Convert PSI to inches of water column (inWC) and vice versa. Temperature-compensated conversion with HVAC and gas pressure references.
The PSI to inches of water converter provides precise bidirectional conversion between pounds per square inch (PSI) and inches of water column (inWC), the standard pressure measurement in HVAC, gas piping, and clean room applications. At standard conditions, 1 PSI equals approximately 27.68 inches of water column.
Inches of water column (also written as "wc, inH₂O, or inAq) is the preferred unit for low-pressure measurements because it provides better resolution than PSI at small values. A residential gas line operates at about 7 inWC (0.25 PSI) — a value that is much easier to read and adjust using inWC.
This calculator includes water temperature compensation for precise conversions, converts to 8 different pressure units simultaneously, and provides reference tables for HVAC duct pressures, filter specifications, and gas line pressures. It helps technicians move confidently between field instruments, code requirements, and manufacturer specifications without unit confusion in installation, troubleshooting, and preventive maintenance workflows.
HVAC technicians, gas fitters, and clean room engineers work primarily in inches of water column, while most pressure gauges and specifications may use PSI, Pascals, or mbar. This converter provides instant translation between all these units with temperature compensation for accuracy. It reduces setup errors, speeds commissioning checks, and supports safer pressure verification in regulated environments.
PSI to inWC: inWC = PSI × 27.6799 (at 4°C water). Temperature-compensated: inWC = PSI × 27.6799 × density_correction. Water density correction accounts for the slight change in water density with temperature (maximum density at 4°C / 39.2°F).
Result: 27.68 inWC
1 PSI equals 27.6799 inches of water column at standard temperature (39.2°F / 4°C). This is derived from the definition: 1 PSI = pressure exerted by a 27.68-inch column of water at maximum density.
Inches of water column is the lingua franca of HVAC pressure measurement. Duct static pressure, filter drop, fan curves, and building pressurization are all specified in inWC. A well-designed residential system maintains 0.1–0.5 inWC total external static pressure. Exceeding design pressure reduces airflow, increases energy consumption, and shortens equipment life.
Natural gas distribution uses inWC because pressures are low. Residential supply: ~7 inWC. Appliance manifold pressure: ~3.5 inWC for natural gas, ~10 inWC for LP gas. Gas pressure regulators are calibrated in inWC, and gas code inspections check these values with manometers. Even small errors (±0.5 inWC) can affect combustion efficiency and safety.
Clean rooms maintain positive pressure differentials (typically 0.03–0.05 inWC) to prevent contamination. Operating rooms target 0.01–0.03 inWC positive. These are extremely small pressures — barely enough to feel on your hand — but precisely measured and controlled with inWC-calibrated instruments.
There are approximately 27.68 inches of water column in 1 PSI at standard temperature (4°C). The exact value is 27.6799 inWC. At higher water temperatures, this value changes slightly due to decreased water density.
Inches of water column is a pressure unit equal to the pressure exerted by a column of water of the stated height. 1 inWC ≈ 249.09 Pascals ≈ 0.0361 PSI. It is the standard HVAC and gas piping pressure unit because it provides good resolution at low pressures.
Water density changes with temperature. Maximum density occurs at 4°C (39.2°F). At higher temperatures, water is less dense, so a taller column is needed to produce the same pressure. The difference is small (<2%) for typical indoor temperatures but matters for precision work.
Natural gas is typically delivered at 1/4 PSI (7 inWC or about 1.7 kPa) at the meter for residential use. The gas regulator at the meter reduces street pressure (which can be 60+ PSI) down to this safe level.
Use a manometer (U-tube or digital) or a differential pressure gauge calibrated in inWC. Digital manometers are common in HVAC work and can read as low as 0.001 inWC. Traditional U-tube manometers are visible and require no power.
Residential duct static pressure should be under 0.5 inWC. Over 0.8 inWC indicates problems (undersized ducts, dirty filters, closed dampers). Commercial systems may operate at 1–6 inWC depending on design.