Terms used in this subpart are defined in the Clean Air Act, in Sec. 63.2, and in this section as follows.
Bag leak detection system means a system that is capable of continuously monitoring relative particulate matter (dust) loadings in the exhaust of a baghouse to detect bag leaks and other upset conditions. A bag leak detection system includes, but is not limited to, an instrument that operates on tribroelectric, light scattering, light transmittance, or other effect to continuously monitor relative particulate matter loadings.
Basic oxygen process furnace means any refractory-lined vessel in which high-purity oxygen is blown under pressure through a bath of molten iron, scrap metal, and fluxes to produce steel. This definition includes both top and bottom blown furnaces, but does not include argon oxygen decarburization furnaces.
Basic oxygen process furnace shop means the place where steelmaking operations that begin with the transfer of molten iron (hot metal) from the torpedo car and end prior to casting the molten steel, including hot metal transfer, desulfurization, slag skimming, refining in a basic oxygen process furnace, and ladle metallurgy occur.
Basic oxygen process furnace shop ancillary operations means the processes where hot metal transfer, hot metal desulfurization, slag skimming, and ladle metallurgy occur.
Blast furnace means a furnace used for the production of molten iron from iron ore and other iron bearing materials.
Bottom-blown furnace means any basic oxygen process furnace in which oxygen and other combustion gases are introduced into the bath of molten iron through tuyeres in the bottom of the vessel or through tuyeres in the bottom and sides of the vessel.
Casthouse means the building or structure that encloses the bottom portion of a blast furnace where the hot metal and slag are tapped from the furnace.
Certified observer means a visible emission observer certified to perform EPA Method 9 opacity observations.
Desulfurization means the process in which reagents such as magnesium, soda ash, and lime are injected into the hot metal, usually with dry air or nitrogen, to remove sulfur.
Deviation means any instance in which an affected source subject to this subpart, or an owner or operator of such a source:
(1) Fails to meet any requirement or obligation established by this subpart, including but not limited to any emission limitation (including operating limits) or operation and maintenance requirement;
(2) Fails to meet any term or condition that is adopted to implement an applicable requirement in this subpart and that is included in the operating permit for any affected source required to obtain such a permit; or
(3) Fails to meet any emission limitation in this subpart during startup, shutdown, or malfunction, regardless of whether or not such failure is permitted by this subpart.
Discharge end means the place where those operations conducted within the sinter plant starting at the discharge of the sintering machine's traveling grate including (but not limited to) hot sinter crushing, screening, and transfer operations occur.
Emission limitation means any emission limit, opacity limit, or operating limit.
Hot metal transfer station means the location in a basic oxygen process furnace shop where molten iron (hot metal) is transferred from a torpedo car or hot metal car used to transport hot metal from the blast furnace casthouse to a holding vessel or ladle in the basic oxygen process furnace shop. This location also is known as the reladling station or ladle transfer station.
Integrated iron and steel manufacturing facility means an establishment engaged in the production of steel from iron ore.
Ladle metallurgy means a secondary steelmaking process that is performed typically in a ladle after initial refining in a basic oxygen process furnace to adjust or amend the chemical and/or mechanical properties of steel. This definition does not include vacuum degassing.
Primary emissions means particulate matter emissions from the basic oxygen process furnace generated during the steel production cycle which are captured and treated in the furnace's primary emission control system.
Primary emission control system means the combination of equipment used for the capture and collection of primary emissions (e.g., an open hood capture system used in conjunction with an electrostatic precipitator or a closed hood system used in conjunction with a scrubber).
Primary oxygen blow means the period in the steel production cycle of a basic oxygen process furnace during which oxygen is blown through the molten iron bath by means of a lance inserted from the top of the vessel (top-blown) or through tuyeres in the bottom and/or sides of the vessel (bottom-blown).
Responsible official means responsible official as defined in Sec. 63.2.
Secondary emissions means particulate matter emissions that are not controlled by a primary emission control system, including emissions that escape from open and closed hoods, lance hole openings, and gaps or tears in ductwork to the primary emission control system.
Secondary emission control system means the combination of equipment used for the capture and collection of secondary emissions from a basic oxygen process furnace.
Sinter cooler means the apparatus used to cool the hot sinter product that is transferred from the discharge end through contact with large volumes of induced or forced draft air.
Sinter plant means the machine used to produce a fused clinker-like aggregate or sinter of fine iron-bearing materials suited for use in a blast furnace. The machine is composed of a continuous traveling grate that conveys a bed of ore fines and other finely divided iron-bearing material and fuel (typically coke breeze), a burner at the feed end of the grate for ignition, and a series of downdraft windboxes along the length of the strand to support downdraft combustion and heat sufficient to produce a fused sinter product.
Skimming station means the locations inside a basic oxygen process furnace shop where slag is removed from the top of the molten metal bath.
Steel production cycle means the operations conducted within the basic oxygen process furnace shop that are required to produce each batch of steel. The following operations are included: scrap charging, preheating (when done), hot metal charging, primary oxygen blowing, sampling, (vessel turndown and turnup), additional oxygen blowing (when done), tapping, and deslagging. The steel production cycle begins when the scrap is charged to the furnace and ends after the slag is emptied from the vessel into the slag pot.
Top-blown furnace means any basic oxygen process furnace in which oxygen is introduced into the bath of molten iron by means of an oxygen lance inserted from the top of the vessel.
Windboxes means the compartments that provide for a controlled distribution of downdraft combustion air as it is drawn through the sinter bed of a sinter plant to make the fused sinter product. [68 FR 27663, May 20, 2003, as amended at 71 FR 39588, July 13, 2006]
Sec. Table 1 to Subpart FFFFF of Part 63--Emission and Opacity Limits
As required in Sec. 63.7790(a), you must comply with each applicable emission and opacity limit in the following table: ----------------------------------------------------------------------------------------------------------------
You must comply with each of the
For . . . following . . .----------------------------------------------------------------------------------------------------------------1. Each windbox exhaust stream at an existing sinter plant................. You must not cause to be discharged
to the atmosphere any gases that
contain particulate matter in
excess of 0.4 lb/ton of product
sinter.2. Each windbox exhaust stream at a new sinter plant....................... You must not cause to be discharged
to the atmosphere any gases that
contain particulate matter in
excess of 0.3 lb/ton of product
sinter.3. Each discharge end at an existing sinter plant.......................... a. You must not cause to be
discharged to the atmosphere any
gases that exit from one or more
control devices that contain, on a
flow-weighted basis, particulate
matter in excess of 0.02 gr/dscf
\1\ \2\; and
b. You must not cause to be
discharged to the atmosphere any
secondary emissions that exit any
opening in the building or
structure housing the discharge
end that exhibit opacity greater
than 20 percent (6-minute
average).4. Each discharge end at a new sinter plant................................ a. You must not cause to be
discharged to the atmosphere any
gases that exit from one or more
control devices that contain, on a
flow weighted basis, particulate
matter in excess of 0.01 gr/dscf;
and
b. You must not cause to be
discharged to the atmosphere any
secondary emissions that exit any
opening in the building or
structure housing the discharge
end that exhibit opacity greater
than 10 percent (6-minute
average).5. Each sinter cooler at an existing sinter plant.......................... You must not cause to be discharged
to the atmosphere any emissions
that exhibit opacity greater than
10 percent (6-minute average).6. Each sinter cooler at a new sinter plant................................ You must not cause to be discharged
to the atmosphere any gases that
contain particulate matter in
excess of 0.01 gr/dscf.7. Each casthouse at an existing blast furnace............................. a. You must not cause to be
discharged to the atmosphere any
gases that exit from a control
device that contain particulate
matter in excess of 0.01 gr/dscf
\2\; and
b. You must not cause to be
discharged to the atmosphere any
secondary emissions that exit any
opening in the casthouse or
structure housing the blast
furnace that exhibit opacity
greater than 20 percent (6-minute
average).8. Each casthouse at a new blast furnace................................... a. You must not cause to be
discharged to the atmosphere any
gases that exit from a control
device that contain particulate
matter in excess of 0.003 gr/dscf;
and
b. You must not cause to be
discharged to the atmosphere any
secondary emissions that exit any
opening in the casthouse or
structure housing the blast
furnace that exhibit opacity
greater than 15 percent (6-minute
average).9. Each BOPF at a new or existing shop..................................... a. You must not cause to be
discharged to the atmosphere any
gases that exit from a primary
emission control system for a BOPF
with a closed hood system at a new
or existing BOPF shop that
contain, on a flow-weighted basis,
particulate matter in excess of
0.03 gr/dscf during the primary
oxygen blow \2\ \3\; and
b. You must not cause to be
discharged to the atmosphere any
gases that exit from a primary
emission control system for a BOPF
with an open hood system that
contain, on a flow-weighted basis,
particulate matter in excess of
0.02 gr/dscf during the steel
production cycle for an existing
BOPF shop \2\ \3\ or 0.01 gr/dscf
during the steel production cycle
for a new BOPF shop \3\; and
c. You must not cause to be
discharged to the atmosphere any
gases that exit from a control
device used solely for the
collection of secondary emissions
from the BOPF that contain
particulate matter in excess of
0.01 gr/dscf for an existing BOPF
shop \2\ or 0.0052 gr/dscf for a
new BOPF shop.10. Each hot metal transfer, skimming, and desulfurization operation at a You must not cause to be discharged
new or existing BOPF shop. to the atmosphere any gases that
exit from a control device that
contain particulate matter in
excess of 0.01 gr/dscf for an
existing BOPF shop \2\ or 0.003 gr/
dscf for a new BOPF shop.11. Each ladle metallurgy operation at a new or existing BOPF shop......... You must not cause to be discharged
to the atmosphere any gases that
exit from a control device that
contain particulate matter in
excess of 0.01 gr/dscf for an
existing BOPF shop \2\ or 0.004 gr/
dscf for a new BOPF shop.12. Each roof monitoring at an existing BOPF shop.......................... You must not cause to be discharged
to the atmosphere any secondary
emissions that exit any opening in
the BOPF shop or any other
building housing the BOPF or BOPF
shop operation that exhibit
opacity greater than 20 percent (3-
minute average).13. Each roof monitor at a new BOPF shop................................... a. You must not cause to be
discharged to the atmosphere any
secondary emissions that exit any
opening in the BOPF shop or other
building housing a bottom-blown
BOPF or BOPF shop operations that
exhibit opacity (for any set of 6-
minute averages) greater than 10
percent, except that one 6-minute
period not to exceed 20 percent
may occur once per steel
production cycle; or
b. You must not cause to be
discharged to the atmosphere any
secondary emissions that exit any
opening in the BOPF shop or other
building housing a top-blown BOPF
or BOPF shop operations that
exhibit opacity (for any set of 3-
minute averages) greater than 10
percent, except that one 3-minute
period greater than 10 percent but
less than 20 percent may occur
once per steel production cycle.----------------------------------------------------------------------------------------------------------------\1\ This limit applies if the cooler is vented to the same control device as the discharge end.\2\ This concentration limit (gr/dscf) for a control device does not apply to discharges inside a building or
structure housing the discharge end at an existing sinter plant, inside a casthouse at an existing blast
furnace, or inside an existing BOPF shop if the control device was installed before August 30, 2005.\3\ This limit applies to control devices operated in parallel for a single BOPF during the oxygen blow. [68 FR 27663, May 20, 2003, as amended at 71 FR 39588, July 13, 2006]
Sec. Table 2 to Subpart FFFFF of Part 63--Initial Compliance With
Emission and Opacity Limits
As required in Sec. 63.7825(a)(1), you must demonstrate initial compliance with the emission and opacity limits according to the following table: ----------------------------------------------------------------------------------------------------------------
You have demonstrated initial
For . . . compliance if . . .----------------------------------------------------------------------------------------------------------------1. Each windbox exhaust stream at an existing sinter plant................. The process-weighted mass rate of
particulate matter from a windbox
exhaust stream, measured according
to the performance test procedures
in Sec. 63.7822(c), did not
exceed 0.4 lb/ton of product
sinter.2. Each windbox exhaust stream at a new sinter plant....................... The process-weighted mass rate of
particulate matter from a windbox
exhaust stream, measured according
to the performance test procedures
in Sec. 63.7822(c), did not
exceed 0.3 lb/ton of product
sinter.3. Each discharge end at an existing sinter plant.......................... a. The flow-weighted average
concentration of particulate
matter from one or more control
devices applied to emissions from
a discharge end, measured
according to the performance test
procedures in Sec. 63.7822(d),
did not exceed 0.02 gr/dscf; and
b. The opacity of secondary
emissions from each discharge end,
determined according to the
performance test procedures in
Sec. 63.7823(c), did not exceed
20 percent (6-minute average).4. Each discharge end at a new sinter plant................................ a. The flow-weighted average
concentration of particulate
matter from one or more control
devices applied to emissions from
a discharge end, measured
according to the performance test
procedures in Sec. 63.7822(d),
did not exceed 0.01 gr/dscf; and
b. The opacity of secondary
emissions from each discharge end,
determined according to the
performance test procedures in
Sec. 63.7823(c), did not exceed
10 percent (6-minute average).5. Each sinter cooler at an existing sinter plant.......................... The opacity of emissions,
determined according to the
performance test procedures in
Sec. 63.7823(e), did not exceed
10 percent (6-minute average).6. Each sinter cooler at a new sinter plant................................ The average concentration of
particulate matter, measured
according to the performance test
procedures in Sec. 63.7822(b),
did not exceed 0.01 gr/dscf.7. Each casthouse at an existing blast furnace............................. a. The average concentration of
particulate matter from a control
device applied to emissions from a
casthouse, measured according to
the performance test procedures in
Sec. 63.7822(e), did not exceed
0.01 gr/dscf; and
b. The opacity of secondary
emissions from each casthouse,
determined according to the
performance test procedures in
Sec. 63.7823(c), did not exceed
20 percent (6-minute average).8. Each casthouse at a new blast furnace................................... a. The average concentration of
particulate matter from a control
device applied to emissions from a
casthouse, measured according to
the performance test procedures in
Sec. 63.7822(e), did not exceed
0.003 gr/dscf; and
b. The opacity of secondary
emissions from each casthouse,
determined according to the
performance test procedures in
Sec. 63.7823(c), did not exceed
15 percent (6-minute average).9. Each BOPF at a new or existing BOPF shop................................ a. The average concentration of
particulate matter from a primary
emission control system applied to
emissions from a BOPF with a
closed hood system, measured
according to the performance test
procedures in Sec. 63.7822(f),
did not exceed 0.03 gr/dscf for a
new or existing BOPF shop;
b. The average concentration of
particulate matter from a primary
emission control system applied to
emissions from a BOPF with an open
hood system, measured according to
the performance test procedures in
Sec. 63.7822(g), did not exceed
0.02 gr/dscf for an existing BOPF
shop or 0.01 gr/dscf for a new
BOPF shop; and
c. The average concentration of
particulate matter from a control
device applied solely to secondary
emissions from a BOPF, measured
according to the performance test
procedures in Sec. 63.7822(g),
did not exceed 0.01 gr/dscf for an
existing BOPF shop or 0.0052 gr/
dscf for a new BOPF shop.10. Each hot metal transfer skimming, and desulfurization at a new or The average concentration of
existing BOPF shop. particulate matter from a control
device applied to emissions from
hot metal transfer, skimming, or
desulfurization, measured
according to the performance test
procedures in Sec. 63.7822(h),
did not exceed 0.01 gr/dscf for an
existing BOPF shop or 0.003 gr/
dscf for a new BOPF shop.11. Each ladle metallurgy operation at a new or existing BOPF shop......... The average concentration of
particulate matter from a control
device applied to emissions from a
ladle metallurgy operation,
measured according to the
performance test procedures in
Sec. 63.7822(h), did not exceed
0.01 gr/dscf for an existing BOPF
shop or 0.004 gr/dscf for a new
BOPF shop.12. Each roof monitor at an existing BOPF shop............................. The opacity of secondary emissions
from each BOPF shop, determined
according to the performance test
procedures in Sec. 63.7823(d),
did not exceed 20 percent (3-
minute average).13. Each roof monitor at a new BOPF shop................................... a. The opacity of the highest set
of 6-minute averages from each
BOPF shop housing a bottom-blown
BOPF, determined according to the
performance test procedures in
Sec. 63.7823(d), did not exceed
20 percent and the second highest
set of 6-minute averages did not
exceed 10 percent; or
b. The opacity of the highest set
of 3-minute averages from each
BOPF shop housing a top-blown
BOPF, determined according to the
performance test procedures in
Sec. 63.7823(d), did not exceed
20 percent and the second highest
set of 3-minute averages did not
exceed 10 percent.---------------------------------------------------------------------------------------------------------------- [68 FR 27663, May 20, 2003, as amended at 71 FR 39589, July 13, 2006]
Sec. Table 3 to Subpart FFFFF of Part 63--Continuous Compliance With
Emission and Opacity Limits
As required in Sec. 63.7833(a), you must demonstrate continuous compliance with the emission and opacity limits according to the following table: ------------------------------------------------------------------------
You must demonstrate continuous
For . . . compliance by . . .------------------------------------------------------------------------1. Each windbox exhaust stream at an a. Maintaining emissions of
existing sinter plant. particulate matter at or below
0.4 lb/ton of product sinter;
and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.2. Each windbox exhaust stream at a new a. Maintaining emissions of
sinter plant. particulate matter at or below
0.3 lb/ton of product sinter;
and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.3. Each discharge end at an existing a. Maintaining emissions of
sinter plant. particulate matter from one or
more control devices at or
below 0.02 gr/dscf; and
b. Maintaining the opacity of
secondary emissions that exit
any opening in the building or
structure housing the
discharge end at or below 20
percent (6-minute average);
and
c. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.4. Each discharge end at a new sinter a. Maintaining emissions of
plant. particulate matter from one or
more control devices at or
below 0.01 gr/dscf; and
b. Maintaining the opacity of
secondary emissions that exit
any opening in the building or
structure housing the
discharge end at or below 10
percent (6-minute average);
and
c. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.5. Each sinter cooler at an existing a. Maintaining the opacity of
sinter plant. emissions that exit any sinter
cooler at or below 10 percent
(6-minute average); and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.6. Each sinter cooler at a new sinter a. Maintaining emissions of
plant. particulate matter at or below
0.1 gr/dscf; and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.7. Each casthouse at an existing blast a. Maintaining emissions of
furnace. particulate matter from a
control device at or below
0.01 gr/dscf; and
b. Maintaining the opacity of
secondary emissions that exit
any opening in the casthouse
or structure housing the
casthouse at or below 20
percent (6-minute average);
and
c. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.8. Each casthouse at a new blast a. Maintaining emissions of
furnace. particulate matter from a
control device at or below
0.003 gr/dscf; and
b. Maintaining the opacity of
secondary emissions that exit
any opening in the casthouse
or structure housing the
casthouse at or below 15
percent (6-minute average);
and
c. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.9. Each BOPF at a new or existing BOPF a. Maintaining emissions of
shop. particulate matter from the
primary control system for a
BOPF with a closed hood system
at or below 0.03 gr/dscf; and
b. Maintaining emissions of
particulate matter from the
primary control system for a
BOPF with an open hood system
at or below 0.02 gr/dscf for
an existing BOPF shop or 0.01
gr/dscf for a new BOPF shop;
and
c. Maintaining emissions of
particulate matter from a
control device applied solely
to secondary emissions from a
BOPF at or below 0.01 gr/dscf
for an existing BOPF shop or
0.0052 gr/dscf for a new BOPF
shop; and
d. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.10. Each hot metal transfer, skimming, a. Maintaining emissions of
and desulfurization operation at a new particulate matter from a
or existing BOPF shop. control device at or below
0.01 gr/dscf at an existing
BOPF or 0.003 gr/dscf for a
new BOPF; and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.11. Each ladle metallurgy operation at a. Maintaining emissions of
a new or existing BOPF shop. particulate matter from a
control device at or below
0.01 gr/dscf at an existing
BOPF shop or 0.004 gr/dscf for
a new BOPF shop; and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.12. Each roof monitor at an existing a. Maintaining the opacity of
BOPF shop. secondary emissions that exit
any opening in the BOPF shop
or other building housing the
BOPF shop or shop operation at
or below 20 percent (3-minute
average); and
b. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.13. Each roof monitor at a new BOPF a. Maintaining the opacity (for
shop. any set of 6-minute averages)
of secondary emissions that
exit any opening in the BOPF
shop or other building housing
a bottom-blown BOPF or shop
operation at or below 10
percent, except that one 6-
minute period greater than 10
percent but no more than 20
percent may occur once per
steel production cycle; and
b. Maintaining the opacity (for
any set of 3-minute averages)
of secondary emissions that
exit any opening in the BOPF
shop or other building housing
a top-blown BOPF or shop
operation at or below 10
percent, except that one 3-
minute period greater than 10
percent but less than 20
percent may occur once per
steel production cycle; and
c. Conducting subsequent
performance tests at the
frequencies specified in Sec.
63.7821.------------------------------------------------------------------------ [71 FR 39590, July 13, 2006]
Sec. Table 4 to Subpart FFFFF of Part 63--Applicability of General
Provisions to Subpart FFFFF
As required in Sec. 63.7850, you must comply with the requirements of the NESHAP General Provisions (40 CFR part 63, subpart A) shown in the following table: ----------------------------------------------------------------------------------------------------------------
Citation Subject Applies to Subpart FFFFF Explanation----------------------------------------------------------------------------------------------------------------Sec. 63.1......................... Applicability.......... Yes.Sec. 63.2......................... Definitions............ Yes.Sec. 63.3......................... Units and Abbreviations Yes.Sec. 63.4......................... Prohibited Activities.. Yes.Sec. 63.5......................... Construction/ Yes.
Reconstruction.Sec. 63.6(a), (b), (c), (d), (e), Compliance with Yes.
(f), (g), (h)(2)(ii)-(h)(9). Standards and
Maintenance
Requirements.Sec. 63.6(h)(2)(i)................ Determining Compliance No...................... Subpart FFFFF specifies
with Opacity and VE methods and procedures
Standards. for determining
compliance with
opacity emission and
operating limits.Sec. 63.6(i)...................... Extension of Compliance Yes.....................
with Emission
Standards.Sec. 63.6(j)...................... Exemption from Yes.....................
Compliance with
Emission Standards.Sec. 63.7(a)(1)-(2)............... Applicability and No...................... Subpart FFFFF and
Performance Test Dates. specifies performance
test applicability and
dates.Sec. 63.7(a)(3), (b), (c)-(h)..... Performance Testing Yes.....................
Requirements.Sec. 63.8(a)(1)-(3), (b), (c)(1)- Monitoring Requirements Yes..................... CMS requirements in
(3), (c)(4)(i)-(ii), (c)(5)-(6), Sec. Sec.
(c)(7)-(8), (f)(1)-(5), (g)(1)-(4). 63.8(c)(4)(i)-(ii),
(7)-(8), (f)(1)-(5), (g)(1)-(4). 63.8(c)(4)(i)-(ii),
(c)(5)-(6), (d), and
(5)-(6), (d), and
(e) apply only to
COMS.Sec. 63.8(a)(4)................... Additional Monitoring No...................... Subpart FFFFF does not
Requirements for require flares.
Control Devices in
Sec. 63.11.Sec. 63.8(c)(4)................... Continuous Monitoring No...................... Subpart FFFFF specifies
System Requirements. requirements for
operation of CMS.Sec. 63.8(f)(6)................... RATA Alternative....... No......................Sec. 63.8(g)(5)................... Data Reduction......... No...................... Subpart FFFFF specifies
data reduction
requirements.Sec. 63.9......................... Notification Yes..................... Additional
Requirements. notifications for CMS
in Sec. 63.9(g)
apply only to COMS.Sec. 63.10(a), (b)(1), (b)(2)(i)- Recordkeeping and Yes..................... Additional records for
(xii), (b)(2)(xiv), (b)(3), (c)(1)- Reporting Requirements. CMS in Sec.
(6), (c)(9)-(15), (d), (e)(1)-(2), 63.10(c)(1)-(6), (9)-
(e)(4), (f). (15), and reports in
(4), (f). (15), and reports in
Sec. 63.10(d)(1)-(2)
apply only to COMS.
Sec. 63.10(b)(2) (xiii)........... CMS Records for RATA No......................
Alternative.Sec. 63.10(c)(7)-(8).............. Records of Excess No...................... Subpart FFFFF specifies
Emissions and record requirements.
Parameter Monitoring
Exceedances for CMS.Sec. 63.10(e)(3).................. Excess Emission Reports No...................... Subpart FFFFF specifies
reporting requirementsSec. 63.11........................ Control Device No...................... Subpart FFFFF does not
Requirements. require flares.Sec. 63.12........................ State Authority and Yes.
Delegations.Sec. 63.13-Sec. 63.15........... Addresses, Yes.
Incorporation by
Reference,
Availability of
Information.---------------------------------------------------------------------------------------------------------------- [68 FR 27663, May 20, 2003, as amended at 71 FR 39591, July 13, 2006] Subpart GGGGG_National Emission Standards for Hazardous Air Pollutants:
Site Remediation
Source: 68 FR 58190, Oct. 8, 2003, unless otherwise noted.
What This Subpart Covers