper Classification by Function
6 rows
Function | Class 1 | Class 2 | Class 3 |
|---|---|---|---|
| Adjustment | x | ||
| Closing, running | x | ||
| Closing, smoke | x | ||
| Closing, fire | x | ||
| Overpressure | x | ||
| Modulation | x |
Source: engineeringtoolbox.com
Damper Leakage Classification (BS EN 1751:1999)
The leakage class determines the acceptable air leakage through the damper at a 100 Pa pressure difference.
- *Class 0: No requirements
- *Class 1: Less than valve area
- *Class 2: Less than valve area
- *Class 3: Less than valve area
- *Class 4: Less than valve area
Air flow rates at 100 Pa are typically available from manufacturer catalogs.
Leakage Flow Rate Calculation
The leakage air flow through a closed damper can be calculated using the pressure difference and manufacturer data at 100 Pa.
Where:
- = actual volume flow per m² valve area (m³/s per m²)
- = volume flow at 100 Pa per m² valve area (m³/s per m²)
- = actual pressure drop through the valve (Pa)