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WESTINGHOUSE NON-PROPRIETARY CLASS 3 to LTR-RAC-20-94 Date: December 18, 2020 Response to Request for Additional Information Table 2 - Emission Calculations for Industrial Incinerator

A B

C D

E F

Source Waste Charge Rate (tons/hr)

Maximum Annual Throughput (tons/year)

Pollutant AP-42 Emission Factor for Industrial /

Commercial Multiple Chamber Combuster (lbs/ton)1 Control Efficiency

(%)3 Hourly Emissions (lbs/hr)4 Annual Emissions (tons/yr)4 Industrial Incinerator 0.25 2,190 PM 7.00 50 0.88 3.83 PM10 2

7.00 50 0.88 3.83 PM2.5 2

7.00 50 0.88 3.83 SO2 2.50 0.63 2.74 CO 10.0 2.50 10.95 NOx 3.00 0.75 3.29 VOCs 3.00 0.75 3.29 Footnotes:

1 Emission factors from AP-42 Chapter 2.1, Refuse Combustion, Table 2.1-12, Uncontrolled Emission Factors for Refuse Combusters, Industrial/Commercial Multiple Chamber Combuster.

2 As AP-42 provides no speciated PM emission factors, it is conservatively assumed that PM10 and PM2.5 are equivalent to PM.

4 These are preliminary emission estimates based on best available data from AP-42. The renewed permit will include a "test and set" condition for the Industrial Incinerator.

Example Calculation:

3 The incinerator is equipped with inherent radiological controls for the purpose for recovering uranic materials. These controls include HEPA filtration prior to discharge to the atmosphere. It is conservatively assumed that these inherent radiological controls will reduce PM emissions by 50 percent.

Westinghouse Electric Company LLC Table 2 - Emission Calculations for Industrial Incinerator Hopkins, South Carolina prepared by GEL Engineering, LLC May 30, 2019 A tons throughput hour x C lbs emissions ton throughput x (100% - D%)/100% = E lbs emissions hour B tons throughput year x C lbs emissions ton throughput x (100% - D%)/100% x 1 ton 2000 lbs

= F tons emissions year