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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

Q=m˙cpΔTQ = \dot{m} c_p \Delta T

Heat causing temperature change.

Latent Heat

Q=m˙hfgΔωQ = \dot{m} h_{fg} \Delta\omega

Heat causing moisture change.

COP (Cooling)

COP=Qc/WCOP = Q_c / W

Coefficient of performance.

Variables

SymbolDescriptionUnit
QQHeat transferW
m˙\dot{m}Mass flow ratekg/s
cpc_pSpecific heat of airJ/(kg·K)
ΔT\Delta TTemperature differenceK

Damper Classification by Function

6 rows
Functional classification of dampers.
Function
Class 1
Class 2
Class 3
Adjustmentx
Closing, runningx
Closing, smokex
Closing, firex
Overpressurex
Modulationx

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 0.2 m3/s per m20.2 \text{ m}^3\text{/s per m}^2 valve area
  • *Class 2: Less than 0.04 m3/s per m20.04 \text{ m}^3\text{/s per m}^2 valve area
  • *Class 3: Less than 0.008 m3/s per m20.008 \text{ m}^3\text{/s per m}^2 valve area
  • *Class 4: Less than 0.0015 m3/s per m20.0015 \text{ m}^3\text{/s per m}^2 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.

ql=q100(Δpl100)1/2q_l = q_{100} \left( \frac{\Delta p_l}{100} \right)^{1/2}

Where:

  • qlq_l = actual volume flow per m² valve area (m³/s per m²)
  • q100q_{100} = volume flow at 100 Pa per m² valve area (m³/s per m²)
  • Δpl\Delta p_l = actual pressure drop through the valve (Pa)

References