NR 462.05(1)(g)
(g) If your new or reconstructed affected source commences construction or reconstruction after November 12, 2004, you shall demonstrate initial compliance with the promulgated emission limits and work practice standards no later than 180 days after startup of the source.
NR 462.05(2)
(2) When must I conduct subsequent performance tests or fuel analyses? NR 462.05(2)(a)(a) You shall conduct all applicable performance tests according to
sub. (3) on an annual basis, unless you follow the requirements listed in
pars. (b) to
(d). Annual performance tests shall be completed between 10 and 12 months after the previous performance test, unless you follow the requirements listed in
pars. (b) to
(d).
NR 462.05(2)(b)
(b) You may conduct performance tests less often for a given pollutant if your performance tests for the pollutant - particulate matter, HCl, mercury or TSM - for at least 3 consecutive years show that you comply with the emission limit. In this case, you do not have to conduct a performance test for that pollutant for the next 2 years. You shall conduct a performance test during the third year and no more than 36 months after the previous performance test.
NR 462.05(2)(c)
(c) If your boiler or process heater continues to meet the emission limit for particulate matter, HCl, mercury or TSM, you may choose to conduct performance tests for these pollutants every third year, but each performance test shall be conducted no more than 36 months after the previous performance test.
NR 462.05(2)(d)
(d) If a performance test shows noncompliance with an emission limit for particulate matter, HCl, mercury or TSM, you shall conduct annual performance tests for that pollutant until all performance tests over a consecutive 3-year period show compliance.
NR 462.05(2)(e)
(e) If you have an applicable work practice standard for carbon monoxide and your boiler or process heater is in any of the limited use subcategories or has a heat input capacity less than 100 mmBtu per hour, you shall conduct annual performance tests for carbon monoxide according to
sub. (3). Each annual performance test shall be conducted between 10 and 12 months after the previous performance test.
NR 462.05(2)(f)
(f) You shall conduct a fuel analysis according to
sub. (4) for each type of fuel burned no later than 5 years after the previous fuel analysis for each fuel type. If you burn a new type of fuel, you shall conduct a fuel analysis before burning the new type of fuel in your boiler or process heater. You shall still meet all applicable continuous compliance requirements in
s. NR 462.06 (2).
NR 462.05(2)(g)
(g) You shall report the results of performance tests and fuel analyses to the department within 60 days after the completion of the performance tests or fuel analyses. This report shall also verify that the operating limits for your affected source have not changed or provide documentation of revised operating parameters established according to
sub. (7) and Table 7 of this chapter, as applicable. The reports for all subsequent performance tests and fuel analyses shall include all applicable information required in
s. NR 462.07 (2).
NR 462.05(3)
(3) What performance tests and procedures must I use? NR 462.05(3)(a)(a) You shall conduct all performance tests according to
s. NR 460.06 (2),
(3),
(5) and
(7). You shall also develop a site-specific test plan according to the requirements in
s. NR 460.06 (2) if you elect to demonstrate compliance through performance testing.
NR 462.05(3)(b)
(b) You shall conduct each performance test according to the requirements in Table 5 of this chapter.
NR 462.05(3)(c)
(c) New or reconstructed boilers or process heaters in one of the liquid fuel subcategories that burn only fossil fuels and other gases and do not burn any residual oil shall demonstrate compliance according to
s. NR 462.04 (2) (a).
NR 462.05(3)(d)
(d) You shall conduct each performance test under the specific conditions listed in Tables 5 and 7 of this chapter. You shall conduct performance tests at the maximum normal operating load while burning the type of fuel or mixture of fuels that have the highest content of chlorine, mercury and total selected metals, and you shall demonstrate initial compliance and establish your operating limits based on these tests. These requirements may result in the need to conduct more than one performance test.
NR 462.05(3)(e)
(e) You may not conduct performance tests during periods of startup, shutdown or malfunction.
NR 462.05(3)(f)
(f) You shall conduct 3 separate test runs for each performance test required in this subsection, as specified in
s. NR 460.06 (4) (c). Each test run shall last at least one hour.
NR 462.05(3)(g)
(g) To determine compliance with the emission limits, you shall use the F-factor methodology and equations in sections 12.2 and 12.3 of EPA Method 19 of Appendix A to
40 CFR part 60, incorporated by reference in
s. NR 484.04 (13), to convert the measured particulate matter concentrations, the measured HCl concentrations, the measured TSM concentrations and the measured mercury concentrations that result from the initial performance test to pounds per million Btu heat input emission rates.
NR 462.05(4)
(4) What fuel analyses and procedures must I use? NR 462.05(4)(a)(a) You shall conduct fuel analyses according to the procedures in
pars. (b) to
(e) and Table 6 of this chapter, as applicable.
NR 462.05(4)(b)
(b) You shall develop and submit a site-specific fuel analysis plan to the department for review and approval according to the procedures and requirements in
subds. 1. and
2.
NR 462.05(4)(b)1.
1. You shall submit the fuel analysis plan no later than 60 days before the date that you intend to demonstrate compliance.
NR 462.05(4)(b)2.a.
a. The identification of all fuel types anticipated to be burned in each boiler or process heater.
NR 462.05(4)(b)2.b.
b. For each fuel type, notification of whether you or a fuel supplier will be conducting the fuel analysis.
NR 462.05(4)(b)2.c.
c. For each fuel type, a detailed description of the sample location and specific procedures to be used for collecting and preparing the composite samples if your procedures are different from those in
par. (c) or
(d). Where possible, samples should be collected at a location that most accurately represent the fuel type. Samples shall be collected at a point prior to mixing with other dissimilar fuel types.
NR 462.05(4)(b)2.d.
d. For each fuel type, the analytical methods, with the expected minimum detection levels, to be used for the measurement of selected total metals, chlorine or mercury.
NR 462.05(4)(b)2.e.
e. If you request to use an alternative analytical method other than those required by Table 6 of this chapter, a detailed description of the methods and procedures that will be used.
NR 462.05(4)(b)2.f.
f. If you will be using fuel analysis from a fuel supplier in lieu of site-specific sampling and analysis, assurance that the fuel supplier will use the analytical methods required by Table 6 of this chapter.
NR 462.05(4)(c)
(c) At a minimum, you shall obtain 3 composite fuel samples for each fuel type according to the procedures in
subd. 1. or
2.
NR 462.05(4)(c)1.a.
a. Stop the belt and withdraw a 6-inch wide sample from the full cross-section of the stopped belt to obtain a minimum 2 pounds of sample. Collect all the material, including fine and coarse material, in the full cross-section. Transfer the sample to a clean plastic bag.
NR 462.05(4)(c)1.b.
b. Each composite sample shall consist of a minimum of 3 samples collected at approximately equal intervals during the testing period.
NR 462.05(4)(c)2.a.
a. For each composite sample, select a minimum of 5 sampling locations uniformly spaced over the surface of the pile.
NR 462.05(4)(c)2.b.
b. At each sampling site, dig into the pile to a depth of 18 inches. Insert a clean flat square shovel into the hole and withdraw a sample, making sure that large pieces do not fall off during sampling.
NR 462.05(4)(d)
(d) Prepare each composite sample according to the procedures in
subds. 1. to
7.
NR 462.05(4)(d)1.
1. Thoroughly mix and pour the entire composite sample over a clean plastic sheet.
NR 462.05(4)(d)3.
3. Make a pie shape with the entire composite sample and subdivide it into 4 equal parts.
NR 462.05(4)(d)5.
5. If this subset is too large for grinding, repeat the procedure in
subd. 3. with the quarter sample and obtain a one-quarter subset from this sample.
NR 462.05(4)(d)7.
7. Use the procedure in
subd. 3. to obtain a one-quarter subsample for analysis. If the quarter sample is too large, subdivide it further using the same procedure.
NR 462.05(4)(e)
(e) Determine the concentration of pollutants (mercury, chlorine, and total selected metals) in the fuel in units of pounds per million Btu of each composite sample for each fuel type according to the procedures in Table 6 of this chapter.
NR 462.05(5)
(5) Can I use emission averaging to comply with this chapter? NR 462.05(5)(a)(a) As an alternative to meeting the requirements of
s. NR 462.03 (2), if you have more than one existing large solid fuel boiler located at your facility, you may demonstrate compliance by emission averaging according to the procedures in this subsection.
NR 462.05(5)(b)
(b) For each existing large solid fuel boiler in the averaging group, the emission rate achieved during the initial compliance test for the HAP being averaged may not exceed the emission level that was being achieved on November 12, 2004, or the control technology employed during the initial compliance test may not be less effective for the HAP being averaged than the control technology employed on November 12, 2004.
NR 462.05(5)(c)
(c) You may average particulate matter or TSM, HCl and mercury emissions from existing large solid fuel boilers to demonstrate compliance with the limits in Table 1 of this chapter if you satisfy the requirements in
pars. (d),
(e) and
(f).
NR 462.05(5)(d)
(d) The weighted average emissions from the existing large solid fuel boilers participating in the emissions averaging option shall be in compliance with the limits in Table 1 of this chapter at all times following the compliance date specified in
s. NR 462.01 (5).
NR 462.05(5)(e)1.
1. You shall use Equation 1 to demonstrate that the particulate matter or TSM, HCl and mercury emissions from all existing large solid fuel boilers participating in the emissions averaging option do not exceed the emission limits in Table 1 of this chapter.
where:
AWER is the average weighted emission rate for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Er is the emission rate, as calculated according to Table 5 of this chapter, or fuel analysis as calculated by the applicable equation in sub. (7) (d) for boiler, i, for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Hm is the maximum rated heat input capacity of boiler, i, in units of million Btu per hour
n is the number of large solid fuel boilers participating in the emissions averaging option
NR 462.05(5)(e)2.
2. If you are not capable of monitoring heat input, you may use Equation 2 as an alternative to using Equation 1 to demonstrate that the particulate matter or TSM, HCl and mercury emissions from all existing large solid fuel boilers participating in the emissions averaging option do not exceed the emission limits in Table 1 of this chapter.
where:
AWER is the average weighted emission rate for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Er is the emission rate, as calculated according to Table 5 of this chapter, or fuel analysis as calculated by the applicable equation in sub. (7) (d) for boiler, i, for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Sm is the maximum steam generation by boiler, i, in units of pounds.
Cf is the conversion factor, calculated from the most recent compliance test, in units of million Btu of heat input per pounds of steam generated
n is the number of large solid fuel boilers participating in the emissions averaging option
NR 462.05(5)(f)
(f) You shall demonstrate continuous compliance on a 12-month rolling average basis determined at the end of every month (12 times per year) according to
subds. 1. and
2. The first 12-month rolling-average period begins on the compliance date specified in
s. NR 462.01 (5).
NR 462.05(5)(f)1.
1. For each calendar month, you shall use Equation 3 to calculate the 12-month rolling average weighted emission rate using the actual heat capacity for each existing large solid fuel boiler participating in the emissions averaging option.
where:
AWER is the 12-month rolling average weighted emission rate for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Er is the emission rate, as calculated during the most recent compliance test according to Table 5 of this chapter, or fuel analysis as calculated by the applicable equation in sub. (7) (d) for boiler, i, for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Hb is the average heat input for each calendar month of boiler, i, in units of million Btu
n is the number of large solid fuel boilers participating in the emissions averaging option
NR 462.05(5)(f)2.
2. If you are not capable of monitoring heat input, you may use Equation 4 as an alternative to using Equation 3 to calculate the 12-month rolling average weighted emission rate using the actual steam generation from the large solid fuel boilers participating in the emissions averaging option.
where:
AWER is the 12-month rolling average weighted emission rate for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Er is the emission rate, as calculated during the most recent compliance test according to Table 5 of this chapter, or fuel analysis as calculated by the applicable equation in sub. (7) (d) for boiler, i, for particulate matter or TSM, HCl or mercury, in units of pounds per million Btu of heat input
Sa is the actual steam generation for each calendar month by boiler, i, in units of pounds
Cf is the conversion factor, as calculated during the most recent compliance test, in units of million Btu of heat input per pounds of steam generated
n is the number of large solid fuel boilers participating in the emissions averaging option
NR 462.05(5)(g)
(g) You shall develop and submit an implementation plan for emission averaging to the department for review and approval according to the procedures and requirements in
subds. 1. to
4.
NR 462.05(5)(g)1.
1. You shall submit the implementation plan no later than 180 days before the date that the facility intends to demonstrate compliance using the emission averaging option.
NR 462.05(5)(g)2.
2. You shall include the information required in
subd. 2. a. to
g. in your implementation plan for all emission sources included in an emission averaging group.
NR 462.05(5)(g)2.a.
a. The identification of all existing large solid fuel boilers in the averaging group, including for each boiler either the applicable HAP emission level or the installed control technology.
NR 462.05(5)(g)2.b.
b. The process parameter, either heat input or steam generated, that will be monitored for each averaging group of large solid fuel boilers.
NR 462.05(5)(g)2.c.
c. The specific control technology or pollution prevention measure to be used for each emission source in the averaging group and the date of its installation or application. If the pollution prevention measure reduces or eliminates emissions from multiple sources, the owner or operator shall identify each source.
NR 462.05(5)(g)2.d.
d. The test plan for the measurement of particulate matter or TSM, HCl or mercury emissions in accordance with the requirements in
sub. (3).