Code of Federal Regulations (Last Updated: November 8, 2024) |
Title 40 - Protection of Environment |
Chapter I - Environmental Protection Agency |
SubChapter C - Air Programs |
Part 60 - Standards of Performance for New Stationary Sources |
Appendix C to Part 60 - Determination of Emission Rate Change
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Appendix C to Part 60 - Determination of Emission Rate Change
1. Introduction
1.1 The following method shall be used to determine whether a physical or operational change to an existing facility resulted in an increase in the emission rate to the atmosphere. The method used is the Student's t test, commonly used to make inferences from small samples.
2. Data
2.1 Each emission test shall consist of n runs (usually three) which produce n emission rates. Thus two sets of emission rates are generated, one before and one after the change, the two sets being of equal size.
2.2 When using manual emission tests, except as provided in § 60.8(b) of this part, the reference methods of appendix A to this part shall be used in accordance with the procedures specified in the applicable subpart both before and after the change to obtain the data.
2.3 When using continuous monitors, the facility shall be operated as if a manual emission test were being performed. Valid data using the averaging time which would be required if a manual emission test were being conducted shall be used.
3. Procedure
3.1 Subscripts a and b denote prechange and postchange respectively.
4. Results
4.1 If Eb>,Ea and t>t′, where t′ is the critical value of t obtained from Table 1, then with 95% confidence the difference between Eb and Ea is significant, and an increase in emission rate to the atmosphere has occurred.
Table 1
Degrees of freedom (na=nb−2) t′ (95 percent confidence level) 2 2.920 3 2.353 4 2.132 5 2.015 6 1.943 7 1.895 8 1.860 For greater than 8 degrees of freedom, see any standard statistical handbook or text.
5.1 Assume the two performance tests produced the following set of data:
Test a Test b Run 1. 100 115 Run 2. 95 120 Run 3. 110 125 5.2 Using Equation 1 -
Ea = 100 + 95 + 110/3 = 102
Eb = 115 + 120 + 125/3 = 120
5.3 Using Equation 2 -
Sa 2 = (100−102)2 + (95−102)2 + (110−102)2/3−1 = 58.5
Sb 2 = (115−120)2 + (120−120)2 + (125−120)2/3−1 = 25
5.4 Using Equation 3 -
6. Continuous Monitoring Data
6.1 Hourly averages from continuous monitoring devices, where available, should be used as data points and the above procedure followed.
[40 FR 58420, Dec. 16, 1975]