Code of Federal Regulations (alpha)

CFR /  Title 40  /  Part 63  /  Sec. 63.831 Implementation and enforcement.

(a) This subpart can be implemented and enforced by the U.S. EPA, or a delegated authority such as the applicable State, local, or Tribal agency. If the U.S. EPA Administrator has delegated authority to a State, local, or Tribal agency, then that agency, in addition to the U.S. EPA, has the authority to implement and enforce this subpart. Contact the applicable U.S. EPA Regional Office to find out if this subpart is delegated to a State, local, or Tribal agency.

(b) In delegating implementation and enforcement authority of this subpart to a State, local, or Tribal agency under subpart E of this part, the authorities contained in paragraph (c) of this section are retained by the Administrator of U.S. EPA and cannot be transferred to the State, local, or Tribal agency.

(c) The authorities that cannot be delegated to State, local, or Tribal agencies are as specified in paragraphs (c)(1) through (4) of this section.

(1) Approval of alternatives to the requirements in Sec. Sec. 63.820 through 63.821 and 63.823 through 63.826.

(2) Approval of alternatives to the test method for organic HAP content determination in Sec. 63.827(b) and alternatives to the test method for volatile matter in Sec. 63.827(c), and major alternatives to other test methods under Sec. 63.7(e)(2)(ii) and (f), as defined in Sec. 63.90, and as required in this subpart.

(3) Approval of major alternatives to monitoring under Sec. 63.8(f), as defined in Sec. 63.90, and as required in this subpart.

(4) Approval of major alternatives to recordkeeping and reporting under Sec. 63.10(f), as defined in Sec. 63.90, and as required in this subpart. [68 FR 37354, June 23, 2003] Sec. Sec. 63.832-63.839 [Reserved]

Sec. Table 1 to Subpart KK of Part 63--Applicability of General

Provisions to Subpart KK ------------------------------------------------------------------------

Applicable to

General provisions reference subpart KK Comment------------------------------------------------------------------------Sec. 63.1(a)(1)-(a)(4)...... Yes.Sec. 63.1(a)(5)............. No............... Section reserved.Sec. 63.1(a)(6)-(a)(8)...... No.Sec. 63.1(a)(9)............. No............... Section reserved.Sec. 63.1(a)(10)-(a)(14).... Yes.Sec. 63.1(b)(1)............. No............... Subpart KK specifies

applicability.Sec. 63.1(b)(2)-(b)(3)...... Yes.Sec. 63.1(c)(1)............. Yes.

Sec. 63.1(c)(2)............. No............... Area sources are not

subject to subpart

KK.Sec. 63.1(c)(3)............. No............... Section reserved.Sec. 63.1(c)(4)............. Yes.Sec. 63.1(c)(5)............. No.Sec. 63.1(d)................ No............... Section reserved.Sec. 63.1(e)................ Yes.Sec. 63.2................... Yes.............. Additional

definitions in

subpart KK.Sec. 63.3(a)-(c)............ Yes.Sec. 63.4(a)(1)-(a)(3)...... Yes.Sec. 63.4(a)(4)............. No............... Section reserved.Sec. 63.4(a)(5)............. Yes.Sec. 63.4(b)-(c)............ Yes.Sec. 63.5(a)(1)-(a)(2)...... Yes.Sec. 63.5(b)(1)............. Yes.Sec. 63.5(b)(2)............. No............... Section reserved.Sec. 63.5(b)(3)-(b)(6)...... Yes.Sec. 63.5(c)................ No............... Section reserved.Sec. 63.5(d)................ Yes.Sec. 63.5(e)................ Yes.Sec. 63.5(f)................ Yes.Sec. 63.6(a)................ Yes.Sec. 63.6(b)(1)-(b)(5)...... Yes.Sec. 63.6(b)(6)............. No............... Section reserved.Sec. 63.6(b)(7)............. Yes.Sec. 63.6(c)(1)-(c)(2)...... Yes.Sec. 63.6(c)(3)-(c)(4)...... No............... Sections reserved.Sec. 63.6(c)(5)............. Yes.Sec. 63.6(d)................ No............... Section reserved.Sec. 63.6(e)(1)(i).......... No............... See 63.823(b) for

general duty

requirement. Any

cross-reference to

63.6(e)(1)(i) in any

other general

provision

incorporated by

reference shall be

treated as a cross-

reference to

63.823(b).Sec. 63.6(e)(1)(ii)......... No...............Sec. 63.6(e)(1)(iii)........ Yes.Sec. 63.6(e)(2)............. No............... Section reserved.Sec. 63.6(e)(3)............. No...............Sec. 63.6(f)(1)............. No...............Sec. 63.6(f)(2)-(f)(3)...... Yes.Sec. 63.6(g)................ Yes.Sec. 63.6(h)................ No............... Subpart KK does not

require COMS.Sec. 63.6(i)(1)-(i)(14)..... Yes.Sec. 63.6(i)(15)............ No............... Section reserved.Sec. 63.6(i)(16)............ Yes.Sec. 63.6(j)................ Yes.Sec. 63.7(a)-(d)............ Yes.Sec. 63.7(e)(1)............. No............... See 63.827

introductory text.

Any cross-reference

to 63.7(e)(1) in any

other general

provision

incorporated by

reference shall be

treated as a cross-

reference to 63.827

introductory text.Sec. 63.7(e)(2)-(e)(4)...... Yes.Sec. 63.8(a)(1)-(a)(2)...... Yes.Sec. 63.8(a)(3)............. No............... Section reserved.Sec. 63.8(a)(4)............. No............... Subpart KK specifies

the use of solvent

recovery devices or

oxidizers.Sec. 63.8(b)................ Yes.Sec. 63.8(c)(1)-(3)......... Yes.Sec. 63.8(c)(4)............. No............... Subpart KK specifies

CMS sampling

requirements.Sec. 63.8(c)(5)............. No............... Subpart KK does not

require COMS.Sec. 63.8(c)(6)-(c)(8)...... Yes.............. Provisions for COMS

are not applicable.Sec. 63.8(d)(1)-(2)......... Yes.Sec. 63.8(d)(3)............. Yes, except for

last sentence.Sec. 63.8(e)-(f)............ Yes.Sec. 63.8(g)................ No............... Subpart KK specifies

CMS data reduction

requirements.Sec. 63.9(a)................ Yes.Sec. 63.9(b)(1)............. Yes.Sec. 63.9(b)(2)............. Yes.............. Initial notification

submission date

extended.Sec. 63.9(b)(3)-(b)(5)...... Yes.Sec. 63.9(c)-(e)............ Yes.Sec. 63.9(f)................ No............... Subpart KK does not

require opacity and

visible emissions

observations.Sec. 63.9(g)................ Yes.............. Provisions for COMS

are not applicable.Sec. 63.9(h)(1)-(h)(3)...... Yes.Sec. 63.9(h)(4)............. No............... Section reserved.Sec. 63.9(h)(5)-(h)(6)...... Yes.

Sec. 63.9(i)................ Yes.Sec. 63.9(j)................ Yes.Sec. 63.10(a)............... Yes.Sec. 63.10(b)(1)............ Yes.Sec. 63.10(b)(2)(i)......... No.Sec. 63.10(b)(2)(ii)........ No............... See 63.829(g) for

recordkeeping of

occurrence and

duration of

malfunctions. See

63.829(h) for

recordkeeping of

actions taken during

malfunction. Any

cross-reference to

63.10(b)(2)(ii) in

any other general

provision

incorporated by

reference shall be

treated as a cross-

reference to

63.829(g).Sec. 63.10(b)(2)(iii)....... Yes.Sec. 63.10(b)(2)(iv)- No.

(b)(2)(v).Sec. 63.10(b)(2)(vi)- Yes.

(2)(v).Sec. 63.10(b)(2)(vi)- Yes.

(v).Sec. 63.10(b)(2)(vi)- Yes.

(b)(2)(xiv).Sec. 63.10(b)(3)............ Yes.Sec. 63.10(c)(1)............ Yes.Sec. 63.10(c)(2)-(c)(4)..... No............... Sections reserved.Sec. 63.10(c)(5)-(c)(8)..... Yes.Sec. 63.10(c)(9)............ No............... Section reserved.Sec. 63.10(c)(10)........... No............... See 63.830(b)(6)(v)

(2)(xiv).Sec. 63.10(b)(3)............ Yes.Sec. 63.10(c)(1)............ Yes.Sec. 63.10(c)(2)-(c)(4)..... No............... Sections reserved.Sec. 63.10(c)(5)-(c)(8)..... Yes.Sec. 63.10(c)(9)............ No............... Section reserved.Sec. 63.10(c)(10)........... No............... See 63.830(b)(6)(v)

(xiv).Sec. 63.10(b)(3)............ Yes.Sec. 63.10(c)(1)............ Yes.Sec. 63.10(c)(2)-(c)(4)..... No............... Sections reserved.Sec. 63.10(c)(5)-(c)(8)..... Yes.Sec. 63.10(c)(9)............ No............... Section reserved.Sec. 63.10(c)(10)........... No............... See 63.830(b)(6)(v)

for reporting

malfunctions. Any

cross-reference to

63.10(c)(10) in any

other general

provision

incorporated by

reference shall be

treated as a cross-

reference to

63.830(b)(6)(v).Sec. 63.10(c)(11)........... No............... See 63.830(b)(6)(v)

for reporting

malfunctions. Any

cross-reference to

63.10(c)(11) in any

other general

provision

incorporated by

reference shall be

treated as a cross-

reference to

63.830(b)(6)(v).Sec. 63.10(c)(12)-(c)(14)... Yes.Sec. 63.10(c)(15)........... No.Sec. 63.10(d)(1)-(d)(2)..... Yes.Sec. 63.10(d)(3)............ No............... Subpart KK does not

require opacity and

visible emissions

observations.Sec. 63.10(d)(4)............ Yes.Sec. 63.10(d)(5)............ No.Sec. 63.10(e)............... Yes.............. Provisions for COMS

are not applicable.Sec. 63.10(f)............... Yes.Sec. 63.11.................. No............... Subpart KK specifies

the use of solvent

recovery devices or

oxidizers.Sec. 63.12.................. Yes.Sec. 63.13.................. Yes.Sec. 63.14.................. Yes.Sec. 63.15.................. Yes.------------------------------------------------------------------------ [61 FR 27140, May 30, 1996, as amended at 76 FR 22598, Apr. 21, 2011]

Sec. Appendix A to Subpart KK of Part 63--Data Quality Objective and

Lower Confidence Limit Approaches for Alternative Capture Efficiency

Protocols and Test Methods

1. Introduction

1.1 Alternative capture efficiency (CE) protocols and test methods that satisfy the criteria of either the data quality objective (DQO) approach or the lower confidence limit (LCL) approach are acceptable under Sec. 63.827(f). The general criteria for alternative CE protocols and test methods to qualify under either the DQO or LCL approach are described in section 2. The DQO approach and criteria specific to the DQO approach are described in section 3. The LCL approach and criteria specific to the LCL approach are described in section 4. The recommended reporting for alternative CE protocols and test methods are presented in section 5. The recommended recordkeeping for alternative CE protocols and test methods are presented in section 6.

1.2 Although the Procedures L, G.1, G.2, F.1, and F.2 in Sec. 52.741 of part 52 were developed for TTE and BE testing, the same procedures can also be used in an alternative CE protocol. For example, a traditional liquid/gas mass balance CE protocol could employ Procedure L to measure liquid VOC input and Procedure G.1 to measure captured VOC.

2. General Criteria for DQO and LCL Approaches

2.1 The following general criteria must be met for an alternative capture efficiency protocol and test methods to qualify under the DQO or LCL approach.

2.2 An alternative CE protocol must consist of at least three valid test runs. Each test run must be at least 20 minutes long. No test run can be longer than 24 hours.

2.3 All test runs must be separate and independent. For example, liquid VOC input and output must be determined independently for each run. The final liquid VOC sample from one run cannot be the initial sample for another run. In addition, liquid input for an entire day cannot be apportioned among test runs based on production.

2.4 Composite liquid samples cannot be used to obtain an ``average composition'' for a test run. For example, separate initial and final coating samples must be taken and analyzed for each run; initial and final samples cannot be combined prior to analysis to derive an ``average composition'' for the test run.

2.5 All individual test runs that result in a CE of greater than 105 percent are invalid and must be discarded.

2.6 If the source can demonstrate to the regulatory agency that a test run should not be considered due to an identified testing or analysis error such as spillage of part of the sample during shipping or an upset or improper operating conditions that is not considered part of normal operation then the test result for that individual test run may be discarded. This limited exception allows sources to discard as ``outliers'' certain individual test runs without replacing them with a valid test run as long as the facility has at least three valid test runs to use when calculating its DQO or LCL. This exception is limited solely to test runs involving the types of errors identified above.

2.7 All valid test runs that are conducted must be included in the average CE determination. The individual test run CE results and average CE results cannot be truncated (i.e., 105 percent cannot be reported as 100+ percent) for purposes of meeting general or specific criteria for either the DQO or the LCL. If the DQO is satisfied and the average CE is greater than 100, then 100 percent CE must be considered the result of the test.

2.8 Alternative test methods for measuring VOC concentration must include a three-point calibration of the gas analysis instrument in the expected concentration range.

3. Data Quality Objective Approach

3.1 The purpose of the DQO is to allow sources to use alternative CE protocols and test methods while ensuring reasonable precision consistent with pertinent requirements of the Clean Air Act. In addition to the general criteria described in section 2, the specific DQO criterion is that the width of the two-sided 95 percent confidence interval of the mean measured value must be less than or equal to 10 percent of the mean measured value (see Figure 1). This ensures that 95 percent of the time, when the DQO is met, the actual CE value will be q5 percent of the mean measured value (assuming that the test protocol is unbiased).[GRAPHIC] [TIFF OMITTED] TC01MY92.047

3.2 The DQO calculation is made as follows using Equations 1 and 2:

[GRAPHIC] [TIFF OMITTED] TR24MY06.004

[GRAPHIC] [TIFF OMITTED] TR24MY06.005

Where: a = Distance from the average measured CE value to the endpoints of the

95-percent (two-sided) confidence interval for the measured

value.n = Number of valid test runs.P = DQO indicator statistic, distance from the average measured CE value

to the endpoints of the 95-percent (two-sided) confidence

interval, expressed as a percent of the average measured CE

value.s = Sample standard deviation.t0.975 = t-value at the 95-percent (two-sided) confidence

level (see Table A-1).xavg = Average measured CE value (calculated from all valid

test runs).xi = The CE value calculated from the ith test run.

Table A-1--t-Values------------------------------------------------------------------------

Number of valid test runs, n t0.975 t0.90------------------------------------------------------------------------1 or 2............................................ N/A N/A3................................................. 4.303 1.8864................................................. 3.182 1.6385................................................. 2.776 1.5336................................................. 2.571 1.4767................................................. 2.447 1.4408................................................. 2.365 1.4159................................................. 2.306 1.39710................................................ 2.262 1.38311................................................ 2.228 1.37212................................................ 2.201 1.36313................................................ 2.179 1.35614................................................ 2.160 1.35015................................................ 2.145 1.34516................................................ 2.131 1.34117................................................ 2.120 1.33718................................................ 2.110 1.33319................................................ 2.101 1.33020................................................ 2.093 1.32821................................................ 2.086 1.325------------------------------------------------------------------------

3.3 The sample standard deviation and average CE value are calculated using Equations 3 and 4 as follows:[GRAPHIC] [TIFF OMITTED] TR30MY96.024 [GRAPHIC] [TIFF OMITTED] TR30MY96.025

3.4 The DQO criteria are achieved when all of the general criteria in section 2 are achieved and P <=5 percent (i.e., the specific DQO criterion is achieved). In order to meet this objective, facilities may have to conduct more than three test runs. Examples of calculating P, given a finite number of test runs, are shown below. (For purposes of this example it is assumed that all of the general criteria are met.)

3.5 Facility A conducted a CE test using a traditional liquid/gas mass balance and submitted the following results and the calculations shown in Equations 5 and 6: ------------------------------------------------------------------------

Run CE------------------------------------------------------------------------1.............................................................. 96.12.............................................................. 105.03.............................................................. 101.2------------------------------------------------------------------------ Therefore:n=3t0.975 = 4.30xavg = 100.8s=4.51[GRAPHIC] [TIFF OMITTED] TR30MY96.026 [GRAPHIC] [TIFF OMITTED] TR30MY96.027

3.6 Since the facility did not meet the specific DQO criterion, they ran three more test runs. ------------------------------------------------------------------------

Run CE------------------------------------------------------------------------4.............................................................. 93.25.............................................................. 96.26.............................................................. 87.6------------------------------------------------------------------------

3.7 The calculations for Runs 1-6 are made as follows using Equations 7 and 8: n=6t0.975 = 2.57xavg = 96.6s=6.11[GRAPHIC] [TIFF OMITTED] TR30MY96.028 [GRAPHIC] [TIFF OMITTED] TR30MY96.029

3.8 The facility still did not meet the specific DQO criterion. They ran three more test runs with the following results: ------------------------------------------------------------------------

Run CE------------------------------------------------------------------------7.............................................................. 92.98.............................................................. 98.39.............................................................. 91.0------------------------------------------------------------------------

3.9 The calculations for Runs 1-9 are made as follows using Equations 9 and 10:n=9t0.975 = 2.31xavg = 95.7s=5.33[GRAPHIC] [TIFF OMITTED] TR30MY96.030 [GRAPHIC] [TIFF OMITTED] TR30MY96.031

3.10 Based on these results, the specific DQO criterion is satisfied. Since all of the general criteria were also satisfied, the average CE from the nine test runs can be used to determine compliance.

4. Lower Confidence Limit Approach

4.1 The purpose of the LCL approach is to provide sources, that may be performing much better than their applicable regulatory requirement, a screening option by which they can demonstrate compliance. The approach uses less precise methods and avoids additional test runs which might otherwise be needed to meet the specific DQO criterion while still being assured of correctly demonstrating compliance. It is designed to reduce ``false positive'' or so called ``Type II errors'' which may erroneously indicate compliance where more variable test methods are employed. Because it encourages CE performance greater than that required in exchange for reduced compliance demonstration burden, the sources that successfully use the LCL approach could produce emission reductions beyond allowable emissions. Thus, it could provide additional benefits to the environment as well.

4.2 The LCL approach compares the 80 percent (two-sided) LCL for the mean measured CE value to the applicable CE regulatory requirement. In addition to the general criteria described in section 2, the specific LCL criteria are that either the LCL be greater than or equal to the applicable CE regulatory requirement or that the specific DQO criterion is met. A more detailed description of the LCL approach follows:

4.3 A source conducts an initial series of at least three runs. The owner or operator may choose to conduct additional test runs during the initial test if desired.

4.4 If all of the general criteria are met and the specific DQO criterion is met, then the average CE value is used to determine compliance.

4.5 If the data meet all of the general criteria, but do not meet the specific DQO criterion; and the average CE, using all valid test runs, is above 100 percent then the test sequence cannot be used to calculate the LCL. At this point the facility has the option of (a) conducting more test runs in hopes of meeting the DQO or of bringing the average CE for all test runs below 100 percent so the LCL can be used or (b) discarding all previous test data and retesting.

4.6 The purpose of the requirement in Section 4.5 is to protect against protocols and test methods which may be inherently biased high. This is important because it is impossible to have an actual CE greater than 100 percent and the LCL approach only looks at the lower end variability of the test results. This is different from the DQO which allows average CE values up to 105 percent because the DQO sets both upper and lower limits on test variability.

4.7 If at any point during testing the results meet the DQO, the average CE can be used for demonstrating compliance with the applicable regulatory requirement. Similarly, if the average CE is below 100 percent then the LCL can be used for demonstrating compliance with the applicable regulatory requirement without regard to the DQO.

4.8 The LCL is calculated at an 80 percent (two-sided) confidence level as follows using Equation 11:[GRAPHIC] [TIFF OMITTED] TR24MY06.006 Where: LC1 = LCL at an 80-percent (two-sided) confidence level.n = Number of valid test runs.s = Sample standard deviation.t0.90 = t-value at the 80-percent (two-sided) confidence

level (see Table A-1).xavg = Average measured CE value (calculated from all valid

test runs).

4.9 The resulting LC1 is compared to the applicable CE regulatory requirement. If LC1 exceeds (i.e., is higher than) the applicable regulatory requirement, then a facility is in initial compliance. However, if the LC1 is below the CE requirement, then the facility must conduct additional test runs. After this point the test results will be evaluated not only looking at the LCL, but also the DQO of q5 percent of the mean at a 95 percent confidence level. If the test results with the additional test runs meet the DQO before the LCL exceeds the applicable CE regulatory requirement, then the average CE value will be compared to the applicable CE regulatory requirement for determination of compliance.

4.10 If there is no specific CE requirement in the applicable regulation, then the applicable CE regulatory requirement is determined based on the applicable regulation and an acceptable destruction efficiency test. If the applicable regulation requires daily compliance and the latest CE compliance demonstration was made using the LCL approach, then the calculated LC1 will be the highest CE value which a facility is allowed to claim until another CE demonstration test is conducted. This last requirement is necessary to assure both sufficiently reliable test results in all circumstances and the potential environmental benefits referenced above.

4.11 An example of calculating the LCL is shown below. Facility B's applicable regulatory requirement is 85 percent CE. Facility B conducted a CE test using a traditional liquid/gas mass balance and submitted the following results and the calculation shown in Equation 12: ------------------------------------------------------------------------

Run CE------------------------------------------------------------------------1.............................................................. 94.22.............................................................. 97.63.............................................................. 90.5------------------------------------------------------------------------ Therefore: n=3t0.90 = 1.886xavg = 94.1s=3.55[GRAPHIC] [TIFF OMITTED] TR30MY96.033

4.12 Since the LC1 of 90.23 percent is above the applicable regulatory requirement of 85 percent then the facility is in compliance. The facility must continue to accept the LC1 of 90.23 percent as its CE value until a new series of valid tests is conducted. (The data generated by Facility B do not meet the specific DQO criterion.)

5. Recommended Reporting for Alternative CE Protocols

5.1 If a facility chooses to use alternative CE protocols and test methods that satisfy either the DQO or LCL and the additional criteria in section 4., the following information should be submitted with each test report to the appropriate regulatory agency:

1. A copy of all alternative test methods, including any changes to the EPA reference methods, QA/QC procedures and calibration procedures.

2. A table with information on each liquid sample, including the sample identification, where and when the sample was taken, and the VOC content of the sample;

3. The coating usage for each test run (for protocols in which the liquid VOC input is to be determined);

4. The quantity of captured VOC measured for each test run;

5. The CE calculations and results for each test run;

6. The DQO or LCL calculations and results; and

7. The QA/QC results, including information on calibrations (e.g., how often the instruments were calibrated, the calibration results, and information on calibration gases, if applicable).

6. Recommended Recordkeeping for Alternative CE Protocols.

6.1 A record should be kept at the facility of all raw data recorded during the test in a suitable form for submittal to the appropriate regulatory authority upon request. [61 FR 27140, May 30, 1996, as amended at 71 FR 29804, May 24, 2006] Subpart LL_National Emission Standards for Hazardous Air Pollutants for

Primary Aluminum Reduction Plants

Source: 62 FR 52407, Oct. 7, 1997, unless otherwise noted.