1. What is a PSI Flow Rate Calculator?

Definition: This calculator determines the flow rate in gallons per minute (GPM) based on pressure difference, fluid density, and pipe cross-sectional area.

Purpose: It helps engineers, plumbers, and fluid system designers calculate flow rates in piping systems.

2. How Does the Calculator Work?

The calculator uses these formulas:

Where:

• \( V \) — Fluid velocity (feet per second)
• \( P_1 \) — Upstream pressure (psi)
• \( P_2 \) — Downstream pressure (psi)
• \( \rho \) — Fluid density (pounds per cubic foot)
• \( Q \) — Flow rate (gallons per minute)
• \( A \) — Cross-sectional area (square feet)

Explanation: The pressure difference is converted to velocity, which is then multiplied by area and a conversion factor to get flow rate.

3. Importance of Flow Rate Calculation

Details: Accurate flow rate calculations ensure proper system design, prevent pipe damage, and optimize fluid transport efficiency.

4. Using the Calculator

Tips: Enter the pressure values (P₁ > P₂), fluid density (default 62.4 lb/ft³ for water), and pipe cross-sectional area. All values must be positive.

5. Frequently Asked Questions (FAQ)

Q1: What's the 144 factor in the equation?
A: This converts psi (lb/in²) to lb/ft² (1 ft² = 144 in²).

Q2: Why is the conversion factor 448.83?
A: This converts ft³/s to GPM (1 ft³/s = 448.83 GPM).

Q3: What's a typical density for water?
A: Pure water at 60°F is 62.4 lb/ft³. For other fluids, use their specific density.

Q4: How do I calculate pipe cross-sectional area?
A: For circular pipes: \( A = \pi \times (diameter/2)^2 \), with diameter in feet.

Q5: Does this account for friction losses?
A: No, this is ideal flow. For real-world applications, consider additional factors like pipe roughness and length.