Static pressure is the invisible force your air handling unit (AHU) fan is constantly pushing against. It’s not about air speed—it’s about resistance to airflow.
ЁЯУП How it’s measured: inches of water column (in.w.c) or Pascals (Pa).
⚖️ Why it matters:
• Too low = poor air distribution
• Too high = overloaded fans and higher energy bills
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Where Static Pressure Drops Happen
Air loses pressure every time it meets resistance, just like water in a pipe. Common culprits include:
• Filters (especially clogged ones)
• Heating and cooling coils
• Duct bends, transitions, and long runs
• Diffusers, grilles, and dampers
Each adds friction or turbulence, reducing pressure even if airflow stays the same.
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Measuring & Controlling Static Pressure
Tools: Manometers, differential pressure gauges
Checkpoints:
• Across filters (clogging)
• Across coils (fouling)
• Between supply and return ducts
Ways to control it:
• Use low-resistance filters
• Size ducts correctly
• Minimize sharp bends
• Keep filters and coils clean
• Use VFDs to match fan speed to demand
Less resistance means less fan energy and higher system efficiency.
Why It Matters for Design and Operation
Mismanaged static pressure leads to:
• Higher energy costs
• Uneven comfort
• Premature equipment wear
• Poor indoor air quality
A balanced system, on the other hand, delivers consistent comfort, lower operating costs, and longer equipment life.
