HomeInstrumentation CalculatorsPascal (Pa) to Inch of Water (inH₂O) Pressure Unit Conversion Calculator

Pascal (Pa) to Inch of Water (inH₂O) Pressure Unit Conversion Calculator

Published on

spot_img

This calculator provides a quick and easy way to convert pressure values from Pascals (Pa) to Inches of Water (inH₂O), commonly used in HVAC, fluid dynamics, and engineering applications where accurate low-pressure measurement is required.

The Pascal (Pa) is the SI unit of pressure, defined as one newton per square meter (N/m²). It is a widely accepted unit in scientific, engineering, and industrial fields for expressing pressure and stress.

The Inch of Water (inH₂O) is a non-SI unit of pressure that represents the pressure exerted by a 1-inch column of water at 4°C (39.2°F) under standard gravity. It is commonly used in HVAC systems and other applications involving low-pressure measurements.

Suppose you have a pressure of 500 Pa. To convert it to Inches of Water (inH₂O):

500 Pa×0.00401463=2.007315 inH₂O

Therefore, 500 Pa is equal to approximately 2.007 inH₂O.

Pascals (Pa)Inches of Water (inH₂O)
1 Pa0.00401463 inH₂O
10 Pa0.0401463 inH₂O
100 Pa0.401463 inH₂O
500 Pa2.007315 inH₂O
1000 Pa4.01463 inH₂O
5000 Pa20.07315 inH₂O
  • HVAC Systems: Ideal for converting Pascals to Inches of Water, a common unit for low-pressure measurements in ventilation and duct systems.
  • Fluid Dynamics: Useful in fluid flow studies where differential pressures are often measured in both units.
  • Engineering Applications: Important for precise pressure control and calibration in fields like pneumatics and environmental engineering.
  • Environmental Monitoring: Essential for measuring and converting low pressure in environmental and meteorological applications.

This Pa to inH₂O conversion calculator is a vital tool for professionals in HVAC, engineering, and environmental science, enabling accurate and standardized low-pressure conversions.

Here you can refer more Online Instrumentation Calculators Collections

Latest articles

Essential Control Valve Performance Parameters

Table of ContentsDead Band & BacklashActuator-Positioner DesignResponse TimeValve TrimDead TimeGainHysteresisInherent CharacteristicShaft Wind-UpValve Capacity (Cv...

Cause-and-Effect Diagrams in Process Industries: Test Your Knowledge

The Cause-and-Effect Diagram in Instrumentation and Control Engineering quiz welcomes you to its examination....

Easy Pull-Up Resistor Calculator for PLC Inputs in Discrete Sensor Applications

Table of ContentsWhat is a PLC?What is a Pull-Up Resistor in PLC Applications?PLC Input...

Step-by-Step Guide for Troubleshooting Radar Level Transmitters

Table of ContentsHow do you troubleshoot a radar level transmitter?Problem no.1: Power Supply IssuesProblem...

More like this

Essential Control Valve Performance Parameters

Table of ContentsDead Band & BacklashActuator-Positioner DesignResponse TimeValve TrimDead TimeGainHysteresisInherent CharacteristicShaft Wind-UpValve Capacity (Cv...

Cause-and-Effect Diagrams in Process Industries: Test Your Knowledge

The Cause-and-Effect Diagram in Instrumentation and Control Engineering quiz welcomes you to its examination....

Easy Pull-Up Resistor Calculator for PLC Inputs in Discrete Sensor Applications

Table of ContentsWhat is a PLC?What is a Pull-Up Resistor in PLC Applications?PLC Input...