Moisture Removal Rate Calculation

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Moisture Removal Rate (MRR) Calculator

Calculation Results:

Pints Per Day (PPD): 0

Gallons Per Day: 0

Pounds Per Hour: 0

Grain Depression: 0 Grains

Understanding Moisture Removal Rate (MRR)

The Moisture Removal Rate (MRR) is a critical metric used by HVAC engineers, restoration professionals, and indoor environmental specialists to quantify the performance of dehumidification equipment. It measures the volume of water vapor extracted from the air stream as it passes through a cooling coil or desiccant medium.

The Science of Grains and Airflow

In psychrometrics, moisture is often measured in Grains per Pound (GPP) of dry air. There are 7,000 grains in a single pound of water. To calculate how much water is being removed, we must look at the "Grain Depression"—the difference between the inlet moisture level and the outlet moisture level—multiplied by the volume of air moving through the system.

The Formula

To calculate the Pints Per Day (PPD) removal rate, the following physics-based formula is used:

PPD = (CFM × Grain Depression) / 71.4

Where:

  • CFM: Cubic Feet per Minute of airflow.
  • Grain Depression: Inlet Grains/lb minus Outlet Grains/lb.
  • 71.4: A constant derived from air density (0.075 lbs/cu.ft) and time conversion factors.

Why This Matters

In water damage restoration, calculating MRR allows technicians to verify if their dehumidifiers are operating at peak efficiency. If the grain depression is too low, the equipment may be failing, or the ambient temperature may be outside the machine's optimal operating range. For industrial applications, such as pharmaceutical manufacturing or indoor agriculture, precise MRR calculations ensure that humidity remains within tight tolerances to protect product integrity.

Practical Example

Imagine a high-capacity dehumidifier processing 400 CFM. The air entering the unit is at 90 Grains/lb, and the air exiting the unit is at 50 Grains/lb.

  1. Grain Depression: 90 – 50 = 40 Grains.
  2. Calculation: (400 × 40) / 71.4 = 224.09.
  3. Result: The unit is removing approximately 224 Pints Per Day.
function calculateMRR() { var cfm = parseFloat(document.getElementById('mrr_cfm').value); var inlet = parseFloat(document.getElementById('mrr_inlet').value); var outlet = parseFloat(document.getElementById('mrr_outlet').value); if (isNaN(cfm) || isNaN(inlet) || isNaN(outlet)) { alert("Please enter valid numerical values for all fields."); return; } if (outlet >= inlet) { alert("Outlet humidity must be lower than inlet humidity for a removal calculation."); return; } var grainDepression = inlet – outlet; // Formula: PPD = (CFM * Grain Depression * 60 min/hr * 24 hr/day * 0.075 lb/cuft) / (7000 grains/lb * 1.04 lb/pint approx) // Simplified constant used in restoration industry is approx 71.4 or 61 depending on air density variations // Standard Engineering: lb/hr = (CFM * 60 * 0.075 * DeltaG) / 7000 var lbsPerHour = (cfm * 60 * 0.075 * grainDepression) / 7000; var lbsPerDay = lbsPerHour * 24; // 1 pint of water is approx 1.04 lbs var pintsPerDay = lbsPerDay / 1.04; var gallonsPerDay = pintsPerDay / 8; document.getElementById('res_ppd').innerText = pintsPerDay.toFixed(2); document.getElementById('res_gpd').innerText = gallonsPerDay.toFixed(2); document.getElementById('res_lbh').innerText = lbsPerHour.toFixed(3); document.getElementById('res_dep').innerText = grainDepression.toFixed(1); document.getElementById('mrr_results').style.display = 'block'; }

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