Emission Rate Calculation

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Industrial Emission Rate Calculator

Calculate mass emission rates based on flow and concentration.

Unit: Normal cubic meters per hour (Nm³/hr)
Unit: Milligrams per Normal cubic meter (mg/Nm³)
Typical full year: 8760 hours
Hourly Mass Emission Rate
0.00 kg/hr
Daily Emission Estimate (24h)
0.00 kg/day
Total Annual Emissions
0.00 Tonnes/year

About Emission Rate Calculations

Calculating the emission rate of pollutants is a fundamental aspect of environmental compliance, permitting, and impact assessment for industrial facilities. The Emission Rate Calculator helps environmental engineers and plant managers convert measured concentration data into mass flow rates.

The Formula

The basic physics behind the emission rate calculation involves multiplying the volumetric flow rate of the gas stream by the concentration of the pollutant within that stream.

E = Q × C

  • E = Mass Emission Rate (Mass per unit time)
  • Q = Volumetric Flow Rate (Volume per unit time)
  • C = Pollutant Concentration (Mass per unit volume)

Unit Conversions Explained

In industrial stack testing, flow is often measured in Normal cubic meters per hour (Nm³/hr) and concentration in milligrams per Normal cubic meter (mg/Nm³). However, regulatory limits are often expressed in kilograms per hour (kg/hr) or Tonnes per year.

To convert (mg/Nm³ × Nm³/hr) into kg/hr:

  1. Multiply Flow (Nm³/hr) by Concentration (mg/Nm³) to get mg/hr.
  2. Divide by 1,000,000 (since there are 1,000,000 mg in 1 kg).

Calculation Example

Consider a boiler stack with the following parameters:

Parameter Value
Flow Rate (Q) 25,000 Nm³/hr
NOx Concentration (C) 150 mg/Nm³
Operating Hours 8,000 hours/year

Step 1: Calculate Hourly Rate
25,000 × 150 = 3,750,000 mg/hr
3,750,000 / 1,000,000 = 3.75 kg/hr

Step 2: Calculate Annual Total
3.75 kg/hr × 8,000 hrs = 30,000 kg/year
30,000 / 1,000 = 30 Tonnes/year

Why Monitoring Matters

Accurate emission calculations are required for:

  • Regulatory Compliance: Adhering to EPA or local environmental agency limits.
  • Emission Fees: Many jurisdictions charge fees based on the total tonnage of pollutants emitted (e.g., NOx, SOx, Particulate Matter).
  • Equipment Efficiency: Tracking emissions can indicate how efficiently a scrubber, baghouse, or precipitator is functioning.
function calculateEmissionRate() { // Get input values var flowRate = parseFloat(document.getElementById('flowRate').value); var concentration = parseFloat(document.getElementById('concentration').value); var opHours = parseFloat(document.getElementById('opHours').value); // Validation if (isNaN(flowRate) || isNaN(concentration) || isNaN(opHours)) { alert("Please enter valid numeric values for Flow Rate, Concentration, and Operating Hours."); return; } if (flowRate < 0 || concentration < 0 || opHours < 0) { alert("Values cannot be negative."); return; } // Calculation Logic // 1. Calculate mg/hr var emissionMgHr = flowRate * concentration; // 2. Convert to kg/hr (1 kg = 1,000,000 mg) var emissionKgHr = emissionMgHr / 1000000; // 3. Calculate Daily Estimate (kg/day assuming 24h) var emissionKgDay = emissionKgHr * 24; // 4. Calculate Annual Emissions in kg var annualKg = emissionKgHr * opHours; // 5. Convert Annual to Tonnes (1 Tonne = 1,000 kg) var annualTonnes = annualKg / 1000; // Display Results document.getElementById('hourlyEmission').innerHTML = emissionKgHr.toLocaleString('en-US', {minimumFractionDigits: 2, maximumFractionDigits: 4}) + " kg/hr"; document.getElementById('dailyEmission').innerHTML = emissionKgDay.toLocaleString('en-US', {minimumFractionDigits: 2, maximumFractionDigits: 4}) + " kg/day"; document.getElementById('annualEmission').innerHTML = annualTonnes.toLocaleString('en-US', {minimumFractionDigits: 2, maximumFractionDigits: 4}) + " Tonnes/year"; // Show result container document.getElementById('ercResult').style.display = "block"; }

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