Minnesota Administrative Rules
Agency 167 - Pollution Control Agency
Chapter 7011 - STANDARDS FOR STATIONARY SOURCES
ELECTRIC UTILITY STEAM GENERATING UNITS
Part 7011.0561 - CONTROL OF MERCURY FROM ELECTRIC GENERATING UNITS
Universal Citation: MN Rules 7011.0561
Current through Register Vol. 49, No. 13, September 23, 2024
Subpart 1. Applicability.
The owners or operators of a coal-fired electric generating unit that have demonstrated actual mercury emissions of five pounds per year or more must comply with this part, except as provided under subpart 3.
Subp. 2. Definitions.
The terms used in this part have the meanings given them in this subpart.
A. "Boiler operating
day" means a 24-hour period between 12:00 midnight and the following midnight
during which any fuel is combusted at any time in the steam-generating unit. It
is not necessary for fuel to be combusted during the entire 24-hour
period.
B. "Coal-fired electric
generating unit" or "coal-fired EGU" means an electric generating unit that
burns coal either exclusively or with any fuels in any amount.
C. "Electric generating unit" or "EGU" means
a fossil-fuel combustion unit greater than 25 megawatt (MW) electric that
serves a generator that produces electricity for sale. A fossil-fuel fired unit
that cogenerates steam and electricity and supplies more than one-third of its
potential electric output capacity to any utility power distribution system for
sale is considered an electric generating unit.
D. "Grace period" means a specified number of
hours after the deadline of a required quality assurance test has passed,
within which the test may be performed without the loss of data.
E. "Operating hour" means a clock hour in
which an EGU combusts any fuel for part of or for the entire hour.
F. "Quality-assured operating quarter" means
a calendar quarter in which there are at least 168 operating hours.
Subp. 3. Exemption.
Beginning one year after the effective date of this part, the owners or operators of a coal-fired EGU are not subject to this part if the coal-fired EGU does not:
A. emit five
pounds of mercury per year or more as demonstrated in subpart
9;
B. combust coal for more than ten percent of
the average annual heat input during any three consecutive calendar years;
or
C. combust coal for more than 15
percent of the annual heat input during any calendar year
Subp. 4. Performance standards for mercury emissions.
Unless the commissioner establishes an alternative mercury emissions reduction under Minnesota Statutes, section 216B.687, the owners or operators of coal-fired electric generating units that do not qualify for the exemption under subpart 3 must control mercury emissions as described in this subpart.
A. By January 1, 2018, owners or operators of
a coal-fired EGU with a nameplate electricity generation capacity greater than
100 MW must:
(1) control mercury such that at
least 90 percent of the mercury present in the fuel is captured and not
emitted; or
(2) demonstrate that
the unit emits no more than 0.8 pounds of mercury per trillion British thermal
units (Tbtu) of heat input.
B. By January 1, 2025, owners or operators of
a coal-fired EGU that is not a supplemental unit as defined in Minnesota
Statutes, sections
216B.682
to
216B.688,
and with a nameplate capacity less than or equal to 100 MW must:
(1) control mercury such that at least 70
percent of the mercury present in the fuel is captured and not emitted;
or
(2) demonstrate that the unit
emits no more than 2.3 pounds of mercury per Tbtu of heat input.
C. By January 1, 2018, owners or
operators of a coal-fired EGU that is a supplemental unit as defined in
Minnesota Statutes, sections
216B.682
to
216B.688,
must:
(1) control mercury such that at least
70 percent of the mercury present in the fuel is captured and not emitted;
or
(2) demonstrate that the unit
emits no more than 2.3 pounds of mercury per Tbtu heat input.
Subp. 5. Monitoring mercury emissions.
The owners or operators of a coal-fired EGU must monitor mercury emissions as described in this subpart.
A. Coal-fired EGUs with a generating capacity
equal to or greater than 250 MW (net) must continuously monitor mercury at a
representative sampling location following the outlet of the last air pollution
control device. A continuous monitor is either a continuous emissions
monitoring system (CEMS) for mercury or a sorbent trap monitoring system
capable of monitoring mercury as described in this part.
(1) If the system is a CEMS for mercury, the
owners or operators must prepare a monitoring plan according to subpart
6. If the system is a sorbent
trap system, the owner or operator must prepare a monitoring plan according to
subpart
7. The plan must be submitted
within 180 days of the effective date of this part or as established by a
permit, whichever is later.
(2) If
applicable federal regulations establish requirements for installation and
operation of continuous monitoring of the coal-fired EGU, the monitoring plan
must describe the compliance procedures for the monitors according to the
federal regulation, in addition to the requirements of this part.
B. If a coal-fired EGU with a
generating capacity less than 250 MW does not use a CEMS or a sorbent trap
monitoring system to monitor mercury, the owner or operator must conduct
performance testing for mercury according to this item at least once every 12
months and must complete the test no more than 13 months after the previous
test. The initial test must be conducted by the applicable compliance deadline
in subpart
4. Owners or operators may
conduct performance stack tests for mercury no less frequently than once every
three years, but no longer than 37 months after the previous performance test,
if:
(i) the performance tests for at least
the immediately preceding three consecutive years show mercury reduction is
greater than or equal to 85 percent; or
(ii) mercury emissions are at or below 1.2
pounds of mercury per Tbtu of heat input; and, in both cases, if there are no
changes in the operation of the EGU or air pollution control equipment that
could increase emissions. The owner or operator must resume annual performance
stack tests if the test results show mercury reduction is less than 85 percent
or mercury emissions are above 1.2 pounds of mercury per Tbtu of heat input.
Subitems (1) to (3) apply to performance testing conducted under this item.
(1) Performance testing must be conducted
using Code of Federal Regulations, title 40, part 60, Appendix A-8, Method 30B.
The initial performance test must be conducted for 30 boiler operating days
under all process operating conditions. Sorbent traps must be used no longer
than ten boiler operating days. Subsequent performance tests may be ten boiler
operating days long.
(2) Compliance
is determined by calculating the average mercury concentration from all sorbent
trap results.
(3) Performance
testing must be conducted according to parts
7017.2001 to
7017.2060 unless modified by this
subpart.
Subp. 6. Monitoring provisions; CEMS for mercury.
This subpart applies to the measurement of mercury from a coal-fired EGU using a continuous emissions monitoring system (CEMS) for mercury. "CEMS for mercury" means the total equipment required to measure the total vapor phase mercury concentration, consisting of three major subsystems: sample acquisition, transport, and conditioning; mercury converter and analyzer; and a data acquisition and handling system.
A. The monitoring plan for the CEMS for
mercury must include:
(1) a description of
the CEMS span value and justification for the span value's selection;
(2) methods, procedures, equations, and
performance specifications, both main and alternate, to be used to conduct a
certification test of the CEMS for mercury. The certification must include a
seven-day calibration error test, a linearity check, a three-level system
integrity check, a cycle time test, and a relative accuracy test audit as
described in Code of Federal Regulations, title 40, part 60, Appendices for
Test Methods;
(3) methods,
procedures, equations, and performance specifications to be used for ongoing
daily calibration error tests, system integrity checks, linearity checks, or
three-level system integrity checks, and a relative accuracy test audit.
Relative accuracy must be calculated as described in Code of Federal
Regulations, title 40, part 60, Appendix B: Performance Specification 2,
section 12, or Performance Specification 6;
(4) a description of calculations used to
convert mercury concentration values to the appropriate units of the emission
standard; and
(5) procedures to
provide substituted data in the event that monitors are not collecting mercury
emissions data and data is missing from the monitoring record.
B. The CEMS must operate in
compliance with parts
7017.0100,
7017.1002,
7017.1030,
7017.1080 to
7017.1130,
7017.1150, and
7017.1180.
C. Owners or operators must conduct routine
quality assurance and control tests on a frequency as follows:
(1) a calibration error test must be
conducted daily using either mid- or high-level gas. The calibrations are not
required when the EGU is not in operation;
(2) single-level system integrity checks must
be conducted weekly, meaning once every seven consecutive operating days for
systems with mercury converters. This test is not required if daily
calibrations are done with a National Institute of Standards and
Technology-traceable source of oxidized mercury;
(3) linearity checks or three-level system
integrity checks must be conducted quarterly in each quality-assured operating
quarter and no less than once every four calendar quarters;
(4) a relative accuracy test audit is
required annually, meaning once every four quality-assured operating quarters.
This deadline may be extended for non-quality-assured operating quarters up to
a maximum of eight quarters from the quarter of the previous test;
and
(5) a 720 operating-hour grace
period is allowed for relative accuracy test audits.
D. Calibration gas mercury concentrations
used to conduct quality assurance tests on a CEMS must have the following
concentrations:
(1) zero-level with a mercury
concentration below the detectable limit of the analyzer;
(2) low-level with a mercury concentration of
20 to 30 percent of the span value of the analyzer;
(3) mid-level with a mercury concentration of
50 to 60 percent of the span value of the analyzer;
(4) high-level with a mercury concentration
of 80 to 100 percent of the span value of the analyzer; and
(5) alternative concentrations may be used if
approved by the commissioner. The data collected with the alternative
concentration must be improved, given the applicable limit to qualify for
approval.
E. Measurement
or adjustment of the CEMS mercury data for bias is not required.
F. The owners or operators must certify,
operate, maintain, and quality-assure the CEMS used to convert measured hourly
mercury concentrations to applicable emission standards according to the
applicable provisions of Code of Federal Regulations, title 40, part
75.
G. The owners or operators must
reduce the hourly averages data from the CEMS for mercury according to Code of
Federal Regulations, title 40, section 60.13(h)(2).
H. The owners or operators must convert
hourly emissions concentrations to 30 boiler operating day rolling average
(lb/Tbtu) according to appropriate emission rate equations of Code of Federal
Regulations, title 40, part 60, Appendix A-7, Method 19.
I. Using fuel sampling data generated by the
procedures in subpart
8, the owners or operators
must demonstrate that the output from item G is no greater than ten percent of
the input from fuel or demonstrate that emissions in item H are no greater than
those specified in subpart
4.
J. The first 30 days of the monitoring period
are used to determine compliance with the mercury emissions concentration
limit.
Subp. 7. Monitoring provisions; sorbent trap monitoring system.
A. Owners or operators of a coal-fired EGU
using a sorbent trap monitoring system must follow the monitoring provisions
under this subpart for the measurement of mercury. "Sorbent trap monitoring
system" means the equipment necessary to monitor mercury emissions continuously
by using paired sorbent traps containing iodated charcoal or other sorbent
medium. The system consists of sample acquisition, transport, conditioning,
sorbent traps, and an automated data acquisition and handling system. The
system samples the stack gas at a constant proportional rate relative to the
stack gas volumetric flow rate. The sampling is a batch process. The average
mercury concentration in the stack gas for the sampling period is determined,
in units of micrograms per dry standard cubic meter (ìg/dscm), based on
the sample volume measured by the gas flow meter and the mass of mercury
collected in the sorbent traps. The use of a sorbent trap monitoring system
also requires the installation and certification of a stack gas flow monitor to
maintain the ratio of stack gas flow rate to sample flow rate.
B. The monitoring plan for the sorbent trap
monitoring system must include:
(1) methods,
procedures, equations, and performance specifications, both main and alternate,
to be used to conduct a certification test of the sorbent trap monitoring
system;
(2) methods, procedures,
equations, and performance specifications, both main and alternate, to be used
for ongoing relative accuracy test audits;
(3) the rationale for the minimum acceptable
data collection period for the size of the sorbent trap selected;
(4) procedures used to monitor system
integrity and data quality;
(5) a
description of calculations used to convert mercury concentration values to the
appropriate units of the emission standard;
(6) procedures for inscribing or permanently
marking a unique identification number on each sorbent trap for tracking
purposes. A record system must be developed to track the identification of the
monitoring system along with dates and hours for each collection period;
and
(7) procedures for providing
substituted data in the event that monitors are not available to measure
mercury emissions and data is missing from the monitoring record.
C. The continuous monitor must be
operated in compliance with parts
7017.0100,
7017.1002,
7017.1030,
7017.1080 to
7017.1130,
7017.1150, and
7017.1180.
D. Monitoring systems that are used to
measure stack gas volumetric flow rate, diluent gas concentration, or stack gas
moisture content, either for routine operation of a sorbent trap monitoring
system or to convert mercury concentration data to units of the applicable
emission limit, must be certified according to the applicable provisions of
Code of Federal Regulations, title 40, part 75.
E. The owners or operators must determine the
mercury concentration for each data collection period and assign this
concentration value to each operating hour in the data collection
period.
F. The owners or operators
must convert hourly emissions concentrations to 30 boiler operating day rolling
average (lb/Tbtu) according to appropriate emission rate equations of Code of
Federal Regulations, title 40, part 60, Appendix A-7, Method 19.
G. Using fuel sampling data generated by the
procedures in subpart
8, the owners or operators
must demonstrate that the output from item F meets the limits specified in
subpart
4.
H. The first 30 days of the monitoring period
is the first period used to determine compliance with the mercury emissions
concentration limit.
Subp. 8. Procedures for determining mercury content of fuel.
The owner or operator shall prepare a fuel sampling and analysis plan and submit it to the commissioner 30 days prior to collecting the initial fuel sample. When the mercury content of fuel is needed to determine total mercury emission reductions, owners or operators of a coal-fired EGU must use the fuel sampling and measuring fuel content procedures in items A to E. The mercury content of fuel used for start-up, unit shutdown, or transient flame stability does not need to be measured. The owners or operators must:
A. collect samples of each fuel
using ASTM D2234/D2234M;
B. prepare
a composited sample for each fuel type using ASTM D2013/D2013M;
C. determine the heat content of the fuel
using ASTM D5865;
D. determine the
moisture content of the fuel using ASTM D3173; and
E. measure mercury in the fuel sample using
ASTM D6722-11, or SW-846-7471 for solid samples, and report in terms of lb/ton
of fuel burned.
Subp. 9. Demonstrating applicability of mercury control requirements.
The owners or operators of a coal-fired EGU without a continuous monitor for mercury must conduct a 28 to 30 operating day performance test to determine the mercury concentration mass emissions according to this subpart. The initial test must be completed within one year of the effective date of this part. The owner or operator must:
A. conduct performance tests according to
parts
7017.2001 to
7017.2060. When preparing the test
plan required in part
7017.2030, the owner or operator
must identify parametric data for air pollution control devices in place during
the performance test that will be recorded;
B. use Code of Federal Regulations, title 40,
part 60, Appendix A-8, Method 30B, or a substantially similar alternative
method approved by the commissioner;
C. locate the Method 30B sampling probe tip
at a point within the ten percent centroidal area of the duct at a location
selected according to Method 1 in Code of Federal Regulations, title 40, part
60, Appendix A-1, and conduct at least three nominally equal length test runs
over the 28- to 30-day test period. Test runs may not be longer than ten
days;
D. collect diluents gas data
over the corresponding time period using Code of Federal Regulations, title 40,
part 60, Appendix A-2, Method 3A, or a diluent gas monitor certified according
to Code of Federal Regulations, title 40, part 75;
E. for calculation of pounds per year of
mercury, collect:
(1) stack gas flow rate
using Method 2, 2F, or 2G in Code of Federal Regulations, title 40, part 60,
Appendix A-1 or A-2, or a flow rate monitor that has been certified according
to Code of Federal Regulations, title 40, part 75; and
(2) moisture data using Method 4 in Code of
Federal Regulations, title 40, part 60, Appendix A-3, or a moisture monitor
certified according to Code of Federal Regulations, title 40, part
75;
F. calculate the
average mercury concentration, in micrograms per cubic meter (ìg/m3),
for the 28- to 30-day performance test, as the arithmetic average of all
sorbent trap results. The owner or operator must calculate the average CO2or
O2concentration for the test period. The owner or operator must use the average
mercury concentration and diluents gas values to express the performance test
results in units of pounds of mercury per trillion British thermal units
(lb/Tbtu) and actual pounds of mercury emitted per year, using the expected
fuel heat input over a one-year period. Alternatively, the owner or operator
must calculate pounds of mercury emitted per year using the average mercury
concentration, average stack gas flow rate, average stack gas moisture, and
maximum operating hours per year;
Subp. 10. Incorporations by reference.
For purposes of this part, the methods listed in items A and B are incorporated by reference, as amended. These documents are subject to frequent change:
A. The Annual Book of
American Society for Testing and Materials International (ASTM) methods D2234/
D2234M (Standard Practice for Collection of a Gross Sample of Coal),
D2013/D2013M (Standard Practice for Preparing Coal Samples for Analysis), D5865
(Standard Test Method for Gross Calorific Value of Coal and Coke), D3173
(Standard Test Method for Moisture in the Analysis Sample of Coal and Coke),
and D6722 (Standard Test Method for Total Mercury in Coal and Coal Combustion
Residues by Direct Combustion Analysis). These methods are published in the
Annual Book of ASTM Standards, Volume 05.06, Gaseous Fuels; Coal and Coke;
Catalysts; Bioenergy and Industrial Chemicals from Biomass (2017). These
documents are available through the Minitex interlibrary loan system;
and
B. Test Methods for Evaluating
Solid Waste, Physical/Chemical Methods, EPA SW-846, Method 7471 Mercury in
Solid or Semisolid Waste (Manual Cold Vapor Technique). The document is
available at https://www.epa.gov/hw-sw846/sw-846-compendium .
Disclaimer: These regulations may not be the most recent version. Minnesota may have more current or accurate information. We make no warranties or guarantees about the accuracy, completeness, or adequacy of the information contained on this site or the information linked to on the state site. Please check official sources.
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