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Technical Support Document, Permit Number: 12300410-101 Page 1 of 14
Technical Support Document
for Draft Air Emission Permit No. 12300410-101
This technical support document (TSD) is intended for all parties interested in the draft permit and to meet the requirements that have been set forth by the federal and state regulations (40 CFR § 70.7(a)(5) and Minn. R. 7007.0850, subp. 1). The purpose of this document is to provide the legal and factual justification for each applicable requirement or policy decision considered in the preliminary determination to issue the draft permit. 1. General information
1.1 Applicant and stationary source location Table 1. Applicant and source address
Applicant/Address Stationary source/Address (SIC Code: 2631 - Paperboard Mills)
WestRock Corp 504 Thrasher St Norcross, Georgia 30091
WestRock MN Corp 2250 Wabash Ave Saint Paul, MN 55114
Contact: Amber Mohr Phone: 651-641-4524
1.2 Facility description WestRock manufactures 100 percent recycled corrugated medium and boxboard at the St. Paul facility. The paper products are manufactured entirely from pre- and post-consumer corrugated board, white paper, newsprint, and boxboard. The papermaking processes are not a significant source of emissions, except for VOC emissions. The VOC emissions from the papermaking are primarily from material used for cleaning the papermaking machines, as well as from additives added to the paper.
Process steam is provided by three on-site boilers. The boilers are allowed to burn natural gas. Boilers 2 and 3 are allowed to burn fuel oil (No. 2 or No. 6) during periods of gas curtailment or gas supply interruptions. The boilers are sources of particulate matter, nitrogen oxides, sulfur dioxide, carbon monoxide, VOC, and HAP emissions.
1.3 Description of the activities allowed by this permit action
This permit action is a Part 70 Reissuance.
1.4 Description of notifications and applications included in this action Table 2. Notifications and applications included in this action
Date received Application/Notification type and description 11/24/2015 Administrative Amendment (IND20150002) 10/15/2007 Part 70 Reissuance (IND20070001) 11/24/2015 Part 70 Reissuance (IND20150003)
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1.5 Facility emissions
Table 3. Total facility potential to emit summary
*Not repo *Not reported in Minnesota emission inventory. 1) Limited PTE amount is a result of calculations based on burning No. 6 fuel oil for 8760 hours. Facility is limited to burning natural gas except during periods of gas curtailment or gas supply interruptions, so actual SO2 emissions are very low.
Table 4. Facility classification
Classification Major Synthetic minor/area Minor/Area New Source Review X Part 70 X Part 63 X
1.6 Changes to permit The permit does not authorize any specific modifications, however, the MPCA has a combined operating and construction permitting program under Minnesota Rules Chapter 7007, and under Minn. R. 7007.0800, the MPCA has authority to include additional requirements in a permit. Under that authority, the following changes to the permit are also made through this permit action: · The permit has been updated to reflect current MPCA templates and standard citation formatting. · Completed requirements and the requirements for equipment that has been removed have been
deleted. · Some requirements have been reordered to help with clarity (i.e., similar requirements are grouped). · The Boilers group (COMG 1) limit for PM has been removed, along with the associated recordkeeping.
The current limited PTE is less than the previous limit of 285 tpy. · The requirement to provide a notification of installation of fuel oil storage capacity has been removed
from COMG 1. · The requirement to use COMS to measure opacity emissions at the Boilers group has been removed
(further discussion in technical section). · Performance tests for particulate matter have been moved from the Boilers group to Boiler 2 (EQUI 11)
and Boiler 3 (EQUI 12). · Boiler 1 (EQUI 10) has been decommissioned and is no longer in use at the facility. · Boiler 4 (EQUI 1) is limited to burning only natural gas and the requirement for alternative venting has
been removed. Boiler 4 performance testing requirements have been removed because it will no longer burn fuel oil.
· The Boiler 4 alternative operating scenarios for venting emissions have been removed. This boiler will always vent emissions to STRU 11.
· The CorMed web welder (EQUI 17) has been added to the permit because it is the affected source for 40 CFR pt. 63, subp. JJJJ; otherwise, this unit would be considered an insignificant activity.
PM tpy
PM10 tpy
PM2.5 tpy
SO2 tpy
NOx tpy
CO tpy
CO2e tpy
VOC tpy
Single HAP tpy
All HAPs tpy
Total facility limited potential emissions
274 191 138 27501 730 178 4.24E5 182 14.3 77.5
Total facility actual emissions (2015)
4.01 4.01 1.50 0.676 313 94.7 * 115 *
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2. Regulatory and/or statutory basis
2.1 New source review (NSR)
The facility is an existing major source under New Source Review regulations. No changes are authorized by this permit.
2.2 Part 70 permit program The facility is a major source under the Part 70 permit program.
2.3 New source performance standards (NSPS) The Permittee has stated that no New Source Performance Standards apply to the operations at this facility. All boilers at the facility were installed prior to the dates listed in 40 CFR § 60.40 and 40 CFR § 60.40b.
2.4 National emission standards for hazardous air pollutants (NESHAP) The facility is an existing major source of HAPs and is subject to the following NESHAPs: • 40 CFR pt. 63, subp. JJJJ - Paper and Other Web Coating (EQUI 70)
• 40 CFR pt. 63, subp. DDDDD - Industrial, Commercial, and Institutional Boilers and Process Heaters (EQUI 1, EQUI 11, EQUI 12)
2.5 Minnesota State Rules
Portions of the facility are subject to the following Minnesota Standards of Performance: · Minn. R. 7011.0510 Standards of Performance for Existing Indirect Heating Equipment · Minn. R. 7011.0610 Standards of Performance for Fossil-Fuel-Burning Direct Heating Equipment · Minn. R. 7011.0710 Standards of Performance for Pre-1969 Industrial Process Equipment · Minn. R. 7011.0715 Standards of Performance for Post-1969 Industrial Process Equipment
Table 5. Regulatory overview of facility
Subject item* Applicable regulations Rationale COMG 1 (Boilers)
40 CFR pt. 63, subp. DDDDD NESHAP for Industrial, Commercial, and Institutional Boilers and Process Heaters · This group is made up of industrial boilers that are located
at a major source of HAPs EQUI 1 (Boiler 4 – tangential fired)
40 CFR pt. 63, subp. DDDDD NESHAP for Industrial, Commercial, and Institutional Boilers and Process Heaters · Fits subcategory: units designed to burn gas 1 fuels; · Derated max capacity of 232 MMBtu/hr
Minn. R. 7011.0510 Standards of Performance for Existing Indirect Heating Equipment Determination of applicable limit from rule: · the unit started operation in 1964; · within Minneapolis-St. Paul Air Quality Control Region; · input of all heating units at this location is greater than
250 MMBtu/hr
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Subject item* Applicable regulations Rationale EQUI 6 (Clay Coater Dryer)
Minn. R. 7011.0610 Standards of Performance for Fossil-Fuel-Burning Direct Heating Equipment · within Minneapolis-St. Paul Air Quality Control Region; · input of all heating units at this location is greater than
250 MMBtu/hr
EQUI 10 (Boiler 1) Minn. R. 7007.0800, subp. 2 This boiler has been decommissioned. The Permittee shall not operate this boiler.
Boiler 1 remains on site. It has been decommissioned, is physically inoperable, and is no longer in use. Because of the size of the boiler, WestRock does not have plans to remove the boiler at this time, so it is still listed in Tempo with a permit requirement that states it cannot operated.
EQUI 11 (Boiler 2 – normal fired)
40 CFR pt. 63, subp. DDDDD NESHAP for Industrial, Commercial, and Institutional Boilers and Process Heaters · Fits subcategory: units designed to burn gas 1 fuels; · Max capacity of 200 MMBtu/hr
Minn. R. 7011.0510 Standards of Performance for Existing Indirect Heating Equipment Determination of applicable limit from rule: · the unit started operation in 1947; · the facility is located in St. Paul; · input of all heating units at this location is greater than
250 MMBtu/hr EQUI 12 (Boiler 3 – normal fired)
40 CFR pt. 63, subp. DDDDD NESHAP for Industrial, Commercial, and Institutional Boilers and Process Heaters · Fits subcategory: units designed to burn gas 1 fuels; · Max capacity of 200 MMBtu/hr
Minn. R. 7011.0510 Standards of Performance for Existing Indirect Heating Equipment Determination of applicable limit from rule: · the unit started operation in 1949; · the facility is located in St. Paul; · input of all heating units at this location is greater than
250 MMBtu/hr EQUI 66 (CorMed Paper Machine 4)
Minn. R. 7011.0710 Standards of Performance for Pre-1969 Industrial Process Equipment. · the unit started operation in 1955
EQUI 67 (CorMed Paper Machine 5)
Minn. R. 7011.0710 Standards of Performance for Pre-1969 Industrial Process Equipment. · the unit started operation in 1955
EQUI 68 (Boxboard Mill 1)
Minn. R. 7011.0710 Standards of Performance for Pre-1969 Industrial Process Equipment. · the unit started operation in 1908
EQUI 69 (Boxboard Mill 2)
Minn. R. 7011.0710 Standards of Performance for Pre-1969 Industrial Process Equipment. · the unit started operation in 1908
EQUI 70 (CorMed Web Welder)
40 CFR pt. 63, subp. JJJJ NESHAP for Paper and Other Web Coating · unit is located at a major source of HAPs at which web
coating lines are operated Minn. R. 7011.0715 Standards of Performance for Post-1969 Industrial Process
Equipment. · Unit started operation in August 1969
*Location of the requirement in the permit (e.g., EQUI 1, STRU 2, etc.).
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3. Technical information
3.1 Additional information on changes to permit
Boilers group (COMG 1) The group particulate matter limit has been removed, along with the associated recordkeeping. With the removal of Boiler 1, and Boiler 4 being limited to natural gas, the current limited PTE is less than the previous PM limit of 285 tpy. The limit is no longer necessary.
The requirement to provide a notification of installation of fuel oil storage capacity has been removed from COMG 1. This requirement is no longer needed because fuel oil is limited by NESHAP DDDDD to periods of gas curtailment or gas supply interruptions. The New Source Review section of the permit action 003 TSD discusses this issue if there is a need to revisit the requirement in the future. Boilers 2 and 3 (EQUIs 11 and 12) The MPCA has determined that the use of COMs for Boilers 2 and 3 is no longer necessary. These boilers will combust primarily natural gas and the use of natural gas is unlikely to create significant particulate matter or opacity emissions. For the purposes of 40 CFR pt. 63, subp. DDDDD applicability, these boilers are classified as units designed to burn gas 1 fuels, and are equipped with continuous oxygen trim systems. These boilers are allowed to burn fuel oil during periods of gas curtailment or gas supply interruptions; therefore, WestRock will perform performance tests, while burning No. 6 fuel oil to ensure compliance with particulate matter and opacity limits.
In order for Boilers 2 and 3 to be treated as gas boilers under 40 CFR pt. 63, subp. DDDDD, they must limit their fuel use to only natural gas, except during gas curtailment or gas supply interruptions and up to 48 of hours per year for testing and training purposes. Because the rule does not limit the amount of other fuels that can be combusted during gas curtailment or gas supply interruptions (because the duration of such events is not predictable), the facility’s limited potential to emit is calculated as if these two boilers were to combust No. 6 fuel oil all year, for 8760 hours. This calculation results in a PTE for SO2 of 2750 tons per year. The likelihood of a year-long gas curtailment or supply interruption is very low, so the MPCA and WestRock explored options to limit SO2. Switching the boilers to a lower-sulfur-content No. 2 fuel oil is not ideal because it would require a large capital investment for WestRock. Setting an arbitrary limit of 100 or 200 tons per year is also not ideal because it would constrain WestRock to only a few weeks of operating on No. 6 fuel oil; while a lengthy gas curtailment or interruption is unlikely, the duration of such an unlikely event is unpredictable. It was agreed that a facility-wide SO2 limit is not needed. Fuel oil has rarely been used at this facility; the last time that No. 6 fuel oil was burned at the facility was several years ago, for a few weeks. The MPCA is confident that WestRock’s fuel oil usage is adequately limited by the terms of Subpart DDDDD and will not have a negative impact on the surrounding air quality. In the event that natural gas is not available for an extended period of time, many permitted facilities across Minnesota will be affected, not just WestRock.
It is not necessary to conduct SO2 performance testing to demonstrate compliance with the permit limit, because the sulfur content of fuel oil is limited. No more than two pounds of SO2 can be created per one pound of sulfur. Based on the maximum capacity of the boilers, the maximum SO2 that can be produced is less than the applicable limit. Boiler 4 (EQUI 4)
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The MPCA has determined that the requirement to use COMs for Boiler 4 can be removed from the permit. Because this boiler will combust only natural gas, it is not anticipated to result in significant particulate matter emissions.
Since WestRock has decided to limit their allowable fuels to natural gas for Boiler 4, the performance testing requirements for particulate matter have been taken out of the permit, along with alternative operating scenarios (AOS) for venting emissions. The previous permit allowed for burning fuel oil if the emissions were routed to STRU 10. These AOS requirements are no longer necessary, as this boiler will always vent emissions to STRU 11. Paper Machine capacities (EQUIs 13-16) TSD Attachment 3 is a letter that was sent by the Permittee in May 2017. This letter is in response to an MPCA inquiry as to why the maximum design capacities for all paper and boxboard machines that the MPCA has listed for the facility differ from the maximum throughputs the Permittee used to calculate PTE for these machines.
Wet Cyclone (Delta designation CE 003) WestRock operates a wet cyclonic separator. This cyclonic separator controls a piece of equipment that qualifies as insignificant without the use of control equipment, or without accounting for control efficiency. The piece of equipment (now IA) was classified as an emission unit in previous permits. WestRock chooses to operate this control equipment, but it is not required by the permit, nor is it listed in the Tempo facility description.
3.2 Calculations of potential to emit (PTE) Attachment 1 to this TSD summarizes the PTE of the Facility, along with detailed spreadsheets and supporting information prepared by the MPCA and the Permittee.
3.3 Dispersion modeling WestRock performed full-facility air dispersion modeling as part of past permit actions. WestRock is not required to perform dispersion modeling with this reissuance.
To ensure compliance with ambient air standards, there was a limit of 285 tons of PM per year, on a 12-month rolling average, for the four boilers. As discussed previously in this document, Boiler 1 is no longer in use, and as a result, the facility’s PM limited potential is less than the previous PM group Boilers limit. That limit has been removed from the permit.
Additionally, Boiler 4 was restricted to combust only natural gas until the exhaust duct work was reconfigured for the boiler to exhaust to SV001 (currently STRU 10). While burning natural gas, Boiler 4 would only exhaust to SV002 (currently STRU 11). This is no longer a concern, as this boiler is limited to burning only natural gas and will always vent to STRU 11.
The parameters listed in Appendix D of the permit describe the operation of the facility at maximum capacity. The flow rates and temperatures listed in Appendix D are the minimum dispersion at the maximum emission rates. The MPCA does not require any specific compliance demonstration with these parameters because they are worst-case conditions. The purpose of listing the parameters in the permit appendix is to provide a benchmark for determining if additional modeling is required. The last chart is included at the request of the Permittee to show that the emission factors used at the time of modeling were for particulate matter, and not PM10. The emission factors for PM10 are less than those for particulate matter. The
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correction that is noted for Boiler 4 NOx is due to the different emission factors for normal firing vs. tangential firing.
3.4 Monitoring
In accordance with the Clean Air Act, it is the responsibility of the owner or operator of a facility to have sufficient knowledge of the facility to certify that the facility is in compliance with all applicable requirements. In evaluating the monitoring included in the permit, the MPCA considered the following:
· the likelihood of the facility violating the applicable requirements; · whether add-on controls are necessary to meet the emission limits; · the variability of emissions over time; · the type of monitoring, process, maintenance, or control equipment data already available for the
emission unit; · the technical and economic feasibility of possible periodic monitoring methods; and · the kind of monitoring found on similar units elsewhere.
Table 6 summarizes the monitoring requirements. Table 6. Monitoring
Subject Item* Requirement (basis) What is the monitoring? Why is this monitoring adequate? EQUI 1 (Boiler 4 – tangential fired)
Particulate Matter <= 0.40 pounds per million Btu heat input. The potential to emit from the unit is 0.0075 lb/MMBtu. [Minn. R. 7011.0510, subp. 1]
None This unit uses natural gas; therefore, the likelihood of violating the emission limit is very small. Design based PTE, using AP-42, is 0.0075 lb/MMBtu.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0510, subp. 2]
None Testing not warranted for Natural Gas boiler. The standard is not expected to be exceeded.
Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 0.00059 lb/MMBtu. [Minn. R. 7011.0510, subp. 1]
None This unit uses natural gas; therefore, the likelihood of violating the emission limit is very small. Design based PTE, using AP-42, is 0.00059 lb/MMBtu.
EQUI 6 (Clay Coater Dryer)
Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas. [Minn. R. 7011.0610, subp. 1(A)(1)]
None This unit uses natural gas; therefore, the likelihood of violating the emission limit is very small.
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Subject Item* Requirement (basis) What is the monitoring? Why is this monitoring adequate?
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0610, subp. 1(A)(2)]
None This unit uses natural gas; therefore, the likelihood of violating the limit is very small.
Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 0.00060 lb/MMBtu. [Minn. R. 7011.0610, subp. 2]
None This unit uses natural gas; therefore, the likelihood of violating the emission limit is very small. Design based PTE, using AP-42, is 0.00060 lb/MMBtu.
EQUI 11 (Boiler 2 – normal fired)
Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 1.57 lb/MMBtu. [Minn. R. 7011.0510, subp. 1]
Sulfur content fuel certification
Potential SO2 emissions based on a mass balance of the maximum fuel usage and sulfur content are less than the limit.
Particulate Matter <= 0.40 pounds per million Btu heat input. The potential to emit from the unit is 0.12 lb/MMBtu. [Minn. R. 7011.0510, subp. 1]
Performance testing Potential PM emissions when using the worst case allowed fuel are approximately 0.12 lb/MMBtu; violation of this limit is unlikely. However, in past permit actions, several commenters suggested that PM testing be done on the boiler. Since the emission factors used are an average, and the boilers are uncontrolled, MPCA has decided that testing is warranted for combustion of fuel oil. Performance testing is due every 60 months, as past test results have been less than 60% of the limit.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0510, subp. 2]
Performance testing This unit was previously monitored by a continuous opacity monitor and was given permission by the MPCA to cease operation of this monitor. This unit is now limited to burning natural gas, and is allowed to burn fuel oil during periods of gas curtailment or gas supply interruptions. Performance testing has been added to the permit to ensure compliance with the standard while burning fuel oil.
EQUI 12 (Boiler 3 – normal fired)
Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 1.57 lb/MMBtu. [Minn. R. 7011.0510, subp. 1]
Sulfur content fuel certification
Potential SO2 emissions based on a mass balance of the maximum fuel usage and sulfur content are less than the limit.
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Subject Item* Requirement (basis) What is the monitoring? Why is this monitoring adequate?
Particulate Matter <= 0.40 pounds per million Btu heat input. The potential to emit from the unit is 0.12 lb/MMBtu. [Minn. R. 7011.0510, subp. 1]
Performance testing Potential PM emissions when using the worst case allowed fuel are approximately 0.12 lb/MMBtu; violation of this limit is unlikely. However, in past permit actions, several commenters suggested that PM testing be done on the boiler. Since the emission factors used are an average, and the boilers are uncontrolled, MPCA has decided that testing is warranted for combustion of fuel oil. Performance testing is due every 60 months, as past test results have been less than 60% of the limit.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0510, subp. 2]
Performance testing This unit was previously monitored by a continuous opacity monitor and was given permission by the MPCA to cease operation of this monitor. This unit is now limited to burning natural gas, and is allowed to burn fuel oil during periods of gas curtailment or gas supply interruptions. Performance testing has been added to the permit to ensure compliance with the standard while burning fuel oil.
EQUI 66 (CorMed Paper Machine 4)
Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas. [Minn. R. 7011.0710, subp. 1(A)]
The Permittee shall perform proper maintenance of the paper machine so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, particulate matter emissions are not expected.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0710, subp. 1(B)]
The Permittee shall perform proper maintenance of the paper machine so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, the standard is not expected to be exceeded.
EQUI 67 (CorMed Paper Machine 5)
Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas. [Minn. R. 7011.0710, subp. 1(A)]
The Permittee shall perform proper maintenance of the paper machine so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, particulate matter emissions are not expected.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0710, subp. (1(B) )]
The Permittee shall perform proper maintenance of the paper machine so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, the standard is not expected to be exceeded.
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Subject Item* Requirement (basis) What is the monitoring? Why is this monitoring adequate? EQUI 68 (Boxboard Mill 1)
Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas. [Minn. R. 7011.0710, subp. 1(A)]
The Permittee shall perform proper maintenance of the boxboard mill so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, particulate matter emissions are not expected.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0710, subp. 1(B)]
The Permittee shall perform proper maintenance of the boxboard mill so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, the standard is not expected to be exceeded.
EQUI 69 (Boxboard Mill 1)
Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas. [Minn. R. 7011.0710, subp. 1(A)]
The Permittee shall perform proper maintenance of the boxboard mill so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, particulate matter emissions are not expected.
Opacity <= 20 percent opacity except for one six-minute period per hour of not more than 60 percent opacity. [Minn. R. 7011.0710, 1(B)]
The Permittee shall perform proper maintenance of boxboard mill so as to prevent excessive amounts of particulate matter from being emitted.
With proper operation and maintenance of the equipment, the standard is not expected to be exceeded.
EQUI 70 (CorMed Web Welder)
HAPs - Organic <= 20 percent of the mass of coating solids applied for each month. [40 CFR 63.3320(b), Minn. R. 7011.7385]
Recordkeeping, material contents records to ensure that HAPS are less than 4% coating material or less than 20% coating solids
The standard is not expected to be exceeded.
Opacity <= 20 percent opacity. [Minn. R. 7011.0715, subp. 1(B)]
None The standard is not expected to be exceeded.
Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas. [Minn. R. 7011.0715, subp. 1(A)]
None PTE calculations show that this unit qualifies as an insignificant emission unit. It is listed in the permit because it is the affected source for 40 CFR pt. 62, subp. JJJJ. The unit is not expected to exceed the standard for particulate matter.
*Location of the requirement in the permit (e.g., EQUI 1, STRU 2, etc.).
3.5 Insignificant activities WestRock MN Corp has several operations which are classified as insignificant activities under the MPCA’s permitting rules. These are listed in Appendix A to the permit. The permit is required to include periodic monitoring for all emissions units, including insignificant activities, per EPA guidance. The insignificant activities at this Facility are only subject to general applicable
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requirements. Using the criteria outlined earlier in this TSD, the following table documents the justification why no additional periodic monitoring is necessary for the current insignificant activities. See Attachment 2 of this TSD for PTE information for the insignificant activities. Table 7. Insignificant activities
Insignificant activity General applicable emission limit Discussion
Emissions from a laboratory, as defined in Minn. R. 7007.1300, subp. 3(G) [Analytical and QA/QC labs]
PM, variable depending on airflow Opacity <= 20% (Minn. R. 7011.0710/0715)
These are small labs, testing areas, etc.; it is highly unlikely that they could violate the applicable requirement.
Brazing, soldering or welding equipment [Eight welders, plasma cutter]
PM, variable depending on airflow Opacity <= 20% (Minn. R. 7011.0710/0715)
For these units, based on EPA published emissions factors, it is highly unlikely that they could violate the applicable requirement. In addition, these units are typically operated and vented inside a building, so testing for PM or opacity is not feasible.
Blueprint copiers and photographic processes
Opacity <= 20% (Minn. R. 7011.0105 or 7011.0110)
There is the potential for emissions from solvents, toners, etc.; these machines are typically operated and vented inside a building, making testing not feasible.
Individual units with potential emissions less than 2000 lb/year of certain pollutants [Various emissions sources]
PM, variable depending on airflow Opacity < 20% (with exceptions) (Minn. R. 7011.0710/0715)
Calculations have been provided to show that these units/activities are insignificant under Minn. R. 7007.1300, subp. 3(I).
Fugitive dust emissions from unpaved entrance roads and parking lots [Unpaved parking lot]
Requirement to take reasonable measures to prevent PM from becoming airborne (Minn. R. 7011.0150)
Individual units with potential or actual emissions meeting the criteria in Minn. R. 7007.1300, subp. 4(A)-(D) [Various activities allowed as insignificant because they have been listed since permit action 001]
PM, variable depending on airflow Opacity < 20% (with exceptions) (Minn. R. 7011.0710/0715)
Equipment venting PM/PM10 inside a building, provided that emissions from the equipment are: a). filtered through an air cleaning system; and b). vented inside of the building 100% of the time [Sheeter]
PM, variable depending on airflow Opacity <= 20% (Minn. R. 7011.0710/0715)
These emissions are vented inside a building, making performance testing difficult or impossible. It is highly unlikely that they could violate the applicable requirement.
3.6 Permit organization
This permit meets the MPCA Tempo Guidance for ordering and grouping of requirements as well as the use of permit appendices.
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In this permit, federal requirements from NESHAPs are included in two different formats. The requirements for 40 CFR pt. 63, subp. DDDDD are incorporated into the permit as individual permit requirements, which was historically MPCA’s standard practice. However, the requirements for 40 CFR pt. 63, subp. JJJJ and the associated General Provisions in 40 CFR pt. 63, subp. A are included in a different way. For these rules, limits and submittal/actions are included individually in the permit like the other standards. For the remaining portions of the rule, a requirement in Section 5 of the permit lists the citations of all of the applicable parts of the standard along with a reference to the permit appendix where the full text of the standard is included. 40 CFR pt. 63, subp. A and 40 CFR pt. 63, subp. JJJJ are included in Appendices B and C, respectively.
3.7 Comments received This Section will be completed after the referenced review periods. Public Notice Period: [start date] – [end date] EPA Review Period: [start date] – [end date] Comments were [not] received from the public during the public notice period. [The comments received did [not] include adverse comments on any applicable requirements of the permit. Changes to the permit were [not] made as a result of the comments. [Provide summary of changes] The revised permit was sent to EPA for their 45-day review on [date]. Comments were [not] received from EPA during their review period. Changes to the permit were [not] made as a result of the comments. [Provide summary of changes.]
4. Permit fee assessment This permit action is the reissuance of an individual Part 70; therefore, no application fees apply under Minn. R. 7002.0016, subp. 1. There is a rolled-in administrative amendment; the fee was paid at the time the application was submitted.
5. Conclusion Based on the information provided by WestRock MN Corp the MPCA has reasonable assurance that the proposed operation of the emission facility, as described in the Air Emission Permit No. 12300410-101 and this TSD, will not cause or contribute to a violation of applicable federal regulations and Minnesota Rules. Staff members on permit team: Brady Krueger (permit engineer])
Adriane Lorsung (peer reviewer) Beckie Olson (permit writing assistant) Laurie O’Brien (administrative support) Brent Rohne (compliance and enforcement) Andy Place (STAMP) Marc Severin (STAMP)
TEMPO360 Activities: Administrative Amendment (IND20150002), Part 70 Reissuance (IND20070001), Part 70 Reissuance (IND20150003)
Attachments: 1. PTE summary and calculation spreadsheets
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2. Subject item inventory and facility requirements 3. Paper/Boxboard machines production rates letter
Pollutant
Subject ItemCategoryDescription Subject Item Type Description Subject Item ID
Subject ItemDesignation Subject Item Description
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
1,1,1-Trichloroethane Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
1,4-Dichlorobenzene(para-)
Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
2-Methylnaphthalene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Acenaphthene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Acenaphthylene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Acetaldehyde Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Anthracene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Antimony compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Arsenic compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Benzene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Benzo(ghi)perylene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Beryllium Equipment Boiler EQUI10 EU001 Boiler 1 - normal fired
Beryllium Compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Biphenyl Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Cadmium compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Carbon Dioxide Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Carbon Dioxide Equivalent Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Carbon disulfide Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Carbon Monoxide Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Chloroform Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Chloromethane Equipment Other Emission Unit EQUI69 EU016 Boxboard Mill 2
Chromium compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Cobalt compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
00.00159900.0009440
0.0013780.0013780.00031470.0013780.0013780.00031470.0011950.0002729
00.00070600.00013960.00013963.188e-052.391e-0502.793e-062.793e-066.376e-07
00.00014290.00012320.00012322.813e-050.00012320.00012322.813e-05
01.714e-061.478e-061.478e-063.373e-071.478e-061.478e-063.373e-07
2.2892.2890.52262.3692.3690.54093.8813.8810.88614.2274.2270.9652
08.265e-067.125e-067.125e-061.627e-067.125e-067.125e-061.627e-06
00.0355700.0210
0.030660.030660.0070.030660.030660.007
0.00019920.0089424.549e-0500.005280
0.0077090.0077090.001760.0077090.0077090.001762.327e-052.327e-055.314e-060.0020920.001450.0004776
00.0012400.001250.001250.00028530.001250.001250.0002853
0.00024440.00024445.579e-0501.531e-05
1.32e-051.32e-053.013e-061.32e-051.32e-053.013e-06
00.0018000.0001883
0.00016240.00016243.707e-050.00016240.00016243.707e-050.026590.026590.0030710.027520.027520.0062840.021290.021290.0048610.026970.026970.0061590.0010960.0026960.0002502
00.001800.0023240.0023240.00053070.0023240.0023240.00053070.0001280.0001282.923e-05118,900168,20027,140145,000145,00033,110145,000145,00033,11013,88013,8803,170119,000168,80027,170145,500145,50033,230145,500145,50033,23013,90013,9003,1731.8811.8810.42951.9471.9470.44451.5061.5060.34391.9081.9080.435623.9133.875.459
049.42072.1472.1416.4772.1472.1416.479.7759.7752.2320.95450.95450.21790.98790.98790.22550.76420.76420.17450.96820.96820.22110.28930.28930.06605
0.0013950.0074040.000318400.00440
0.0063830.0063830.0014570.0063830.0063830.0014570.00016290.00016293.72e-058.368e-050.040781.911e-05
00.02410
PTE by pollutant
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Attachment 1: PTE summary and calculation spreadsheets
Pollutant
Subject ItemCategoryDescription Subject Item Type Description Subject Item ID
Subject ItemDesignation Subject Item Description
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Cobalt compounds Equipment BoilerEQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Cumene(Isopropylbenzene)
Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Dibenz[a,h]anthracene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dichloromethane(Methylene chloride)
Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
Ethylbenzene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Fluoranthene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Fluorene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Formaldehyde Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
HAPs - Total Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Hexane Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Hydrochloric acid Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Lead Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Manganese compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Mercury Equipment Boiler EQUI10 EU001 Boiler 1 - normal fired
Mercury Compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Methane Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Methanol Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Naphthalene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
EQUI1 EU004 Boiler 4 - tangential fired
0.035160.035160.0080270.035160.035160.0080279.775e-069.775e-062.232e-06
0.2730.2730.062320.28250.28250.06450.21850.21850.04990.27690.27690.06321
01.131e-059.753e-069.753e-062.227e-069.753e-069.753e-062.227e-060.28520.28520.65120.29520.29520.067390.22840.22840.05214
00.000430900.0002540
0.00037140.00037148.48e-050.00037140.00037148.48e-052.989e-063.279e-056.824e-072.827e-052.827e-056.453e-062.827e-052.827e-056.453e-063.491e-073.491e-077.971e-082.789e-063.028e-056.369e-072.61e-052.61e-055.96e-062.61e-052.61e-055.96e-063.258e-073.258e-077.439e-080.074720.22360.01706
00.1300.19270.19270.0440.19270.19270.044
0.0087280.0087280.0019930.7060.7060.16120.73070.73070.16680.56530.56530.12910.71620.71620.16351.8812.0710
01.2201.7861.78601.7861.78600.21980.2198016.416.4016.9816.98017.6417.64020.7720.7701.7931.7930.4094
01.0600.20950.20950.04782
00.94730.81660.81660.18640.81660.81660.1864
0.00049810.010230.000113700.006040
0.0088180.0088180.002010.0088180.0088180.0020135.819e-055.819e-051.328e-050.00037860.020328.643e-05
00.01200.017520.017520.0040.017520.017520.0044.422e-054.422e-051.01e-05
00.001800.0002590.00076555.914e-050.00065990.00065990.00015070.00065990.00065990.00015073.026e-053.026e-056.908e-06
2.246.7210.51155.7945.7941.3235.7945.7941.3230.26170.26170.059752.4192.4190.55232.5042.5040.57161.761.760.40192.232.230.5092
0.00060770.0076550.000138700.004520
0.0065990.0065990.0015070.0065990.0065990.0015077.099e-057.099e-051.621e-05
2.3242.3240.53062.4052.4050.54921.8611.8610.42482.3572.3570.5382
PTE by pollutant
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Pollutant
Subject ItemCategoryDescription Subject Item Type Description Subject Item ID
Subject ItemDesignation Subject Item Description
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Naphthalene Equipment Other Emission Unit EQUI69 EU016 Boxboard Mill 2Nickel compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Nitrogen Oxides Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Nitrous Oxide Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Particulate Matter Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Fugitive Paved Road FUGI1 FS001 Paved Roads
Phenol Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
PM < 2.5 micron Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
PM < 10 micron Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Fugitive Paved Road FUGI1 FS001 Paved Roads
Polycyclic organic matter Equipment Boiler EQUI10 EU001 Boiler 1 - normal fired
Propionaldehyde Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Pyrene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Selenium compounds Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Sulfur Dioxide Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Sulfuric Acid Mist Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Toluene Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Vinyl acetate (Acetic acid) Equipment Other Emission Unit EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Volatile OrganicCompounds
Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
0.0020920.57240.000477600.340
0.49350.49350.11270.49350.49350.1127
0.00024440.00024445.579e-05169.4216.838.67
0188.020274.5274.562.67274.5274.562.6711.6411.642.6570.2241.3440.051151.1591.1590.26461.1591.1590.2646
0.026170.026170.0059757.5711261.729
074.40108.6108.624.8108.6108.624.80.88440.88440.201910.7110.712.44511.0811.082.538.5738.5731.95710.8610.862.487.27.21.646
1.3421.3420.30651.3891.3890.31721.0751.0750.24541.3621.3620.31097.57157.21.72949.3149.3111.2649.3149.3111.260.88440.88440.20197.9817.9811.8228.268.261.8866.396.391.4598.0958.0951.8487.57182.41.729
048.66071.0471.0416.2271.0471.0416.220.88440.88440.20198.7168.7161.999.0219.0212.066.9786.9781.5938.8418.8412.0197.27.21.64600.01410
0.20430.20430.046650.21150.21150.048280.16360.16360.037350.20730.20730.04732
4.981e-062.879e-051.137e-062.482e-052.482e-055.667e-062.482e-052.482e-055.667e-065.819e-075.819e-071.328e-07
00.00462700.0090
0.0039890.0039890.00091070.0039890.0039890.00091070.59771,5950.1365
0942.101,3751,3753141,3751,375314
0.069820.069820.01594024.90
21.4621.464.921.4621.464.9
0.0033870.0420.000773300.02480
0.036210.036210.0082670.036210.036210.008267
0.00039570.00039579.033e-053.6963.6960.84393.8263.8260.87342.962.960.67573.753.750.85612.6342.6340.60132.452.450.55935.4791.4521.251
03.2404.7244.7241.078
PTE by pollutant
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Pollutant
Subject ItemCategoryDescription Subject Item Type Description Subject Item ID
Subject ItemDesignation Subject Item Description
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Volatile OrganicCompounds
Equipment BoilerEQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
Dryer/Oven, unknown firing meth..EQUI6 EU018 Clay Coater Dryer
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4
EQUI67 EU014 CorMed Paper Machine 5
EQUI68 EU015 Boxboard Mill 1
EQUI69 EU016 Boxboard Mill 2
Xylenes, Total Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired
EQUI10 EU001 Boiler 1 - normal fired
EQUI11 EU002 Boiler 2 - normal fired
EQUI12 EU003 Boiler 3 - normal fired
4.7244.7241.0780.640.640.146116.516.53.76717.0817.083.89960.2860.2813.7672.5272.5216.56
00.000745200.0004360
0.00064240.00064240.00014670.00064240.00064240.0001467
PTE by pollutant
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
H:\
Index HOURLY PTE SUMMARYClay Coater
Dryer All BoilerCorMed CorMed All (EU 018) Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil (GP001) FacilityPaper Paper Boxboard Boxboard Paper Maximum Mode No. 2 No. 6 Mode No. 2 No. 6 Mode No. 2 No. 6 Mode No. 2 No. 6 Maximum Maximum
Machine 4 Machine 5 Mill 1 Mill 2 Machines Emission Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Emission Emission(EU 013) (EU 014) (EU 015) (EU 016) (GP 004) Rate Mode Mode Mode Mode Mode Mode Mode Mode Mode Mode Mode Mode Rate Rate
Pollutant (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr) (lb/hr)Sulfur Dioxide N/A N/A N/A N/A N/A 0.016 0.081 69.48 215.09 0.12 101.43 314.00 0.12 101.43 314.00 0.14 117.66 364.24 1,207.33 1,207.35
Nitrogen Oxides N/A N/A N/A N/A N/A 2.66 37.61 23.49 42.93 54.90 34.29 62.67 54.90 34.29 62.67 38.67 39.77 49.49 217.75 220.41Carbon Monoxide N/A N/A N/A N/A N/A 2.23 11.28 4.89 4.57 16.47 7.14 6.67 16.47 7.14 6.67 5.46 8.29 7.73 52.51 54.74
PM (filterable) 1.01 1.04 0.81 1.02 3.88 0.050 0.26 1.96 15.62 0.37 2.86 22.80 0.37 2.86 22.80 0.43 3.31 26.44 87.65 91.58PM10 (filterable) 0.55 0.57 0.44 0.56 2.13 0.050 0.26 0.98 9.74 0.37 1.43 14.22 0.37 1.43 14.22 0.43 1.66 16.49 54.67 56.85PM2.5 (filterable) 0.38 0.40 0.31 0.39 1.48 0.050 0.26 0.23 6.34 0.37 0.34 9.26 0.37 0.34 9.26 0.43 0.40 10.74 35.60 37.13
PM (Condensable) 1.44 1.49 1.15 1.46 5.54 0.15 0.77 1.27 1.37 1.12 1.86 2.00 1.12 1.86 2.00 1.30 2.15 2.32 7.69 13.38PM Total 2.44 2.53 1.96 2.48 9.41 0.20 1.02 3.23 16.99 1.49 4.71 24.80 1.49 4.71 24.80 1.73 5.47 28.76 1.64 95.34 106.59
PM10 Total 1.99 2.06 1.59 2.02 7.66 0.20 1.02 2.25 11.11 1.49 3.29 16.22 1.49 3.29 16.22 1.73 3.81 18.81 1.64 62.36 71.86PM2.5 Total 1.82 1.89 1.46 1.85 7.01 0.20 1.02 1.51 7.71 1.49 2.20 11.26 1.49 2.20 11.26 1.73 2.55 13.06 43.29 50.51VOCs as C 3.77 3.90 13.76 16.56 37.99 0.15 0.74 0.20 0.26 1.08 0.29 0.37 1.08 0.29 0.37 1.25 0.33 0.43 4.15 42.28
Sulfuric Acid (aerosol forms only) N/A N/A N/A N/A N/A N/A N/A 1.20 3.36 N/A 1.75 4.90 N/A 1.75 4.90 N/A 2.03 5.68 18.84 18.84Carbon Dioxide N/A N/A N/A N/A N/A 3,170.08 16,026 22,338 22,683 23,395 32,611 33,113 23,395 32,611 33,113 27,139 37,828 38,412 127,321 130,491
Methane N/A N/A N/A N/A N/A 0.060 0.30 0.91 0.91 0.44 1.32 1.32 0.44 1.32 1.32 0.51 1.53 1.53 5.09 5.15Nitrous Oxide N/A N/A N/A N/A N/A 5.97E-03 0.030 0.18 0.18 0.044 0.26 0.26 0.044 0.26 0.26 0.051 0.31 0.31 1.02 1.02
GHGs (mass basis) N/A N/A N/A N/A N/A 3,170.15 16,026 22,339 22,684 23,396 32,612 33,115 23,396 32,612 33,115 27,139 37,830 38,413 127,327 130,497GHGs (CO2e basis) N/A N/A N/A N/A N/A 3,173.35 16,042 22,415 22,759 23,420 32,723 33,225 23,420 32,723 33,225 27,167 37,958 38,541 127,751 130,925
HAP/POMTotal HAPS/POM 3.74 3.88 4.03 4.74 16.39 0.050 8.09E-04 6.71E-03 0.28 0.37 9.80E-03 0.41 0.37 9.80E-03 0.41 0.43 0.011 0.47 2.70 19.14
1,1,1-Trichloroethane HAP N/A N/A N/A N/A N/A N/A N/A N/A 2.16E-04 N/A N/A 3.15E-04 N/A N/A 3.15E-04 N/A N/A 3.65E-04 1.21E-03 1.21E-031,2,3,4,6,7,8-heptachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 1.34E-09 1.25E-09 N/A 1.96E-09 1.83E-09 N/A 1.96E-09 1.83E-09 N/A 2.27E-09 2.12E-09 7.52E-09 7.52E-09
1,2,3,4,7,8-hexachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 6.26E-10 5.84E-10 N/A 9.13E-10 8.52E-10 N/A 9.13E-10 8.52E-10 N/A 1.06E-09 9.89E-10 3.51E-09 3.51E-091,2,3,6,7,8-hexachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 2.89E-10 2.70E-10 N/A 4.22E-10 3.94E-10 N/A 4.22E-10 3.94E-10 N/A 4.90E-10 4.57E-10 1.62E-09 1.62E-091,2,3,7,8-pentachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 5.24E-10 4.89E-10 N/A 7.65E-10 7.14E-10 N/A 7.65E-10 7.14E-10 N/A 8.88E-10 8.29E-10 2.94E-09 2.94E-092,3,4,6,7,8-hexachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 1.94E-10 1.81E-10 N/A 2.83E-10 2.65E-10 N/A 2.83E-10 2.65E-10 N/A 3.29E-10 3.07E-10 1.09E-09 1.09E-092,3,4,7,8-pentachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 4.03E-10 3.77E-10 N/A 5.89E-10 5.50E-10 N/A 5.89E-10 5.50E-10 N/A 6.83E-10 6.38E-10 2.26E-09 2.26E-09
2-Methylnaphthalene HAP N/A N/A N/A N/A N/A 6.38E-07 N/A N/A N/A 4.71E-06 N/A N/A 4.71E-06 N/A N/A 5.46E-06 N/A N/A 1.49E-05 1.55E-05Acenaphthene POM N/A N/A N/A N/A N/A N/A N/A N/A 1.93E-05 N/A N/A 2.81E-05 N/A N/A 2.81E-05 N/A N/A 3.26E-05 1.08E-04 1.08E-04
Acenaphthylene POM N/A N/A N/A N/A N/A N/A N/A N/A 2.31E-07 N/A N/A 3.37E-07 N/A N/A 3.37E-07 N/A N/A 3.91E-07 1.30E-06 1.30E-06Acetaldehyde HAP 0.52 0.54 0.89 0.97 2.91 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 2.91Anthracene POM N/A N/A N/A N/A N/A N/A N/A N/A 1.11E-06 N/A N/A 1.63E-06 N/A N/A 1.63E-06 N/A N/A 1.89E-06 6.25E-06 6.25E-06
Benzene HAP N/A N/A N/A N/A N/A 5.58E-05 N/A N/A 1.95E-04 4.12E-04 N/A 2.85E-04 4.12E-04 N/A 2.85E-04 4.78E-04 N/A 3.31E-04 1.50E-03 1.55E-03Benzo(g,h,i)perylene HAP N/A N/A N/A N/A N/A N/A N/A N/A 2.06E-06 N/A N/A 3.01E-06 N/A N/A 3.01E-06 N/A N/A 3.50E-06 1.16E-05 1.16E-05
Biphenyl HAP/POM 6.07E-03 6.28E-03 4.86E-03 6.16E-03 0.023 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.023Carbon disulfide HAP 0.43 0.44 0.34 0.44 1.65 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 1.65
Chloroform HAP 0.22 0.23 0.17 0.22 0.84 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.84Cumene HAP 0.062 0.064 0.050 0.063 0.24 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.24
Dibenzo(a,h)anthracene POM N/A N/A N/A N/A N/A N/A N/A N/A 1.53E-06 N/A N/A 2.23E-06 N/A N/A 2.23E-06 N/A N/A 2.58E-06 8.56E-06 8.56E-06Dichlorobenzene HAP N/A N/A N/A N/A N/A 3.19E-05 N/A N/A N/A 2.35E-04 N/A N/A 2.35E-04 N/A N/A 2.73E-04 N/A N/A 7.44E-04 7.75E-04Ethyl Benzene HAP N/A N/A N/A N/A N/A N/A N/A N/A 5.81E-05 N/A N/A 8.48E-05 N/A N/A 8.48E-05 N/A N/A 9.84E-05 3.26E-04 3.26E-04Fluoranthene POM N/A N/A N/A N/A N/A 7.97E-08 N/A N/A 4.42E-06 5.88E-07 N/A 6.45E-06 5.88E-07 N/A 6.45E-06 6.82E-07 N/A 7.49E-06 2.48E-05 2.49E-05
Fluorene POM N/A N/A N/A N/A N/A 7.44E-08 N/A N/A 4.08E-06 5.49E-07 N/A 5.96E-06 5.49E-07 N/A 5.96E-06 6.37E-07 N/A 6.91E-06 2.29E-05 2.30E-05Formaldehyde HAP 0.16 0.17 0.13 0.16 0.62 1.99E-03 N/A N/A 0.030 0.015 N/A 0.044 0.015 N/A 0.044 0.017 N/A 0.051 0.17 0.79
Hydrochloric acid HAP N/A N/A N/A N/A N/A N/A N/A N/A 0.13 N/A N/A 0.19 N/A N/A 0.19 N/A N/A 0.22 0.72 0.72Hydrofluoric acid HAP N/A N/A N/A N/A N/A N/A N/A N/A 0.019 N/A N/A 0.028 N/A N/A 0.028 N/A N/A 0.032 0.11 0.11
Methanol HAP 0.55 0.57 0.40 0.51 2.03 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 2.03Methylene Chloride HAP 0.065 0.067 0.052 0.066 0.25 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.25
Naphthalene POM 0.53 0.55 0.42 0.54 2.04 1.62E-05 N/A N/A 1.03E-03 1.20E-04 N/A 1.51E-03 1.20E-04 N/A 1.51E-03 1.39E-04 N/A 1.75E-03 5.79E-03 2.05n-Hexane HAP N/A N/A N/A N/A N/A 0.048 N/A N/A N/A 0.35 N/A N/A 0.35 N/A N/A 0.41 N/A N/A 1.12 1.16
Phenol HAP 0.31 0.32 0.25 0.31 1.18 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 1.18Propionaldehyde HAP 0.047 0.048 0.037 0.047 0.18 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.18
Pyrene POM N/A N/A N/A N/A N/A 1.33E-07 N/A N/A 3.88E-06 9.80E-07 N/A 5.67E-06 9.80E-07 N/A 5.67E-06 1.14E-06 N/A 6.57E-06 2.18E-05 2.19E-05Toluene HAP 0.84 0.87 0.68 0.86 3.25 9.03E-05 N/A N/A 5.66E-03 6.67E-04 N/A 8.27E-03 6.67E-04 N/A 8.27E-03 7.73E-04 N/A 9.59E-03 0.032 3.28
Vinyl acetate HAP N/A N/A 0.60 0.56 1.16 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 1.16Xylenes (mixed isomers) HAP N/A N/A N/A N/A N/A N/A N/A N/A 1.00E-04 N/A N/A 1.47E-04 N/A N/A 1.47E-04 N/A N/A 1.70E-04 5.64E-04 5.64E-04
Antimony HAP N/A N/A N/A N/A N/A N/A N/A N/A 4.80E-03 N/A N/A 7.00E-03 N/A N/A 7.00E-03 N/A N/A 8.12E-03 0.027 0.027Arsenic HAP N/A N/A N/A N/A N/A 5.31E-06 2.69E-05 5.48E-04 1.21E-03 3.92E-05 8.00E-04 1.76E-03 3.92E-05 8.00E-04 1.76E-03 4.55E-05 9.28E-04 2.04E-03 6.77E-03 6.77E-03
Beryllium HAP N/A N/A N/A N/A N/A N/A N/A 4.11E-04 2.54E-05 N/A 6.00E-04 3.71E-05 N/A 6.00E-04 3.71E-05 N/A 6.96E-04 4.30E-05 2.31E-03 2.31E-03Cadmium HAP N/A N/A N/A N/A N/A 2.92E-05 1.48E-04 4.11E-04 3.64E-04 2.16E-04 6.00E-04 5.31E-04 2.16E-04 6.00E-04 5.31E-04 2.50E-04 6.96E-04 6.16E-04 2.31E-03 2.34E-03Chromium HAP N/A N/A N/A N/A N/A 3.72E-05 1.88E-04 4.11E-04 7.72E-04 2.75E-04 6.00E-04 1.13E-03 2.75E-04 6.00E-04 1.13E-03 3.18E-04 6.96E-04 1.31E-03 4.33E-03 4.37E-03
Chromium (VI) HAP N/A N/A N/A N/A N/A N/A N/A N/A 2.27E-04 N/A N/A 3.31E-04 N/A N/A 3.31E-04 N/A N/A 3.84E-04 1.27E-03 1.27E-03Cobalt HAP N/A N/A N/A N/A N/A 2.23E-06 1.13E-05 N/A 5.50E-03 1.65E-05 N/A 8.03E-03 1.65E-05 N/A 8.03E-03 1.91E-05 N/A 9.31E-03 0.031 0.031Lead HAP N/A N/A N/A N/A N/A 1.33E-05 6.72E-05 1.23E-03 1.38E-03 9.80E-05 1.80E-03 2.01E-03 9.80E-05 1.80E-03 2.01E-03 1.14E-04 2.09E-03 2.34E-03 7.74E-03 7.75E-03
Manganese HAP N/A N/A N/A N/A N/A 1.01E-05 5.10E-05 8.22E-04 2.74E-03 7.45E-05 1.20E-03 4.00E-03 7.45E-05 1.20E-03 4.00E-03 8.64E-05 1.39E-03 4.64E-03 0.015 0.015Mercury HAP N/A N/A N/A N/A N/A 6.91E-06 3.49E-05 4.11E-04 1.03E-04 5.10E-05 6.00E-04 1.51E-04 5.10E-05 6.00E-04 1.51E-04 5.91E-05 6.96E-04 1.75E-04 2.31E-03 2.31E-03Nickel HAP N/A N/A N/A N/A N/A 5.58E-05 2.82E-04 4.11E-04 0.077 4.12E-04 6.00E-04 0.11 4.12E-04 6.00E-04 0.11 4.78E-04 6.96E-04 0.13 0.43 0.43
Selenium HAP N/A N/A N/A N/A N/A N/A N/A 2.06E-03 6.24E-04 N/A 3.00E-03 9.11E-04 N/A 3.00E-03 9.11E-04 N/A 3.48E-03 1.06E-03 0.012 0.012Notes:a. PM Total, PM10 Total, and PM2.5 Total are the sum of the filterable and condensable emissions.b. GHGs (mass basis) are the sum of carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) emissions. GHGs (CO2e basis) are sum of constituent emission rates times global warming potentials (GWPs) where CO2 = 1, CH4 = 25, N2O = 298.
HAP/POM (Total Speciated below)
Fugitive emissionsfrom paved
roads (lb/hr)
Metals
Boiler 1 (EU 001)Maximum Emission Rates
Boiler 2 (EU 002)Maximum Emission Rates
Boiler 3 (EU 003)Maximum Emission Rates
Boiler 4 (EU 004)Maximum Emission Rates
Paper MachinesMaximum Emission Rates
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
H:\
Index ANNUAL PTE SUMMARYClay Coater
Dryer All Boiler SCENARIO 1 SCENARIO 2 SCENARIO 3 SCENARIO 4 SCENARIO 5(EQUI 6) Boiler (COMG 1) Facility Facility Boiler Boiler
CorMed CorMed Maximum Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Maximum Limited Maximum Limited Boiler Boiler Boiler No. 6 / No. 6 BoilerPaper Paper Boxboard Boxboard All Controlled & Mode No. 2 No. 6 Mode No. 2 No. 6 Mode No. 2 No. 6 Mode No. 2 No. 6 Uncontrolled Potential Uncontrolled Potential Boiler No. 2 No. 6 No. 6 No. 2 Fuel Oil / No. 2 Boiler
Machine 4 Machine 5 Mill 1 Mill 2 Paper Uncontrolled Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Natural Gas Fuel Oil Fuel Oil Emission Emission Emission Emission Natural Gas Fuel Oil Fuel Oil Fuel Oil Fuel Oil Nat Gas Fuel Oil Natural Gas(EQUI 66) (EQUI 67) (EQUI 68) (EQUI 69) Machines Emission Rate Mode Mode Mode Mode Mode Mode Mode Mode Mode Mode Mode Mode Rate Rate Rate Rate Mode Mode Mode Mode Mode Mode Mode Mode
Pollutant Note (ton/yr)a (ton/yr)a (ton/yr)a (ton/yr)a (ton/yr)a (ton/yr)a (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) b (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr) (ton/yr)Sulfur Dioxide N/A N/A N/A N/A N/A 0.070 0.35 304.32 942.09 0.52 444.26 1,375.32 0.52 444.26 1,375.32 0.60 515.34 1,595.37 5,288.11 2,751.24 5,288.18 2,751.31 1.98 1,708.17 5,288.11 3,609.05 3,884.58 3,502.36 1,403.85 1.63
Nitrogen Oxides N/A N/A N/A N/A N/A 11.64 164.72 102.87 188.02 240.47 150.17 274.48 240.47 150.17 274.48 169.36 174.20 216.78 953.76 718.32 965.40 729.96 815.02 577.41 953.76 650.93 806.21 906.89 474.54 650.30Carbon Monoxide N/A N/A N/A N/A N/A 9.78 49.42 21.43 20.00 72.14 31.29 29.20 72.14 31.29 29.20 23.91 36.29 33.87 229.99 168.19 239.77 177.97 217.61 120.29 112.27 76.63 115.42 147.86 98.86 168.19
PM (filterable) b 4.41 4.56 3.53 4.47 16.97 0.22 1.12 8.57 68.39 1.63 12.51 99.85 1.63 12.51 99.85 1.89 14.52 115.82 383.91 201.59 401.10 218.78 6.27 48.12 383.91 262.01 252.26 256.34 39.55 5.16PM10 (filterable) 2.42 2.50 1.94 2.45 9.31 0.22 1.12 4.29 42.66 1.63 6.26 62.28 1.63 6.26 62.28 1.89 7.26 72.24 239.46 126.45 248.99 135.98 6.27 24.06 239.46 163.43 155.01 160.68 19.77 5.16PM2.5 (filterable) 1.68 1.74 1.35 1.71 6.48 0.22 1.12 1.03 27.78 1.63 1.50 40.55 1.63 1.50 40.55 1.89 1.74 47.04 155.93 83.00 162.62 89.70 6.27 5.77 155.93 106.42 97.06 105.37 4.75 5.16
PM (Condensable) 6.30 6.52 5.04 6.39 24.25 0.66 3.35 5.57 6.00 4.90 8.13 8.76 4.90 8.13 8.76 5.68 9.44 10.16 33.68 23.20 58.59 48.11 18.82 31.28 33.68 22.99 32.74 28.66 25.70 15.47PM Total b,c 10.71 11.08 8.57 10.86 41.22 0.88 4.47 14.14 74.40 6.53 20.65 108.61 6.53 20.65 108.61 7.57 23.95 125.98 7.20 417.59 224.78 466.90 274.09 25.10 79.39 417.59 285.00 285.00 285.00 65.25 20.63
PM10 Total c 8.72 9.02 6.98 8.84 33.56 0.88 4.47 9.86 48.66 6.53 14.39 71.04 6.53 14.39 71.04 7.57 16.69 82.40 7.20 273.14 149.65 314.78 191.29 25.10 55.34 273.14 186.41 187.75 189.35 45.48 20.63PM2.5 Total c 7.98 8.26 6.39 8.10 30.73 0.88 4.47 6.60 33.78 6.53 9.64 49.31 6.53 9.64 49.31 7.57 11.18 57.20 189.61 106.20 221.22 137.81 25.10 37.05 189.61 129.40 129.80 134.03 30.45 20.63VOCs as C 16.50 17.08 60.28 72.52 166.38 0.64 3.24 0.86 1.12 4.72 1.25 1.64 4.72 1.25 1.64 5.48 1.45 1.90 18.16 14.93 185.18 181.94 18.16 4.81 6.29 4.29 5.71 10.30 3.95 14.93
Sulfuric Acid (aerosol forms only) N/A N/A N/A N/A N/A N/A N/A 5.25 14.70 N/A 7.67 21.46 N/A 7.67 21.46 N/A 8.89 24.90 82.52 42.92 82.52 42.92 0 29.47 82.52 56.32 61.72 54.64 24.22 0Carbon Dioxide N/A N/A N/A N/A N/A 13,885 70,193 97,842 99,350 102,472 142,835 145,037 102,472 142,835 145,037 118,867 165,689 168,243 557,666 408,941 571,551 422,826 394,005 549,201 557,666 380,598 554,347 502,378 451,359 323,811
Methane N/A N/A N/A N/A N/A 0.26 1.32 3.97 3.97 1.93 5.79 5.79 1.93 5.79 5.79 2.24 6.72 6.72 22.28 13.83 22.54 14.09 7.43 22.28 22.28 15.20 22.28 17.26 18.31 6.10Nitrous Oxide N/A N/A N/A N/A N/A 0.026 0.13 0.79 0.79 0.19 1.16 1.16 0.19 1.16 1.16 0.22 1.34 1.34 4.46 2.54 4.48 2.57 0.74 4.46 4.46 3.04 4.46 3.20 3.66 0.61
GHGs (mass basis) d N/A N/A N/A N/A N/A 13,885 70,195 97,847 99,355 102,474 142,842 145,044 102,474 142,842 145,044 118,870 165,697 168,251 557,693 408,957 571,578 422,842 394,013 549,227 557,693 380,617 554,374 502,399 451,381 323,818GHGs (CO2e basis) d N/A N/A N/A N/A N/A 13,899 70,266 98,178 99,686 102,578 143,325 145,527 102,578 143,325 145,527 118,990 166,257 168,811 559,551 410,044 573,450 423,943 394,412 551,085 559,551 381,885 556,232 503,764 452,908 324,146
HAP/POMTotal HAPS/POM 16.40 16.98 17.64 20.77 71.78 0.22 1.11 0.029 1.22 1.62 0.043 1.79 1.62 0.043 1.79 1.88 0.050 2.07 6.87 5.45 78.87 77.46 6.24 0.17 6.87 4.69 4.24 6.65 0.14 5.12
1,1,1-Trichloroethane HAP N/A N/A N/A N/A N/A N/A N/A N/A 9.44E-04 N/A N/A 1.38E-03 N/A N/A 1.38E-03 N/A N/A 1.60E-03 5.30E-03 2.76E-03 5.30E-03 2.76E-03 N/A N/A 5.30E-03 3.62E-03 N/A N/A N/A N/A1,2,3,4,6,7,8-heptachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 5.87E-09 5.48E-09 N/A 8.57E-09 8.00E-09 N/A 8.57E-09 8.00E-09 N/A 9.94E-09 9.27E-09 3.29E-08 1.71E-08 3.29E-08 1.71E-08 N/A 3.29E-08 3.07E-08 2.10E-08 3.16E-08 N/A 2.71E-08 N/A
1,2,3,4,7,8-hexachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 2.74E-09 2.56E-09 N/A 4.00E-09 3.73E-09 N/A 4.00E-09 3.73E-09 N/A 4.64E-09 4.33E-09 1.54E-08 8.00E-09 1.54E-08 8.00E-09 N/A 1.54E-08 1.44E-08 9.80E-09 1.48E-08 N/A 1.26E-08 N/A1,2,3,6,7,8-hexachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 1.27E-09 1.18E-09 N/A 1.85E-09 1.73E-09 N/A 1.85E-09 1.73E-09 N/A 2.14E-09 2.00E-09 7.11E-09 3.70E-09 7.11E-09 3.70E-09 N/A 7.11E-09 6.63E-09 4.53E-09 6.82E-09 N/A 5.84E-09 N/A1,2,3,7,8-pentachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 2.30E-09 2.14E-09 N/A 3.35E-09 3.13E-09 N/A 3.35E-09 3.13E-09 N/A 3.89E-09 3.63E-09 1.29E-08 6.70E-09 1.29E-08 6.70E-09 N/A 1.29E-08 1.20E-08 8.21E-09 1.24E-08 N/A 1.06E-08 N/A2,3,4,6,7,8-hexachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 8.50E-10 7.94E-10 N/A 1.24E-09 1.16E-09 N/A 1.24E-09 1.16E-09 N/A 1.44E-09 1.34E-09 4.77E-09 2.48E-09 4.77E-09 2.48E-09 N/A 4.77E-09 4.46E-09 3.04E-09 4.58E-09 N/A 3.92E-09 N/A2,3,4,7,8-pentachlorodibenzofuran HAP/POM N/A N/A N/A N/A N/A N/A N/A 1.77E-09 1.65E-09 N/A 2.58E-09 2.41E-09 N/A 2.58E-09 2.41E-09 N/A 2.99E-09 2.79E-09 9.92E-09 5.16E-09 9.92E-09 5.16E-09 N/A 9.92E-09 9.26E-09 6.32E-09 9.52E-09 N/A 8.15E-09 N/A
2-Methylnaphthalene HAP N/A N/A N/A N/A N/A 2.79E-06 1.41E-05 N/A N/A 2.06E-05 N/A N/A 2.06E-05 N/A N/A 2.39E-05 N/A N/A 7.93E-05 6.51E-05 8.20E-05 6.79E-05 7.93E-05 N/A N/A N/A N/A N/A N/A 6.51E-05Acenaphthene POM N/A N/A N/A N/A N/A N/A N/A N/A 8.44E-05 N/A N/A 1.23E-04 N/A N/A 1.23E-04 N/A N/A 1.43E-04 4.74E-04 2.46E-04 4.74E-04 2.46E-04 N/A N/A 4.74E-04 3.23E-04 N/A N/A N/A N/A
Acenaphthylene POM N/A N/A N/A N/A N/A N/A N/A N/A 1.01E-06 N/A N/A 1.48E-06 N/A N/A 1.48E-06 N/A N/A 1.71E-06 5.68E-06 2.96E-06 5.68E-06 2.96E-06 N/A N/A 5.68E-06 3.88E-06 N/A N/A N/A N/AAcetaldehyde HAP 2.29 2.37 3.88 4.23 12.77 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 12.77 12.77 N/A N/A N/A N/A N/A N/A N/A N/AAnthracene POM N/A N/A N/A N/A N/A N/A N/A N/A 4.88E-06 N/A N/A 7.12E-06 N/A N/A 7.12E-06 N/A N/A 8.26E-06 2.74E-05 1.42E-05 2.74E-05 1.42E-05 N/A N/A 2.74E-05 1.87E-05 N/A N/A N/A N/A
Benzene HAP N/A N/A N/A N/A N/A 2.44E-04 1.24E-03 N/A 8.56E-04 1.80E-03 N/A 1.25E-03 1.80E-03 N/A 1.25E-03 2.09E-03 N/A 1.45E-03 6.93E-03 5.70E-03 7.18E-03 5.94E-03 6.93E-03 N/A 4.81E-03 3.28E-03 N/A 5.52E-03 N/A 5.70E-03Benzo(g,h,i)perylene HAP N/A N/A N/A N/A N/A N/A N/A N/A 9.04E-06 N/A N/A 1.32E-05 N/A N/A 1.32E-05 N/A N/A 1.53E-05 5.07E-05 2.64E-05 5.07E-05 2.64E-05 N/A N/A 5.07E-05 3.46E-05 N/A N/A N/A N/A
Biphenyl HAP/POM 0.027 0.028 0.021 0.027 0.10 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.10 0.10 N/A N/A N/A N/A N/A N/A N/A N/ACarbon disulfide HAP 1.88 1.95 1.51 1.91 7.24 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 7.24 7.24 N/A N/A N/A N/A N/A N/A N/A N/A
Chloroform HAP 0.95 0.99 0.76 0.97 3.67 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 3.67 3.67 N/A N/A N/A N/A N/A N/A N/A N/ACumene HAP 0.27 0.28 0.22 0.28 1.05 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 1.05 1.05 N/A N/A N/A N/A N/A N/A N/A N/A
Dibenzo(a,h)anthracene POM N/A N/A N/A N/A N/A N/A N/A N/A 6.68E-06 N/A N/A 9.75E-06 N/A N/A 9.75E-06 N/A N/A 1.13E-05 3.75E-05 1.95E-05 3.75E-05 1.95E-05 N/A N/A 3.75E-05 2.56E-05 N/A N/A N/A N/ADichlorobenzene HAP N/A N/A N/A N/A N/A 1.40E-04 7.06E-04 N/A N/A 1.03E-03 N/A N/A 1.03E-03 N/A N/A 1.20E-03 N/A N/A 3.96E-03 3.26E-03 4.10E-03 3.40E-03 3.96E-03 N/A N/A N/A N/A N/A N/A 3.26E-03Ethyl Benzene HAP N/A N/A N/A N/A N/A N/A N/A N/A 2.54E-04 N/A N/A 3.71E-04 N/A N/A 3.71E-04 N/A N/A 4.31E-04 1.43E-03 7.43E-04 1.43E-03 7.43E-04 N/A N/A 1.43E-03 9.75E-04 N/A N/A N/A N/AFluoranthene POM N/A N/A N/A N/A N/A 3.49E-07 1.76E-06 N/A 1.94E-05 2.58E-06 N/A 2.83E-05 2.58E-06 N/A 2.83E-05 2.99E-06 N/A 3.28E-05 1.09E-04 5.95E-05 1.09E-04 5.99E-05 9.91E-06 N/A 1.09E-04 7.42E-05 N/A 7.53E-05 N/A 8.14E-06
Fluorene POM N/A N/A N/A N/A N/A 3.26E-07 1.65E-06 N/A 1.79E-05 2.40E-06 N/A 2.61E-05 2.40E-06 N/A 2.61E-05 2.79E-06 N/A 3.03E-05 1.00E-04 5.50E-05 1.01E-04 5.53E-05 9.25E-06 N/A 1.00E-04 6.85E-05 N/A 6.96E-05 N/A 7.60E-06Formaldehyde HAP 0.71 0.73 0.57 0.72 2.72 8.73E-03 0.044 N/A 0.13 0.064 N/A 0.19 0.064 N/A 0.19 0.075 N/A 0.22 0.74 0.46 3.47 3.19 0.25 N/A 0.74 0.51 N/A 0.57 N/A 0.20
Hydrochloric acid HAP N/A N/A N/A N/A N/A N/A N/A N/A 0.56 N/A N/A 0.82 N/A N/A 0.82 N/A N/A 0.95 3.14 1.63 3.14 1.63 N/A N/A 3.14 2.14 N/A N/A N/A N/AHydrofluoric acid HAP N/A N/A N/A N/A N/A N/A N/A N/A 0.084 N/A N/A 0.12 N/A N/A 0.12 N/A N/A 0.14 0.47 0.25 0.47 0.25 N/A N/A 0.47 0.32 N/A N/A N/A N/A
Methanol HAP 2.42 2.50 1.76 2.23 8.91 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 8.91 8.91 N/A N/A N/A N/A N/A N/A N/A N/AMethylene Chloride HAP 0.29 0.30 0.23 0.29 1.10 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 1.10 1.10 N/A N/A N/A N/A N/A N/A N/A N/A
Naphthalene POM 2.32 2.41 1.86 2.36 8.95 7.10E-05 3.59E-04 N/A 4.52E-03 5.24E-04 N/A 6.60E-03 5.24E-04 N/A 6.60E-03 6.08E-04 N/A 7.66E-03 0.025 0.014 8.97 8.96 2.01E-03 N/A 0.025 0.017 N/A 0.017 N/A 1.66E-03n-Hexane HAP N/A N/A N/A N/A N/A 0.21 1.06 N/A N/A 1.55 N/A N/A 1.55 N/A N/A 1.79 N/A N/A 5.94 4.88 6.15 5.09 5.94 N/A N/A N/A N/A N/A N/A 5.94
Phenol HAP 1.34 1.39 1.07 1.36 5.17 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 5.17 5.17 N/A N/A N/A N/A N/A N/A N/A N/APropionaldehyde HAP 0.20 0.21 0.16 0.21 0.79 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 0.79 0.79 N/A N/A N/A N/A N/A N/A N/A N/A
Pyrene POM N/A N/A N/A N/A N/A 5.82E-07 2.94E-06 N/A 1.70E-05 4.29E-06 N/A 2.48E-05 4.29E-06 N/A 2.48E-05 4.98E-06 N/A 2.88E-05 9.54E-05 5.46E-05 9.60E-05 5.52E-05 1.65E-05 N/A 9.54E-05 6.51E-05 N/A 6.88E-05 N/A 1.36E-05Toluene HAP 3.70 3.83 2.96 3.75 14.23 3.96E-04 2.00E-03 N/A 0.025 2.92E-03 N/A 0.036 2.92E-03 N/A 0.036 3.39E-03 N/A 0.042 0.14 0.076 14.37 14.31 0.011 N/A 0.14 0.095 N/A 0.096 N/A 9.23E-03
Vinyl acetate HAP N/A N/A 2.63 2.45 5.08 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 5.08 5.08 N/A N/A N/A N/A N/A N/A N/A N/AXylenes (mixed isomers) HAP N/A N/A N/A N/A N/A N/A N/A N/A 4.40E-04 N/A N/A 6.42E-04 N/A N/A 6.42E-04 N/A N/A 7.45E-04 2.47E-03 1.28E-03 2.47E-03 1.28E-03 N/A N/A 2.47E-03 1.69E-03 N/A N/A N/A N/A
Antimony HAP N/A N/A N/A N/A N/A N/A N/A N/A 0.021 N/A N/A 0.031 N/A N/A 0.031 N/A N/A 0.036 0.12 0.061 0.12 0.061 N/A N/A 0.12 0.080 N/A N/A N/A N/AArsenic HAP N/A N/A N/A N/A N/A 2.33E-05 1.18E-04 2.40E-03 5.28E-03 1.72E-04 3.50E-03 7.71E-03 1.72E-04 3.50E-03 7.71E-03 1.99E-04 4.06E-03 8.94E-03 0.030 0.016 0.030 0.016 6.60E-04 0.013 0.030 0.020 0.023 0.020 0.011 5.43E-04
Beryllium HAP N/A N/A N/A N/A N/A N/A N/A 1.80E-03 1.11E-04 N/A 2.63E-03 1.62E-04 N/A 2.63E-03 1.62E-04 N/A 3.05E-03 1.88E-04 0.010 5.26E-03 0.010 5.26E-03 N/A 0.010 6.24E-04 4.26E-04 4.34E-03 N/A 8.30E-03 N/ACadmium HAP N/A N/A N/A N/A N/A 1.28E-04 6.47E-04 1.80E-03 1.59E-03 9.45E-04 2.63E-03 2.32E-03 9.45E-04 2.63E-03 2.32E-03 1.10E-03 3.05E-03 2.70E-03 0.010 6.35E-03 0.010 6.48E-03 3.63E-03 0.010 8.94E-03 6.10E-03 9.39E-03 7.15E-03 8.30E-03 2.99E-03Chromium HAP N/A N/A N/A N/A N/A 1.63E-04 8.24E-04 1.80E-03 3.38E-03 1.20E-03 2.63E-03 4.93E-03 1.20E-03 2.63E-03 4.93E-03 1.39E-03 3.05E-03 5.72E-03 0.019 0.011 0.019 0.011 4.62E-03 0.010 0.019 0.013 0.015 0.014 8.30E-03 3.80E-03
Chromium (VI) HAP N/A N/A N/A N/A N/A N/A N/A N/A 9.92E-04 N/A N/A 1.45E-03 N/A N/A 1.45E-03 N/A N/A 1.68E-03 5.57E-03 2.90E-03 5.57E-03 2.90E-03 N/A N/A 5.57E-03 3.80E-03 N/A N/A N/A N/ACobalt HAP N/A N/A N/A N/A N/A 9.78E-06 4.94E-05 N/A 0.024 7.21E-05 N/A 0.035 7.21E-05 N/A 0.035 8.37E-05 N/A 0.041 0.14 0.070 0.14 0.070 2.77E-04 N/A 0.14 0.092 N/A 0.090 N/A 2.28E-04Lead HAP N/A N/A N/A N/A N/A 5.82E-05 2.94E-04 5.40E-03 6.04E-03 4.29E-04 7.88E-03 8.82E-03 4.29E-04 7.88E-03 8.82E-03 4.98E-04 9.15E-03 0.010 0.034 0.018 0.034 0.018 1.65E-03 0.030 0.034 0.023 0.032 0.023 0.025 1.36E-03
Manganese HAP N/A N/A N/A N/A N/A 4.42E-05 2.24E-04 3.60E-03 0.012 3.26E-04 5.26E-03 0.018 3.26E-04 5.26E-03 0.018 3.79E-04 6.10E-03 0.020 0.067 0.035 0.067 0.035 1.25E-03 0.020 0.067 0.046 0.049 0.045 0.017 1.03E-03Mercury HAP N/A N/A N/A N/A N/A 3.03E-05 1.53E-04 1.80E-03 4.52E-04 2.23E-04 2.63E-03 6.60E-04 2.23E-04 2.63E-03 6.60E-04 2.59E-04 3.05E-03 7.66E-04 0.010 5.52E-03 0.010 5.55E-03 8.59E-04 0.010 2.54E-03 1.73E-03 5.50E-03 1.97E-03 8.30E-03 7.06E-04Nickel HAP N/A N/A N/A N/A N/A 2.44E-04 1.24E-03 1.80E-03 0.34 1.80E-03 2.63E-03 0.49 1.80E-03 2.63E-03 0.49 2.09E-03 3.05E-03 0.57 1.90 0.99 1.90 0.99 6.93E-03 0.010 1.90 1.29 1.16 1.26 8.30E-03 5.70E-03
Selenium HAP N/A N/A N/A N/A N/A N/A N/A 9.00E-03 2.73E-03 N/A 0.013 3.99E-03 N/A 0.013 3.99E-03 N/A 0.015 4.63E-03 0.051 0.026 0.051 0.026 N/A 0.051 0.015 0.010 0.029 N/A 0.042 N/ANotes:a. Uncontrolled and controlled emissions are equivalent (no emissions controls).b. Permit No. 12300410-001 limits PM emissions from the four boilers to no more than 285 tons/yr (combined). Controlled emissions are determined by considering the worst-case fuel and the 285 tpy PM limit.c. PM Total, PM10 Total, and PM2.5 Total are the sum of the filterable and condensable emissions.d. GHGs (mass basis) are the sum of carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) emissions. GHGs (CO2e basis) are sum of constituent emission rates times global warming potentials (GWPs) where CO2 = 1, CH4 = 25, N2O = 298.
Maximum Uncontrolled Maximum Uncontrolled Maximum Uncontrolled Maximum UncontrolledUncontrolled
HAP/POM (Total Speciated below)
Fugitive emissionsfrom paved
roads (ton/yr)
LimitedMaximum Controlled &
Metals
Paper Machines
Uncontrolled Emission Rates
Boiler 1 (EQUI 10) Boiler 2 (EQUI 11) Boiler 3 (EQUI 12)
Emission Rates Emission Rates Emission Rates
Boiler 4 (EQUI 1)
Emission Rates
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
8,760 Hours
11.12 MDTFP/hr 97,4116.82 % Air Dried Moisture Content 10 %
11.51 ADTFP/hr Air Dried Paper Production 100,853 ADTFP/yr
Hourly AnnualCriteria Pollutant Reference (lb/hr) (ton/yr)PM (filterable) 0.070 lb/ADTFP Table 8.4 of NCASI TB 1020 0.81 3.53PM10 (filterable) 0.038 lb/ADTFP Table 8.4 of NCASI TB 1020 0.44 1.94PM2.5 (filterable) 0.027 lb/ADTFP Table 8.4 of NCASI TB 1020 0.31 1.35PM (Condensable) 0.100 lb/ADTFP Table 8.4 of NCASI TB 1020 1.15 5.04PM Total 0.170 lb/ADTFP PM filterable + condensable 1.96 8.57PM10 Total 0.138 lb/ADTFP PM10 filterable + condensable 1.59 6.98PM2.5 Total 0.127 lb/ADTFP PM2.5 filterable + condensable 1.46 6.39VOCs as C 1.003 lb/MDTFP 2014 Site Specific VOC Calculation 11.16 48.86
HAP/POM 1.23E+01Acetaldehyde HAP 3.46E-02 lb/ADTFP NCASI TB 973, Table 10.1 3.98E-01 1.74E+00Carbon disulfide HAP 2.66E-02 lb/ADTFP NCASI TB 973, Table 10.1 3.06E-01 1.34E+00Chloroform HAP 1.51E-02 lb/ADTFP NCASI TB 973, Table 10.1 1.74E-01 7.61E-01Cumene HAP 4.33E-03 lb/ADTFP NCASI TB 973, Table 10.1 4.99E-02 2.19E-01Formaldehyde HAP 1.10E-02 lb/ADTFP NCASI TB 973, Table 10.1 1.27E-01 5.57E-01Methanol HAP 3.10E-02 lb/ADTFP NCASI TB 973 (excluding Mill CC-C) 3.57E-01 1.56E+00Methylene Chloride HAP 4.27E-03 lb/ADTFP NCASI TB 973, Table 10.1 4.92E-02 2.15E-01Naphthalene POM 3.69E-02 lb/ADTFP NCASI TB 973, Table 10.1 4.25E-01 1.86E+00Phenol HAP 2.10E-02 lb/ADTFP NCASI TB 973, Table 10.1 2.41E-01 1.06E+00Propionaldehyde HAP 3.05E-03 lb/ADTFP NCASI TB 973, Table 10.1 3.51E-02 1.54E-01Toluene HAP 5.55E-02 lb/ADTFP NCASI TB 973, Table 10.1 6.39E-01 2.80E+00
Notes: 1. Applied to all HAP emission factors except Methanol.2. Applied to all PM related emissions.
Hourly AnnualCriteria Pollutant Reference (lb/hr) (ton/yr)
VOCs as C -- --Accounted for in Paper Machine
Emission Factor Above -- --
HAP/POM 6.85E-01Acetaldehyde HAP 1.61E-03 lb/ADTP NCASI TB 973, Table 10.4 2.05E-02 9.00E-02Biphenyl HAP/POM 3.80E-04 lb/ADTP NCASI TB 973, Table 10.4 4.86E-03 2.13E-02Carbon disulfide HAP 2.94E-03 lb/ADTP NCASI TB 973, Table 10.4 3.76E-02 1.65E-01Chloroform HAP 4.98E-05 lb/ADTP NCASI TB 973, Table 10.4 6.37E-04 2.79E-03Formaldehyde HAP 1.53E-04 lb/ADTP NCASI TB 973, Table 10.4 1.95E-03 8.56E-03Methanol HAP 3.52E-03 lb/ADTP NCASI TB 973, Table 10.4 4.50E-02 1.97E-01Methylene Chloride HAP 2.33E-04 lb/ADTP NCASI TB 973, Table 10.4 2.98E-03 1.30E-02Phenol HAP 3.07E-04 lb/ADTP NCASI TB 973, Table 10.4 3.93E-03 1.72E-02Propionaldehyde HAP 1.75E-04 lb/ADTP NCASI TB 973, Table 10.4 2.24E-03 9.79E-03Toluene HAP 2.87E-03 lb/ADTP NCASI TB 973, Table 10.4 3.67E-02 1.61E-01
Notes: 1. Applied to all HAP emission factors.
Hourly AnnualCriteria Pollutant Reference (lb/hr) (ton/yr)VOCs as C 11.41 TPY Facility Provided Calculation 2.61 11.41
HAP/POM 4.68Acetaldehyde HAP 2.05 TPY Facility Provided Calculation 0.47 2.05Vinyl acetate HAP 2.63 TPY Facility Provided Calculation 0.60 2.63
Boxboard Mill 1 - Input Information
Hourly Production Rate Annual Production RateMDTFP/hr
Paper Machine Emissions
Annual Hours of Operation
Actual Paper ProductionActual Moisture Content
Air Dried Paper Production
Boxboard Mill Coating OperationsMaximum Emissions
Emission Factor
HAP/POM (Total Speciated below)
Maximum Emissions
HAP/POM (Total Speciated below)
Metals
Emission Factor
HAP/POM (Total Speciated below)
Metals
OCC and Recycled Fiber Stock Prep EmissionsMaximum Emissions
Emission Factor
H:\
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
8,760 Hours
14.04 MDTFP/hr 122,9906.50 % Air Dried Moisture Content 10 %
14.59 ADTFP/hr Air Dried Paper Production 127,773 ADTFP/yr
Hourly AnnualCriteria Pollutant Reference (lb/hr) (ton/yr)PM (filterable) 0.070 lb/ADTFP Table 8.4 of NCASI TB 1020 1.02 4.47PM10 (filterable) 0.038 lb/ADTFP Table 8.4 of NCASI TB 1020 0.56 2.45PM2.5 (filterable) 0.027 lb/ADTFP Table 8.4 of NCASI TB 1020 0.39 1.71PM (Condensable) 0.100 lb/ADTFP Table 8.4 of NCASI TB 1020 1.46 6.39PM Total 0.170 lb/ADTFP PM filterable + condensable 2.48 10.86PM10 Total 0.138 lb/ADTFP PM10 filterable + condensable 2.02 8.84PM2.5 Total 0.127 lb/ADTFP PM2.5 filterable + condensable 1.85 8.10VOCs as C 1.007 lb/MDTFP 2014 Site Specific VOC Calculation 14.13 61.91
HAP/POM 1.55E+01Acetaldehyde HAP 3.46E-02 lb/ADTFP NCASI TB 973, Table 10.1 5.04E-01 2.21E+00Carbon disulfide HAP 2.66E-02 lb/ADTFP NCASI TB 973, Table 10.1 3.88E-01 1.70E+00Chloroform HAP 1.51E-02 lb/ADTFP NCASI TB 973, Table 10.1 2.20E-01 9.65E-01Cumene HAP 4.33E-03 lb/ADTFP NCASI TB 973, Table 10.1 6.32E-02 2.77E-01Formaldehyde HAP 1.10E-02 lb/ADTFP NCASI TB 973, Table 10.1 1.61E-01 7.05E-01Methanol HAP 3.10E-02 lb/ADTFP NCASI TB 973 (excluding Mill CC-C) 4.52E-01 1.98E+00Methylene Chloride HAP 4.27E-03 lb/ADTFP NCASI TB 973, Table 10.1 6.23E-02 2.73E-01Naphthalene POM 3.69E-02 lb/ADTFP NCASI TB 973, Table 10.1 5.38E-01 2.36E+00Phenol HAP 2.10E-02 lb/ADTFP NCASI TB 973, Table 10.1 3.06E-01 1.34E+00Propionaldehyde HAP 3.05E-03 lb/ADTFP NCASI TB 973, Table 10.1 4.45E-02 1.95E-01Toluene HAP 5.55E-02 lb/ADTFP NCASI TB 973, Table 10.1 8.10E-01 3.55E+00
Notes: 1. Applied to all HAP emission factors except Methanol.2. Applied to all PM related emissions.
Hourly AnnualCriteria Pollutant Reference (lb/hr) (ton/yr)
VOCs as C -- --Accounted for in Paper Machine
Emission Factor Above -- --
HAP/POM 8.68E-01Acetaldehyde HAP 1.61E-03 lb/ADTP NCASI TB 973, Table 10.4 2.60E-02 1.14E-01Biphenyl HAP/POM 3.80E-04 lb/ADTP NCASI TB 973, Table 10.4 6.16E-03 2.70E-02Carbon disulfide HAP 2.94E-03 lb/ADTP NCASI TB 973, Table 10.4 4.76E-02 2.09E-01Chloroform HAP 4.98E-05 lb/ADTP NCASI TB 973, Table 10.4 8.07E-04 3.53E-03Formaldehyde HAP 1.53E-04 lb/ADTP NCASI TB 973, Table 10.4 2.48E-03 1.08E-02Methanol HAP 3.52E-03 lb/ADTP NCASI TB 973, Table 10.4 5.70E-02 2.50E-01Methylene Chloride HAP 2.33E-04 lb/ADTP NCASI TB 973, Table 10.4 3.77E-03 1.65E-02Phenol HAP 3.07E-04 lb/ADTP NCASI TB 973, Table 10.4 4.98E-03 2.18E-02Propionaldehyde HAP 1.75E-04 lb/ADTP NCASI TB 973, Table 10.4 2.83E-03 1.24E-02Toluene HAP 2.87E-03 lb/ADTP NCASI TB 973, Table 10.4 4.65E-02 2.04E-01
Notes: 1. Applied to all HAP emission factors.
Hourly AnnualCriteria Pollutant Reference (lb/hr) (ton/yr)VOCs as C 10.62 TPY Facility Provided Calculation 2.42 10.62
HAP/POM 4.36Acetaldehyde HAP 1.91 TPY Facility Provided Calculation 0.44 1.91Vinyl acetate HAP 2.45 TPY Facility Provided Calculation 0.56 2.45
Boxboard Mill 2 - Input Information
Hourly Production Rate Annual Production RateMDTFP/hr
Paper Machine Emissions
Annual Hours of Operation
Actual Paper ProductionActual Moisture Content
Air Dried Paper Production
Boxboard Mill Coating OperationsMaximum Emissions
Emission Factor
HAP/POM (Total Speciated below)
Maximum Emissions
HAP/POM (Total Speciated below)
Metals
Emission Factor
HAP/POM (Total Speciated below)
Metals
OCC and Recycled Fiber Stock Prep EmissionsMaximum Emissions
Emission Factor
H:\
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
27.1 MMBtu/hr
0.027 x 106 ft3 233 x 106 ft3
EmissionFactor Hourly Annual
Criteria Pollutant lb/106 ft3 Reference (lb/hr) (ton/yr)Sulfur Dioxide 0.6 AP-42, Table 1.4-2 0.02 0.07Nitrogen Oxides 100 AP-42, Table 1.4-1 2.66 11.64Carbon Monoxide 84 AP-42, Table 1.4-1 2.23 9.78PM (filterable) 1.9 AP-42, Table 1.4-2 0.05 0.22PM10 (filterable) 1.9 AP-42, Table 1.4-2 0.05 0.22PM2.5 (filterable) 1.9 AP-42, Table 1.4-2 0.05 0.22PM (Condensable) 5.7 AP-42, Table 1.4-2 0.15 0.66PM Total 7.6 PM filterable + condensable 0.20 0.88PM10 Total 7.6 PM10 filterable + condensable 0.20 0.88PM2.5 Total 7.6 PM2.5 filterable + condensable 0.20 0.88VOCs as C 5.5 AP-42, Table 1.4-2 0.15 0.64Carbon Dioxide 119,317 40 CFR 98, Table C-1 3,170.08 13,884.95Methane 2.25 40 CFR 98, Subpart 2 0.06 0.26Nitrous Oxide 0.22 40 CFR 98, Subpart 2 0.01 0.03GHGs (mass basis) 119,319 Sum of GHG gases 3,170.15 13,885.24GHGs (CO2e basis) 119,440 GWP: CO2 = 1, CH4 = 25, N2O = 298 3,173.35 13,899.29
HAP/POM 2.20E-012-Methylnaphthalene HAP 2.40E-05 AP-42, Table 1.4-3 6.38E-07 2.79E-06Benzene HAP 2.10E-03 AP-42, Table 1.4-3 5.58E-05 2.44E-04Dichlorobenzene HAP 1.20E-03 AP-42, Table 1.4-3 3.19E-05 1.40E-04Fluoranthene POM 3.00E-06 AP-42, Table 1.4-3 7.97E-08 3.49E-07Fluorene POM 2.80E-06 AP-42, Table 1.4-3 7.44E-08 3.26E-07Formaldehyde HAP 7.50E-02 AP-42, Table 1.4-3 1.99E-03 8.73E-03Naphthalene POM 6.10E-04 AP-42, Table 1.4-3 1.62E-05 7.10E-05n-Hexane HAP 1.80E+00 AP-42, Table 1.4-3 4.78E-02 2.09E-01Pyrene POM 5.00E-06 AP-42, Table 1.4-3 1.33E-07 5.82E-07Toluene HAP 3.40E-03 AP-42, Table 1.4-3 9.03E-05 3.96E-04
Arsenic HAP 2.00E-04 AP-42, Table 1.4-4 5.31E-06 2.33E-05Cadmium HAP 1.10E-03 AP-42, Table 1.4-4 2.92E-05 1.28E-04Chromium HAP 1.40E-03 AP-42, Table 1.4-4 3.72E-05 1.63E-04Cobalt HAP 8.40E-05 AP-42, Table 1.4-4 2.23E-06 9.78E-06Lead HAP 5.00E-04 AP-42, Table 1.4-4 1.33E-05 5.82E-05Manganese HAP 3.80E-04 AP-42, Table 1.4-4 1.01E-05 4.42E-05Mercury HAP 2.60E-04 AP-42, Table 1.4-4 6.91E-06 3.03E-05Nickel HAP 2.10E-03 AP-42, Table 1.4-4 5.58E-05 2.44E-04Notes: 1. Applied to all HAP emission factors.2. Applied to all criteria pollutants except Nitrogen Oxides and Carbon Monoxide3. Applied to Nitrogen Oxides4. Applied to Carbon Monoxide
Metals
Hourly Usage Rate Annual Usage Rate
Annual Hours of OperationClay Coater Dryer - Input Information
Natural Gas Combustion EmissionsMaximum Emissions
Dryer Capacity
FuelNatural Gas
HAP/POM (Total Speciated below)
H:\
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
Index
137 MMBtu/hr 8,760 Hours
Suflur Content0.913 x 103 gal 8,001 x 103 gal 1.5 %0.979 x 103 gal 8,572 x 103 gal 0.5 %0.134 x 106 ft3 1,177 x 106 ft3 -- --
Hourly Usage Rate Annual Usage Rate
Boiler 1 - Input InformationAnnual Hours of OperationBoiler Capacity
FuelNo. 6 Fuel OilNo. 2 Fuel OilNatural Gas
NCASI Database ReferencesEmission
Factor Hourly Annual NCASI Toxics Database Unit Operation NotePollutant (lb/103 gallon) (lb/hr) (ton/yr) Boiler_FuelOil6 1Sulfur Dioxide 157 (S) AP-42, Table 1.3-1 215.09 942.09 Boiler_FuelOil6_NoWetScrubber 2Nitrogen Oxides 47 AP-42, Table 1.3-1 42.93 188.02Carbon Monoxide 5 AP-42, Table 1.3-1 4.57 20.00 NCASI Criteria Database Unit OperationPM (filterable) 8.34 (1.12[S]+0.37) AP-42, Table 1.3-5 15.62 68.39 Boiler_FuelOil6_All_Sizes_All_Configurations 3PM10 (filterable) 10.664 AP-42, Table 1.3-5 9.74 42.66 Boiler_FuelOil6_>100 MMBtu/hr_Wall-Fired 4PM2.5 (filterable) 6.944 AP-42, Table 1.3-5 6.34 27.78PM (Condensable) 1.5 AP-42, Table 1.3-2 1.37 6.00PM Total 8.34 (1.12[S]+0.37) + 1.5 PM filterable + condensable 16.99 74.40PM10 Total 12.164 PM10 filterable + condensable 11.11 48.66PM2.5 Total 8.444 PM2.5 filterable + condensable 7.71 33.78VOCs as C 0.28 AP-42, Table 1.3-3 0.26 1.12
Sulfuric Acid (aerosol forms only) 2.45 (S)EPCRA – Section 313, OPPT EPA/745-R-97-007. November 1997. RTP, N.C.:U.S. EPA 3.36 14.70
Carbon Dioxide 24,835 40 CFR 98, Table C-1 22,682.67 99,350.11Methane 0.99 40 CFR 98, Subpart 2 0.91 3.97Nitrous Oxide 0.20 40 CFR 98, Subpart 2 0.18 0.79GHGs (mass basis) 24,836 Sum of GHG gases 22,683.76 99,354.87GHGs (CO2e basis) 24,919 GWP: CO2 = 1, CH4 = 25, N2O = 298 22,759.33 99,685.86
HAP/POM 1.22E+001,1,1-Trichloroethane HAP 2.36E-04 N/A 2.16E-04 9.44E-041,2,3,4,6,7,8-heptachlorodibenzofuran HAP/POM 1.37E-09 EPA/745-B-00-021, Table 4-9 1.25E-09 5.48E-091,2,3,4,7,8-hexachlorodibenzofuran HAP/POM 6.39E-10 EPA/745-B-00-021, Table 4-9 5.84E-10 2.56E-091,2,3,6,7,8-hexachlorodibenzofuran HAP/POM 2.95E-10 EPA/745-B-00-021, Table 4-9 2.70E-10 1.18E-091,2,3,7,8-pentachlorodibenzofuran HAP/POM 5.36E-10 EPA/745-B-00-021, Table 4-9 4.89E-10 2.14E-092,3,4,6,7,8-hexachlorodibenzofuran HAP/POM 1.98E-10 EPA/745-B-00-021, Table 4-9 1.81E-10 7.94E-102,3,4,7,8-pentachlorodibenzofuran HAP/POM 4.12E-10 EPA/745-B-00-021, Table 4-9 3.77E-10 1.65E-09Acenaphthene POM 2.11E-05 AP-42, Table 1.3-9 1.93E-05 8.44E-05Acenaphthylene POM 2.53E-07 AP-42, Table 1.3-9 2.31E-07 1.01E-06Anthracene POM 1.22E-06 AP-42, Table 1.3-9 1.11E-06 4.88E-06Benzene HAP 2.14E-04 AP-42, Table 1.3-11 1.95E-04 8.56E-04Benzo(g,h,i)perylene HAP 2.26E-06 AP-42, Table 1.3-9 2.06E-06 9.04E-06Dibenzo(a,h)anthracene POM 1.67E-06 AP-42, Table 1.3-9 1.53E-06 6.68E-06Ethyl Benzene HAP 6.36E-05 AP-42, Table 1.3-9 5.81E-05 2.54E-04Fluoranthene POM 4.84E-06 AP-42, Table 1.3-9 4.42E-06 1.94E-05Fluorene POM 4.47E-06 AP-42, Table 1.3-9 4.08E-06 1.79E-05Formaldehyde HAP 3.30E-02 AP-42, Table 1.3-9 3.01E-02 1.32E-01Hydrochloric acid HAP 1.40E-01 NCASI SARA Handbook, Table 3.1, Median Value 1.28E-01 5.59E-01Hydrofluoric acid HAP 2.10E-02 EPA-453/R-98-004b 1.92E-02 8.40E-02Naphthalene POM 1.13E-03 AP-42, Table 1.3-9 1.03E-03 4.52E-03Pyrene POM 4.25E-06 AP-42, Table 1.3-9 3.88E-06 1.70E-05Toluene HAP 6.20E-03 AP-42, Table 1.3-9 5.66E-03 2.48E-02Xylenes (mixed isomers) HAP 1.10E-04 AP-42, Table 1.3-9 1.00E-04 4.40E-04
HAP/POM (Total Speciated below)
Maximum EmissionsNo. 6 Fuel Oil Combustion Emissions
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9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
Index
137 MMBtu/hr 8,760 Hours
Suflur Content0.913 x 103 gal 8,001 x 103 gal 1.5 %0.979 x 103 gal 8,572 x 103 gal 0.5 %0.134 x 106 ft3 1,177 x 106 ft3 -- --
Hourly Usage Rate Annual Usage Rate
Boiler 1 - Input InformationAnnual Hours of OperationBoiler Capacity
FuelNo. 6 Fuel OilNo. 2 Fuel OilNatural Gas
Antimony HAP 5.25E-03 AP-42, Table 1.3-11 4.80E-03 2.10E-02Arsenic HAP 1.32E-03 AP-42, Table 1.3-11 1.21E-03 5.28E-03Beryllium HAP 2.78E-05 AP-42, Table 1.3-11 2.54E-05 1.11E-04Cadmium HAP 3.98E-04 AP-42, Table 1.3-11 3.64E-04 1.59E-03Chromium HAP 8.45E-04 AP-42, Table 1.3-11 7.72E-04 3.38E-03Chromium (VI) HAP 2.48E-04 AP-42, Table 1.3-11 2.27E-04 9.92E-04Cobalt HAP 6.02E-03 AP-42, Table 1.3-11 5.50E-03 2.41E-02Lead HAP 1.51E-03 AP-42, Table 1.3-11 1.38E-03 6.04E-03Manganese HAP 3.00E-03 AP-42, Table 1.3-11 2.74E-03 1.20E-02Mercury HAP 1.13E-04 AP-42, Table 1.3-11 1.03E-04 4.52E-04Nickel HAP 8.45E-02 AP-42, Table 1.3-11 7.72E-02 3.38E-01Selenium HAP 6.83E-04 AP-42, Table 1.3-11 6.24E-04 2.73E-03Notes1. Applied to sulfuric acid and all HAP emission factors except HCl and HF.2. Applied to HCl and HF.3. Applied to all criteria pollutants except Nitrogen Oxides4. Applied to Nitrogen Oxides
Metals
H:\
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
Index
200 MMBtu/hr 8,760 Hours
Suflur Content1.333 x 103 gal 11,680 x 103 gal 1.5 %1.429 x 103 gal 12,514 x 103 gal 0.5 %0.196 x 106 ft3 1,718 x 106 ft3 -- --
NCASI Database ReferencesEmission
Factor Hourly AnnualCriteria Pollutant lb/106 ft3 Reference (lb/hr) (ton/yr) NCASI Toxics Database Unit Operation NoteSulfur Dioxide 0.6 AP-42, Table 1.4-2 0.12 0.52 Boiler_NatGas 1Nitrogen Oxides 280 AP-42, Table 1.4-1 54.90 240.47Carbon Monoxide 84 AP-42, Table 1.4-1 16.47 72.14 NCASI Criteria Database Unit OperationPM (filterable) 1.9 AP-42, Table 1.4-2 0.37 1.63 Boiler_NatGas_All_Sizes_All_Configurations 2PM10 (filterable) 1.9 AP-42, Table 1.4-2 0.37 1.63 Boiler_NatGas_>100 MMBtu/hr_Wall-Fired _preNSPS 3PM2.5 (filterable) 1.9 AP-42, Table 1.4-2 0.37 1.63 Boiler_NatGas_Wall-Fired 4PM (Condensable) 5.7 AP-42, Table 1.4-2 1.12 4.90PM Total 7.6 PM filterable + condensable 1.49 6.53PM10 Total 7.6 PM10 filterable + condensable 1.49 6.53PM2.5 Total 7.6 PM2.5 filterable + condensable 1.49 6.53VOCs as C 5.5 AP-42, Table 1.4-2 1.08 4.72Carbon Dioxide 119,317 40 CFR 98, Table C-1 23,395.43 102,471.97Methane 2.25 40 CFR 98, Subpart 2 0.44 1.93Nitrous Oxide 0.22 40 CFR 98, Subpart 2 0.04 0.19GHGs (mass basis) 119,319 Sum of GHG gases 23,395.91 102,474.10GHGs (CO2e basis) 119,440 GWP: CO2 = 1, CH4 = 25, N2O = 298 23,419.59 102,577.80
HAP/POM 1.62E+002-Methylnaphthalene HAP 2.40E-05 AP-42, Table 1.4-3 4.71E-06 2.06E-05Benzene HAP 2.10E-03 AP-42, Table 1.4-3 4.12E-04 1.80E-03Dichlorobenzene HAP 1.20E-03 AP-42, Table 1.4-3 2.35E-04 1.03E-03Fluoranthene POM 3.00E-06 AP-42, Table 1.4-3 5.88E-07 2.58E-06Fluorene POM 2.80E-06 AP-42, Table 1.4-3 5.49E-07 2.40E-06Formaldehyde HAP 7.50E-02 AP-42, Table 1.4-3 1.47E-02 6.44E-02Naphthalene POM 6.10E-04 AP-42, Table 1.4-3 1.20E-04 5.24E-04n-Hexane HAP 1.80E+00 AP-42, Table 1.4-3 3.53E-01 1.55E+00Pyrene POM 5.00E-06 AP-42, Table 1.4-3 9.80E-07 4.29E-06Toluene HAP 3.40E-03 AP-42, Table 1.4-3 6.67E-04 2.92E-03
Arsenic HAP 2.00E-04 AP-42, Table 1.4-4 3.92E-05 1.72E-04Cadmium HAP 1.10E-03 AP-42, Table 1.4-4 2.16E-04 9.45E-04Chromium HAP 1.40E-03 AP-42, Table 1.4-4 2.75E-04 1.20E-03Cobalt HAP 8.40E-05 AP-42, Table 1.4-4 1.65E-05 7.21E-05Lead HAP 5.00E-04 AP-42, Table 1.4-4 9.80E-05 4.29E-04Manganese HAP 3.80E-04 AP-42, Table 1.4-4 7.45E-05 3.26E-04Mercury HAP 2.60E-04 AP-42, Table 1.4-4 5.10E-05 2.23E-04Nickel HAP 2.10E-03 AP-42, Table 1.4-4 4.12E-04 1.80E-03Notes: 1. Applied to all HAP emission factors.2. Applied to all criteria pollutants except Nitrogen Oxides and Carbon Monoxide3. Applied to Nitrogen Oxides
Annual Hours of Operation
Hourly Usage Rate Annual Usage Rate
Boiler 2 - Input Information
Natural Gas Combustion EmissionsMaximum Emissions
HAP/POM (Total Speciated below)
Metals
Boiler Capacity
FuelNo. 6 Fuel OilNo. 2 Fuel OilNatural Gas
H:\
9/19/2017 WestRockSt. Paul, MN
Emissions Inventory
15-34875
Index
200 MMBtu/hr 8,760 Hours
Suflur Content1.333 x 103 gal 11,680 x 103 gal 1.5 %1.429 x 103 gal 12,514 x 103 gal 0.5 %0.196 x 106 ft3 1,718 x 106 ft3 -- --
Annual Hours of Operation
Hourly Usage Rate Annual Usage Rate
Boiler 2 - Input InformationBoiler Capacity
FuelNo. 6 Fuel OilNo. 2 Fuel OilNatural Gas
NCASI Database References
Emission NCASI Toxics Database Unit Operation NoteFactor Hourly Annual Boiler_FuelOil2 1
Pollutant (lb/103 gallon) (lb/hr) (ton/yr)Sulfur Dioxide 142 (S) AP-42, Table 1.3-1 101.43 444.26 NCASI Criteria Database Unit OperationNitrogen Oxides 24 AP-42, Table 1.3-1 34.29 150.17 Boiler_FuelOil2_All_Sizes_All_Configurations 2Carbon Monoxide 5 AP-42, Table 1.3-1 7.14 31.29 Boiler_FuelOil2_>100 MMBtu/hr_All_Configurations 3PM (filterable) 2 AP-42, Table 1.3-6 2.86 12.51PM10 (filterable) 1 AP-42, Table 1.3-6 1.43 6.26PM2.5 (filterable) 0.24 AP-42, Table 1.3-6 0.34 1.50PM (Condensable) 1.3 AP-42, Table 1.3-2 1.86 8.13PM Total 3.3 PM filterable + condensable 4.71 20.65PM10 Total 2.3 PM10 filterable + condensable 3.29 14.39PM2.5 Total 1.54 PM2.5 filterable + condensable 2.20 9.64VOCs as C 0.2 AP-42, Table 1.3-3 0.29 1.25Sulfuric Acid (aerosol forms only) 2.45 (S) EPA/745-R-97-007 1.75 7.67Carbon Dioxide 22,828 40 CFR 98, Table C-1 32,610.74 142,835.04Methane 0.93 40 CFR 98, Subpart 2 1.32 5.79Nitrous Oxide 0.19 40 CFR 98, Subpart 2 0.26 1.16GHGs (mass basis) 22,829 Sum of GHG gases 32,612.33 142,841.99GHGs (CO2e basis) 22,906 GWP: CO2 = 1, CH4 = 25, N2O = 298 32,722.65 143,325.19
HAP/POM 4.29E-021,2,3,4,6,7,8-heptachlorodibenzofuran HAP/POM 1.37E-09 EPA/745-B-00-021, Table 4-9 1.96E-09 8.57E-091,2,3,4,7,8-hexachlorodibenzofuran HAP/POM 6.39E-10 EPA/745-B-00-021, Table 4-9 9.13E-10 4.00E-091,2,3,6,7,8-hexachlorodibenzofuran HAP/POM 2.95E-10 EPA/745-B-00-021, Table 4-9 4.22E-10 1.85E-091,2,3,7,8-pentachlorodibenzofuran HAP/POM 5.36E-10 EPA/745-B-00-021, Table 4-9 7.65E-10 3.35E-092,3,4,6,7,8-hexachlorodibenzofuran HAP/POM 1.98E-10 EPA/745-B-00-021, Table 4-9 2.83E-10 1.24E-092,3,4,7,8-pentachlorodibenzofuran HAP/POM 4.12E-10 EPA/745-B-00-021, Table 4-9 5.89E-10 2.58E-09
Arsenic HAP 5.60E-04 AP-42, Table 1.3-10 8.00E-04 3.50E-03Beryllium HAP 4.20E-04 AP-42, Table 1.3-10 6.00E-04 2.63E-03Cadmium HAP 4.20E-04 AP-42, Table 1.3-10 6.00E-04 2.63E-03Chromium HAP 4.20E-04 AP-42, Table 1.3-10 6.00E-04 2.63E-03Lead HAP 1.26E-03 AP-42, Table 1.3-10 1.80E-03 7.88E-03Manganese HAP 8.40E-04 AP-42, Table 1.3-10 1.20E-03 5.26E-03Mercury HAP 4.20E-04 AP-42, Table 1.3-10 6.00E-04 2.63E-03Nickel HAP 4.20E-04 AP-42, Table 1.3-10 6.00E-04 2.63E-03Selenium HAP 2.10E-03 AP-42, Table 1.3-10 3.00E-03 1.31E-02Notes: 1. Applied to sulfuric acid and all HAP emission factors.2. Applied to all criteria pollutants except Nitrogen Oxides3. Applied to Nitrogen Oxides
No. 2 Fuel Oil Combustion Emissions
Maximum Emissions
HAP/POM (Total Speciated below)
Metals
H:\
Attachment 2 – Subject item inventory and facility requirements
Agency Interest Name Subject Item ID SI Designation and Description
WestRock MN Corp ACTV3NullAll IAs
AISI2477NullNull
COMG1GP001Boilers
EQUI1EU004Boiler 4 - tangential fired
EQUI6EU018Clay Coater Dryer
EQUI10EU001Boiler 1 - decommissioned
EQUI11EU002Boiler 2 - normal fired
EQUI12EU003Boiler 3 - normal fired
EQUI66EU013CorMed Paper Machine 4
EQUI67EU014CorMed Paper Machine 5
EQUI68EU015Boxboard Mill 1
EQUI69EU016Boxboard Mill 2
EQUI70 EU017CorMed Web Welder
List of SIs
Agency Interest: WestRock MN CorpAgency Interest ID: 2477Activity: IND20150003 (Part 70 Reissuance)
Details for:SI Category: NoneSI Type: All
Agency Interest Name Subject Item ID SI Designation and DescriptionWestRock MN Corp
EQUI69EU016Boxboard Mill 2
EQUI70EU017CorMed Web Welder
FUGI1FS001Paved Roads
STRU4SV006CorMed Paper Machine 4
STRU5SV007CorMed Paper Machine 5
STRU6SV008Boxboard Mill 1
STRU7SV009Boxboard Mill 2
STRU9SV011Clay Coater
STRU10SV001Boilers 2 and 3
STRU11SV002Boiler 4
TFAC212300410WestRock MN Corp
List of SIs
Agency Interest: WestRock MN CorpAgency Interest ID: 2477Activity: IND20150003 (Part 70 Reissuance)
Details for:SI Category: NoneSI Type: All
Agency Interest Na.. Activity ID Subject Ite..Subject Item Type Description Subject Item ID SI Designation and Description Status Desc..Sub Attribute Description
WestRock MN Corp IND20150003 Activity Insignificant Air Emissions Activity ACTV3 NullAll IAs
Active /Existing
Minn. R. 7007.1300, subp. 3(G)
Minn. R. 7007.1300, subp.3(H)(3)
Minn. R. 7007.1300, subp.3(H)(4)
Minn. R. 7007.1300, subp. 3(I)
Minn. R. 7007.1300, subp. 3(J)
Minn. R. 7007.1300, subp. 4
Minn. R. 7008.4110
Insignificant air emissions activity
Agency Interest: WestRock MN CorpAgency Interest ID: 2477Activity: IND20150003 (Part 70 Reissuance)
Details for:SI Category: ActivitySI Type: Insignificant Air Emissions Activity
Agency Interest Name Subject Item ID SI Designation and Description Group Member ID (padded)
WestRock MN Corp COMG1 GP001Boilers
EQUI1
EQUI11
EQUI12
Component Group (Members)
Agency Interest: WestRock MN CorpAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: Component GroupSI Type: Air Component Group
Subject ItemCategory Description
Subject Item TypeDescription Subject Item ID
Subject ItemDesignation Subject Item Description Pollutant
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Equipment Boiler EQUI1 EU004 Boiler 4 - tangential fired 1,1,1-Trichloroethane
1,4-Dichlorobenzene (par..
2-Methylnaphthalene
Acenaphthene
Acenaphthylene
Anthracene
Antimony compounds
Arsenic compounds
Benzene
Benzo(ghi)perylene
Beryllium Compounds
Cadmium compounds
Carbon Dioxide
Carbon Dioxide Equivalent
Carbon Monoxide
Chromium compounds
Cobalt compounds
Dibenz[a,h]anthracene
Ethylbenzene
Fluoranthene
Fluorene
Formaldehyde
HAPs - Total
Hexane
Hydrochloric acid
Lead
Manganese compounds
Mercury Compounds
Methane
Naphthalene
Nickel compounds
Nitrogen Oxides
Nitrous Oxide
Particulate Matter
PM < 2.5 micron
PM < 10 micron
Pyrene
Selenium compounds
Sulfur Dioxide
Sulfuric Acid Mist
Toluene
Volatile Organic Compoun..
Xylenes, Total
EQUI10 EU001 Boiler 1 - decommissioned 1,1,1-Trichloroethane
1,4-Dichlorobenzene (par..
Antimony compounds
Arsenic compounds
Benzene
Beryllium
Cadmium compounds
Carbon Monoxide
Chromium compounds
Cobalt compounds
Ethylbenzene
Formaldehyde
HAPs - Total
Hexane
Lead
Manganese compounds
Mercury
Naphthalene
Nickel compounds
Nitrogen Oxides
Particulate Matter
PM < 10 micron
05.479
0.0033870
0.59770
4.981e-067.5717.5717.5710.224169.4
0.0020920.0006077
2.240.0002590.00037860.0004981
01.7931.881
0.074722.789e-062.989e-06
00
8.368e-050.00139523.91
119,000118,9000.001096
00
0.0020920.0001992
0000
2.391e-050.001195
0
0.00074521.4520.04224.91,595
0.0046272.879e-05
82.457.21261.344216.80.5724
0.0076556.721
0.00076550.020320.010230.94731.7932.0710.2236
3.028e-053.279e-050.00043091.131e-050.040780.00740433.87
168,800168,2000.0026960.00018831.531e-050.001450.0089420.035578.265e-061.714e-060.0001429
0.001599
1.2510.0007733
00.1365
1.137e-061.7291.7291.729
0.0511538.67
0.00047760.00013870.5115
5.914e-058.643e-050.0001137
0.40940
0.017066.369e-076.824e-07
1.911e-050.0003184
5.45927,17027,140
0.0002502
0.00047764.549e-05
00.0002729
000000000000000000000
74.4188.020.34
0.004520.00180.012
0.006041.061.220.13
0.0002540.02410.004449.420.00180.00180.001240.005280.021
0.0007060.000944
000000000000000000000
PTE by subject item
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Subject ItemCategory Description
Subject Item TypeDescription Subject Item ID
Subject ItemDesignation Subject Item Description Pollutant
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Equipment Boiler EQUI10 EU001 Boiler 1 - decommissionedParticulate Matter
PM < 10 micron
Polycyclic organic matter
Selenium compounds
Sulfur Dioxide
Toluene
Volatile Organic Compoun..
Xylenes, Total
EQUI11 EU002 Boiler 2 - normal fired 1,1,1-Trichloroethane
Acenaphthene
Acenaphthylene
Anthracene
Antimony compounds
Arsenic compounds
Benzene
Benzo(ghi)perylene
Beryllium Compounds
Cadmium compounds
Carbon Dioxide
Carbon Dioxide Equivalent
Carbon Monoxide
Chromium compounds
Cobalt compounds
Dibenz[a,h]anthracene
Ethylbenzene
Fluoranthene
Fluorene
Formaldehyde
HAPs - Total
Hydrochloric acid
Lead
Manganese compounds
Mercury Compounds
Methane
Naphthalene
Nickel compounds
Nitrogen Oxides
Nitrous Oxide
Particulate Matter
PM < 2.5 micron
PM < 10 micron
Pyrene
Selenium compounds
Sulfur Dioxide
Sulfuric Acid Mist
Toluene
Volatile Organic Compoun..
Xylenes, Total
EQUI12 EU003 Boiler 3 - normal fired 1,1,1-Trichloroethane
Acenaphthene
Acenaphthylene
Anthracene
Antimony compounds
Arsenic compounds
Benzene
Benzo(ghi)perylene
Beryllium Compounds
Cadmium compounds
Carbon Dioxide
Carbon Dioxide Equivalent
Carbon Monoxide
Chromium compounds
Cobalt compounds
Dibenz[a,h]anthracene
Ethylbenzene
Fluoranthene
0000000
0.0004363.24
0.0248942.10.0090.014148.66
0000000
0.00064244.724
0.0362121.461,375
0.0039892.482e-05
71.0449.31108.61.159274.50.4935
0.0065995.794
0.00065990.017520.0088180.81661.7860.19272.61e-052.827e-050.00037149.753e-060.035160.00638372.14
145,500145,0000.0023240.00016241.32e-050.001250.0077090.030667.125e-061.478e-060.00012320.001378
0.00064244.724
0.0362121.461,375
0.0039892.482e-05
71.0449.31108.61.159274.50.4935
0.0065995.794
0.00065990.017520.0088180.81661.7860.19272.61e-052.827e-050.00037149.753e-060.035160.00638372.14
145,500145,0000.0023240.00016241.32e-050.001250.0077090.030667.125e-061.478e-060.00012320.001378
0.00014671.078
0.0082674.9314
0.00091075.667e-06
16.2211.2624.8
0.264662.670.1127
0.0015071.323
0.00015070.004
0.002010.1864
00.044
5.96e-066.453e-068.48e-052.227e-060.0080270.00145716.4733,23033,110
0.00053073.707e-053.013e-060.00028530.001760.007
1.627e-063.373e-072.813e-050.0003147
0.00037149.753e-060.035160.00638372.14
145,500145,0000.0023240.00016241.32e-050.001250.0077090.030667.125e-061.478e-060.00012320.001378
0.00037149.753e-060.035160.00638372.14
145,500145,0000.0023240.00016241.32e-050.001250.0077090.030667.125e-061.478e-060.00012320.001378
8.48e-052.227e-060.0080270.00145716.4733,23033,110
0.00053073.707e-053.013e-060.00028530.001760.007
1.627e-063.373e-072.813e-050.0003147
PTE by subject item
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Subject ItemCategory Description
Subject Item TypeDescription Subject Item ID
Subject ItemDesignation Subject Item Description Pollutant
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Equipment Boiler EQUI12 EU003 Boiler 3 - normal firedEthylbenzene
Fluoranthene
Fluorene
Formaldehyde
HAPs - Total
Hydrochloric acid
Lead
Manganese compounds
Mercury Compounds
Methane
Naphthalene
Nickel compounds
Nitrogen Oxides
Nitrous Oxide
Particulate Matter
PM < 2.5 micron
PM < 10 micron
Pyrene
Selenium compounds
Sulfur Dioxide
Sulfuric Acid Mist
Toluene
Volatile Organic Compoun..
Xylenes, Total
Dryer/Oven, unknownfiring method
EQUI6 EU018 Clay Coater Dryer 1,4-Dichlorobenzene (par..
2-Methylnaphthalene
Arsenic compounds
Benzene
Cadmium compounds
Carbon Dioxide
Carbon Dioxide Equivalent
Carbon Monoxide
Chromium compounds
Cobalt compounds
Fluoranthene
Fluorene
Formaldehyde
HAPs - Total
Hexane
Lead
Manganese compounds
Mercury Compounds
Methane
Naphthalene
Nickel compounds
Nitrogen Oxides
Nitrous Oxide
Particulate Matter
PM < 2.5 micron
PM < 10 micron
Pyrene
Sulfur Dioxide
Toluene
Volatile Organic Compoun..
Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4 Acetaldehyde
Biphenyl
Carbon disulfide
Chloroform
Cumene (Isopropylbenzen..
Dichloromethane (Methyl..
Formaldehyde
HAPs - Total
Methanol
Naphthalene
Particulate Matter
Phenol
0.00064244.724
0.0362121.461,375
0.0039892.482e-05
71.0449.31108.61.159274.50.4935
0.0065995.794
0.00065990.017520.0088180.81661.7860.19272.61e-052.827e-05
0.00064244.724
0.0362121.461,375
0.0039892.482e-05
71.0449.31108.61.159274.50.4935
0.0065995.794
0.00065990.017520.0088180.81661.7860.19272.61e-052.827e-05
0.00014671.078
0.0082674.9314
0.00091075.667e-06
16.2211.2624.8
0.264662.670.1127
0.0015071.323
0.00015070.004
0.0020130.1864
00.044
5.96e-066.453e-06
0.640.00039570.069825.819e-070.88440.88440.88440.0261711.64
0.00024447.099e-050.2617
3.026e-054.422e-055.819e-050.20950.2198
0.0087283.258e-073.491e-079.775e-060.0001629
9.77513,90013,880
0.0001280.00024442.327e-052.793e-060.0001396
0.640.00039570.069825.819e-070.88440.88440.88440.0261711.64
0.00024447.099e-050.2617
3.026e-054.422e-055.819e-050.20950.2198
0.0087283.258e-073.491e-079.775e-060.0001629
9.77513,90013,880
0.0001280.00024442.327e-052.793e-060.0001396
0.14619.033e-050.015941.328e-070.20190.20190.2019
0.0059752.657
5.579e-051.621e-050.059756.908e-061.01e-051.328e-050.04782
00.0019937.439e-087.971e-082.232e-063.72e-052.2323,1733,170
2.923e-055.579e-055.314e-066.376e-073.188e-05
10.712.3242.41916.40.7060.28520.2730.95451.881
0.026592.289
10.712.3242.41916.40.7060.28520.2730.95451.881
0.026592.289
2.4450.53060.5523
00.16120.65120.062320.21790.4295
0.0030710.5226
PTE by subject item
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Subject ItemCategory Description
Subject Item TypeDescription Subject Item ID
Subject ItemDesignation Subject Item Description Pollutant
Potential (lbs/hr)
Unrestricted Potential
(tons/yr)
Potential Limited
(tons/yr)
Actual Emissions
(tons/yr)
Equipment Other Emission Unit EQUI66 EU013 CorMed Paper Machine 4Particulate Matter
Phenol
PM < 2.5 micron
PM < 10 micron
Propionaldehyde
Toluene
Volatile Organic Compoun..
EQUI67 EU014 CorMed Paper Machine 5 Acetaldehyde
Biphenyl
Carbon disulfide
Chloroform
Cumene (Isopropylbenzen..
Dichloromethane (Methyl..
Formaldehyde
HAPs - Total
Methanol
Naphthalene
Particulate Matter
Phenol
PM < 2.5 micron
PM < 10 micron
Propionaldehyde
Toluene
Volatile Organic Compoun..
EQUI68 EU015 Boxboard Mill 1 Acetaldehyde
Biphenyl
Carbon disulfide
Chloroform
Cumene (Isopropylbenzen..
Dichloromethane (Methyl..
Formaldehyde
HAPs - Total
Methanol
Naphthalene
Particulate Matter
Phenol
PM < 2.5 micron
PM < 10 micron
Propionaldehyde
Toluene
Vinyl acetate (Acetic acid)
Volatile Organic Compoun..
EQUI69 EU016 Boxboard Mill 2 Acetaldehyde
Biphenyl
Carbon disulfide
Chloroform
Chloromethane
Cumene (Isopropylbenzen..
Formaldehyde
HAPs - Total
Methanol
Naphthalene
Particulate Matter
Phenol
PM < 2.5 micron
PM < 10 micron
Propionaldehyde
Toluene
Vinyl acetate (Acetic acid)
Volatile Organic Compoun..
Fugitive Paved Road FUGI1 FS001 Paved Roads Particulate Matter
PM < 10 micron
16.53.6960.20438.7167.9811.342
16.53.6960.20438.7167.9811.342
3.7670.84390.046651.991.8220.3065
17.083.8260.21159.0218.261.38911.082.4052.50416.980.73070.29520.28250.98791.947
0.027522.369
17.083.8260.21159.0218.261.38911.082.4052.50416.980.73070.29520.28250.98791.947
0.027522.369
3.8990.87340.048282.061.8860.31722.53
0.54920.5716
00.16680.067390.06450.22550.4445
0.0062840.5409
60.282.6342.96
0.16366.9786.391.0758.5731.8611.7617.640.56530.22840.21850.76421.506
0.021293.881
60.282.6342.96
0.16366.9786.391.0758.5731.8611.7617.640.56530.22840.21850.76421.506
0.021293.881
13.760.60130.67570.037351.5931.4590.24541.9570.42480.4019
00.12910.052140.04990.17450.3439
0.0048610.8861
72.522.453.75
0.20738.8418.0951.36210.862.3572.2320.770.71620.27690.28930.96821.908
0.026974.227
72.522.453.75
0.20738.8418.0951.36210.862.3572.2320.770.71620.27690.28930.96821.908
0.026974.227
16.560.55930.85610.047322.0191.8480.31092.48
0.53820.5092
00.16350.063210.066050.22110.4356
0.0061590.9652
7.27.2
7.27.2
1.6461.646
PTE by subject item
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: AllSI Type: All
Subject ItemCategoryDescription
Subject Item TypeDescription Subject Item ID SI Designation and Description Relationship
Related SubjectItem ID % Flow
Related Subject ItemType Description
Start Date (RelatedSubject Item)
End Date (RelatedSubject Item)
Equipment Boiler EQUI1EU004Boiler 4 - tangential fired
sends to STRU11 100 Stack/Vent 4/17/2003 Null
EQUI11EU002Boiler 2 - normal fired
sends to STRU10 100 Stack/Vent 4/17/2003 Null
EQUI12EU003Boiler 3 - normal fired
sends to STRU10 100 Stack/Vent 4/17/2003 Null
Dryer/Oven,unknown firing m..
EQUI6EU018Clay Coater Dryer
sends to STRU9 100 Stack/Vent 4/17/2003 Null
Other EmissionUnit
EQUI66EU013CorMed Paper Machine 4
sends to STRU4 100 Stack/Vent 4/17/2003 Null
EQUI67EU014CorMed Paper Machine 5
sends to STRU5 100 Stack/Vent 4/17/2003 Null
EQUI68EU015Boxboard Mill 1
sends to STRU6 100 Stack/Vent 4/17/2003 Null
EQUI69EU016Boxboard Mill 2
sends to STRU7 100 Stack/Vent 4/17/2003 Null
SI - SI relationships
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: EquipmentSI Type: All
Subject ItemTypeDescription Subject Item ID SI Designation and Description Manufacturer Model
Max DesignCapacity
Max DesignCapacityUnits(numerator)
Max DesignCapacity Units(denominator) Material
ConstructionStart Date
OperationStart Date
ModificationDate
OtherEmissionUnit
EQUI66EU013CorMed Paper Machine 4
Multiple Fourdrinier 19.05 tons hours Paper 1/1/1933 1/1/1955 Null
EQUI67EU014CorMed Paper Machine 5
Multiple Fourdrinier 20.1 tons hours Paper 1/1/1933 1/1/1955 Null
EQUI68EU015Boxboard Mill 1
Multiple Multi-ply 16.8 tons hours Paper 1/1/1907 1/1/1908 Null
EQUI69EU016Boxboard Mill 2
Multiple Multi-ply 19.5 tons hours Paper 1/1/1907 1/1/1908 Null
Spray Booth/Coating Line
EQUI70EU017CorMed Web Welder
Multiple Web Welder 84000 feet hours Product 1/1/1969 8/1/1969 Null
Emission Units 1
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: NoneSI Type: Other Emission Unit & Spray Booth/Coating Line
Subject Item TypeDescription Subject Item ID SI Designation and Description Manufacturer Model
Max DesignCapacity
Max DesignCapacity Units(numerator)
Max DesignCapacity Units(denominator) Material
ConstructionStart Date
OperationStart Date
ModificationDate
Boiler EQUI1EU004Boiler 4 - tangential fired
Babcock & Wilcox Package 232million Britishthermal units
hours Heat 1/1/1964 1/1/1964 Null
EQUI10EU001Boiler 1 - decommissioned
Edgemoore Field erected137million Britishthermal units
hours Heat 1/1/1928 1/1/1928 Null
EQUI11EU002Boiler 2 - normal fired
Riley Field erected200million Britishthermal units
hours Heat 1/1/1947 1/1/1947 Null
EQUI12EU003Boiler 3 - normal fired
Riley Field erected200million Britishthermal units
hours Heat 1/1/1949 1/1/1949 Null
Dryer/Oven, unknownfiring method EQUI6
EU018Clay Coater Dryer
Midland RossHot Air/Infrared
27.1million Britishthermal units
hours Heat 1/1/1967 1/1/1968 Null
Emission Units 2
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: EquipmentSI Type: Boiler & Dryer/Oven, unknown firing method
Subject Item TypeDescription Subject Item ID SI Designation and Description
FiringMethod Engine Use
EngineDisplacement
EngineDisplacementUnits
Subject toCSAPR?
ElectricGeneratingCapacity(MW)
Boiler EQUI1EU004Boiler 4 - tangential fired
Not coalburning
Null Null Null N Null
EQUI10EU001Boiler 1 - decommissioned
Not coalburning
Null Null Null N Null
EQUI11EU002Boiler 2 - normal fired
Not coalburning
Null Null Null N Null
EQUI12EU003Boiler 3 - normal fired
Not coalburning
Null Null Null N Null
Dryer/Oven, unknownfiring method EQUI6
EU018Clay Coater Dryer
Not coalburning
Null Null Null Null Null
Emission Units 2 (continued)
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: EquipmentSI Type: Boiler & Dryer/Oven, unknown firing method
Subject Item TypeDescription Subject Item ID SI Designation and Description Install Year Pollutants Emitted
Paved Road FUGI1 FS001Paved Roads
2003 Particulate Matter
PM < 10 micron
Fugitive Sources
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: FugitiveSI Type: Paved Road
Subject ItemTypeDescription Subject Item ID SI Designation and Description
Stack Height(feet)
StackDiameter(feet)
Stack Length(feet)
Stack Width(feet)
Stack Flow Rate(cubic ft/min)
DischargeTemperature(°F)
FlowRate/TempInformationSource Discharge Direction
Stack/Vent STRU4SV006CorMed Paper Machine 4
40 Null 3.5 4.67 48300 130 EstimateUpwards with no cap onstack/vent
STRU5SV007CorMed Paper Machine 5
40 Null 3.5 4.67 57700 100 EstimateUpwards with no cap onstack/vent
STRU6SV008Boxboard Mill 1
60 Null 4.79 6.44 46000 140 EstimateUpwards with no cap onstack/vent
STRU7SV009Boxboard Mill 2
55 Null 3.49 5.29 62000 110 EstimateUpwards with no cap onstack/vent
STRU9SV011Clay Coater
49 Null 0.9 0.6 1400 80 Estimate Horizontally
STRU10SV001Boilers 2 and 3
197 12.7 Null Null 414836 382 EstimateUpwards with no cap onstack/vent
STRU11SV002Boiler 4
115 7 Null Null 96100 500 EstimateUpwards with no cap onstack/vent
Stack/Vent, General
Agency Interest: NoneAgency Interest ID: 2477Activity: None (Part 70 Reissuance)
Details for:SI Category: StructureSI Type: Stack/Vent
Subject
Item ID Seq. # Requirement Citation
TFAC 2(12300410) 1
PERMIT SHIELD: Subject to the limitations in Minn. R. 7007.1800, compliance with the conditions of this permit shall be deemed compliance with the specific provision of the applicable requirement identified in the permit as the basis of each condition. Subject to the limitations of Minn. R. 7007.1800 and 7017.0100, subp. 2, notwithstanding the conditions of this permit specifying compliance practices for applicable requirements, any person (including the Permittee) may also use other credible evidence to establish compliance or noncompliance with applicable requirements.
This permit shall not alter or affect the liability of the Permittee for any violation of applicable requirements prior to or at the time of permit issuance. Minn. R. 7007.1800, (A)(2)
TFAC 2(12300410) 5
Permit Appendices: This permit contains appendices as listed in the permit Table of Contents. The Permittee shall comply with all requirements contained in Appendices A ‐ C, Insignificant Activities, 40 CFR pt. 63, subp. A General Provisions, and 40 CFR pt. 63, subp. JJJJ, respectively.
Modeling parameters in Appendix D are included for reference only as described elsewhere in this permit. Minn. R. 7007.0800, subp. 2
TFAC 2(12300410) 7
Modeled Parameters for NOx, CO, SO2, and PM10 : The parameters used in modeling for permit number 12300410‐003 are listed in Appendix D of this permit. The parameters describe the operation of the facility at maximum permitted capacity. The purpose of listing the parameters in the appendix is to provide a benchmark for future changes.
Minn. R. 7007.0100, subps. 7(A), 7(L), & 7(M), Minn. R. 7007.0800 subps.1, 2, & 4, Minn. R. 7009.0010‐7009.0080, Minn. Stat. 116.116.07 subds. 4a & 9
TFAC 2(12300410) 11
These requirements apply if a reasonable possibility (RP) as defined in 40 CFR Section 52.21(r)(6)(vi) exists that a proposed project, analyzed using the actual‐to‐projected‐actual (ATPA) test (either by itself or as part of the hybrid test at Section 52.21(a)(2)(iv)(f)) and found to not be part of a major modification, may result in a significant emissions increase (SEI). If the ATPA test is not used for the project, or if there is no RP that the proposed project could result in a SEI, these requirements do not apply to that project. The Permittee is only subject to the Preconstruction Documentation requirement for a project where a RP occurs only within the meaning of Sec on 52.21(r)(6)(vi)(b).
Even though a particular modification is not subject to New Source Review (NSR), or where there isn't a RP that a proposed project could result in a SEI, a permit amendment, recordkeeping, or notification may still be required by Minn. R. 7007.1150 ‐ 7007.1500.
Minn. R. 7007.0800, subp. 2, Title I Condition: 40 CFR 52.21(r)(6) and Minn. R. 7007.3000
TFAC 2(12300410) 12
Preconstruction Documentation ‐‐ Before beginning actual construction on a project, the Permittee shall document the following:
1. Project descrip on
2. Iden fica on of any emission unit whose emissions of an NSR pollutant could be affected3. Pre‐change potential emissions of any affected existing emission unit, and the projected post‐change poten al emissions of any affected exis ng or new emission unit.4. A description of the applicability test used to determine that the project is not a major modification for any regulated NSR pollutant, including the baseline actual emissions, the projected actual emissions, the amount of emissions excluded due to increases not associated with the modification and that the emission unit could have accommodated during the baseline period, an explanation of why the amounts were excluded, and any creditable contemporaneous increases and decreases that were considered in the determina on.
The Permittee shall maintain records of this documentation.
Minn. R. 7007.0800, subps. 4‐5, Minn. R. 7007.1200, subp. 4, Title I Condition: 40 CFR 52.21(r)(6) and Minn. R. 7007.3000
TFAC 2(12300410) 13
The Permittee shall monitor the actual emissions of any regulated NSR pollutant that could increase as a result of the project and that were analyzed using the ATPA test, and the potential emissions of any regulated NSR pollutant that could increase as a result of the project and that were analyzed using potential emissions in the hybrid test. The Permittee shall calculate and maintain a record of the sum of the actual and potential (if the hybrid test was used in the analysis) emissions of the regulated pollutant, in tons per year on a calendar year basis, for a period of 5 years following resumption of regular operations after the change, or for a period of 10 years following resumption of regular operations after the change if the project increases the design capacity of or potential to emit of any unit associated with the project.
Minn. R. 7007.0800, subps. 4‐5, Title I Condition: 40 CFR 52.21(r)(6) and Minn. R. 7007.3000
Subject
Item ID Seq. # Requirement Citation
TFAC 2(12300410) 14
The Permittee must submit a report to the Agency if the annual summed (actual, plus potential if used in hybrid test) emissions differ from the preconstruction projection and exceed the baseline actual emissions by a significant amount as listed at 40 CFR Section 52.21(b)(23). Such report shall be submitted to the Agency within 60 days after the end of the year in which the exceedances occur. The report shall contain:
a. The name and ID number of the Facility, and the name and telephone number of the Facility contact person.
b. The annual emissions (actual, plus potential if any part of the project was analyzed using the hybrid test) for each pollutant for which the preconstruction projection and significant emissions increase are exceeded
c. Any other information, such as an explanation as to why the summed emissions differ from the preconstruction projection.
Minn. R. 7007.0800, subps. 4‐5, Title I Condition: 40 CFR 52.21(r)(6) and Minn. R. 7007.3000
TFAC 2(12300410) 18
The Permittee shall comply with National Primary and Secondary Ambient Air Quality Standards, 40 CFR pt. 50, and the Minnesota Ambient Air Quality Standards, Minn. R. 7009.0010 to 7009.0080. Compliance shall be demonstrated upon written request by the MPCA.
Minn. R. 7007.0100, subp. 7(A), 7(L), & 7(M), Minn. R. 7007.0800, subp. 4, Minn. R. 7007.0800, subps. 1‐2, Minn. R. 7009.0010‐7009.0080, Minn. Stat. 116.07, subd. 4a, Minn. Stat. 116.07, subd. 9
TFAC 2(12300410) 19
Circumvention: Do not install or use a device or means that conceals or dilutes emissions, which would otherwise violate a federal or state air pollution control rule, without reducing the total amount of pollutant emitted. Minn. R. 7011.0020
TFAC 2(12300410) 20
Air Pollution Control Equipment: Operate all pollution control equipment whenever the corresponding process equipment and emission units are operated.
Minn. R. 7007.0800, subp. 16(J), Minn. R. 7007.0800, subp. 2
TFAC 2(12300410) 21
Operation and Maintenance Plan: Retain at the stationary source an operation and maintenance plan for all air pollution control equipment. At a minimum, the O & M plan shall identify all air pollution control equipment and control practices and shall include a preventative maintenance program for the equipment and practices, a description of (the minimum but not necessarily the only) corrective actions to be taken to restore the equipment and practices to proper operation to meet applicable permit conditions, a description of the employee training program for proper operation and maintenance of the control equipment and practices, and the records kept to demonstrate plan implementation.
Minn. R. 7007.0800, subp. 14, Minn. R. 7007.0800, subp. 16(J)
TFAC 2(12300410) 22
Operation Changes: In any shutdown, breakdown, or deviation the Permittee shall immediately take all practical steps to modify operations to reduce the emission of any regulated air pollutant. The Commissioner may require feasible and practical modifications in the operation to reduce emissions of air pollutants. No emissions units that have an unreasonable shutdown or breakdown frequency of process or control equipment shall be permitted to operate. Minn. R. 7019.1000, subp. 4
TFAC 2(12300410) 23
Fugitive Emissions: Do not cause or permit the handling, use, transporting, or storage of any material in a manner which may allow avoidable amounts of particulate matter to become airborne. Comply with all other requirements listed in Minn. R. 7011.0150. Minn. R. 7011.0150
TFAC 2(12300410) 24
Noise: The Permittee shall comply with the noise standards set forth in Minn. R. 7030.0010 to 7030.0080 at all times during the operation of any emission units. This is a state only requirement and is not enforceable by the EPA Administrator or citizens under the Clean Air Act. Minn. R. 7030.0010‐7030.0080
TFAC 2(12300410) 25
Inspections: The Permittee shall comply with the inspection procedures and requirements as found in Minn. R. 7007.0800, subp. 9(A). Minn. R. 7007.0800, subp. 9(A)
TFAC 2(12300410) 26 The Permittee shall comply with the General Conditions listed in Minn. R. 7007.0800, subp. 16. Minn. R. 7007.0800, subp. 16
TFAC 2(12300410) 27
Performance Testing: Conduct all performance tests in accordance with Minn. R. ch. 7017 unless otherwise noted in this permit. Minn. R. ch. 7017
TFAC 2(12300410) 28
Performance Test No fica ons and Submi als:
Performance Test No fica on and Plan: due 30 days before each Performance TestPerformance Test Pre‐test Mee ng: due 7 days before each Performance TestPerformance Test Report: due 45 days a er each Performance Test
The Notification, Test Plan, and Test Report must be submitted in a format specified by the commissioner.
Minn. R. 7017.2017, Minn. R. 7017.2030, subps. 1‐4, Minn. R. 7017.2035, subps. 1‐2
Subject
Item ID Seq. # Requirement Citation
TFAC 2(12300410) 29
Limits set as a result of a performance test (conducted before or after permit issuance) apply until superseded as stated in the MPCA's Notice of Compliance letter granting preliminary approval. Preliminary approval is based on formal review of a subsequent performance test on the same unit as specified by Minn. R. 7017.2025, subp. 3. The limit is final upon issuance of a permit amendment incorporating the change. Minn. R. 7017.2025, subp. 3
TFAC 2(12300410) 30
Monitoring Equipment Calibra on ‐ The Permi ee shall either:1. Calibrate or replace required monitoring equipment every 12 months; or2. Calibrate at the frequency stated in the manufacturer's specifica ons.
For each monitor, the Permittee shall maintain a record of all calibrations, including the date conducted, and any corrective action that resulted. The Permittee shall include the calibration frequencies, procedures, and manufacturer's specifications (if applicable) in the Operations and Maintenance Plan. Any requirements applying to continuous emission monitors are listed separately in this permit. Minn. R. 7007.0800, subp. 4(D)
TFAC 2(12300410) 31
Operation of Monitoring Equipment: Unless noted elsewhere in this permit, monitoring a process or control equipment connected to that process is not necessary during periods when the process is shutdown, or during checks of the monitoring systems, such as calibration checks and zero and span adjustments. If monitoring records are required, they should reflect any such periods of process shutdown or checks of the monitoring system. Minn. R. 7007.0800, subp. 4(D)
TFAC 2(12300410) 35
The Permittee shall submit an application for permit reissuance : Due 180 calendar days before Permit Expiration Date. Minn. R. 7007.0400, subp. 2
TFAC 2(12300410) 37
Recordkeeping: Retain all records at the stationary source, unless otherwise specified within this permit, for a period of five (5) years from the date of monitoring, sample, measurement, or report. Records which must be retained at this location include all calibration and maintenance records, all original recordings for continuous monitoring instrumentation, and copies of all reports required by the permit. Records must conform to the requirements listed in Minn. R. 7007.0800, subp. 5(A). Minn. R. 7007.0800, subp. 5(C)
TFAC 2(12300410) 38
Recordkeeping: Maintain records describing any insignificant modifications (as required by Minn. R. 7007.1250, subp. 3) or changes contravening permit terms (as required by Minn. R. 7007.1350, subp. 2), including records of the emissions resulting from those changes. Minn. R. 7007.0800, subp. 5(B)
TFAC 2(12300410) 39
If the Permittee determines that no permit amendment or notification is required prior to making a change, the Permittee must retain records of all calculations required under Minn. R. 7007.1200. These records shall be kept for a period of five years from the date the change was made or until permit reissuance, whichever is longer. The records shall be kept at the stationary source for the current calendar year of operation and may be kept at the stationary source or office of the stationary source for all other years. The records may be maintained in either electronic or paper format. Minn. R. 7007.1200, subp. 4
TFAC 2(12300410) 40
Shutdown Notifications: Notify the Commissioner at least 24 hours in advance of a planned shutdown of any control equipment or process equipment if the shutdown would cause any increase in the emissions of any regulated air pollutant. If the owner or operator does not have advance knowledge of the shutdown, notification shall be made to the Commissioner as soon as possible after the shutdown. However, notification is not required in the circumstances outlined in Items A, B and C of Minn. R. 7019.1000, subp. 3.
At the time of notification, the owner or operator shall inform the Commissioner of the cause of the shutdown and the estimated duration. The owner or operator shall notify the Commissioner when the shutdown is over. Minn. R. 7019.1000, subp. 3
TFAC 2(12300410) 41
Breakdown Notifications: Notify the Commissioner within 24 hours of a breakdown of more than one hour duration of any control equipment or process equipment if the breakdown causes any increase in the emissions of any regulated air pollutant. The 24‐hour time period starts when the breakdown was discovered or reasonably should have been discovered by the owner or operator. However, notification is not required in the circumstances outlined in Items A, B and C of Minn. R. 7019.1000, subp. 2.
At the time of notification or as soon as possible thereafter, the owner or operator shall inform the Commissioner of the cause of the breakdown and the estimated duration. The owner or operator shall notify the Commissioner when the breakdown is over. Minn. R. 7019.1000, subp. 2
TFAC 2(12300410) 42
Notification of Deviations Endangering Human Health or the Environment: As soon as possible after discovery, notify the Commissioner or the state duty officer, either orally or by facsimile, of any deviation from permit conditions which could endanger human health or the environment. Minn. R. 7019.1000, subp. 1
Subject
Item ID Seq. # Requirement Citation
TFAC 2(12300410) 43
Notification of Deviations Endangering Human Health or the Environment Report: Within 2 working days of discovery, notify the Commissioner in writing of any deviation from permit conditions which could endanger human health or the environment. Include the following informa on in this wri en descrip on:
1. the cause of the devia on; 2. the exact dates of the period of the devia on, if the devia on has been corrected;3. whether or not the devia on has been corrected; 4. the an cipated me by which the devia on is expected to be corrected, if not yet corrected; and 5. steps taken or planned to reduce, eliminate, and prevent reoccurrence of the deviation. Minn. R. 7019.1000, subp. 1
TFAC 2(12300410) 44
The Permittee shall submit a semiannual deviations report : Due semiannually, by the 30th of January and July The first semiannual report submitted by the Permittee shall cover the calendar half‐year in which the permit is issued. The first report of each calendar year covers January 1 ‐ June 30. The second report of each calendar year covers July 1 ‐ December 31. If no deviations have occurred, the Permittee shall submit the report stating no deviations.
Minn. R. 7007.0800, subp. 6(A)(2)
TFAC 2(12300410) 46
Application for Permit Amendment: If a permit amendment is needed, submit an application in accordance with the requirements of Minn. R. 7007.1150 through Minn. R. 7007.1500. Submittal dates vary, depending on the type of amendment needed.
Upon adoption of a new or amended federal applicable requirement, and if there are more than 3 years remaining in the permit term, the Permittee shall file an application for an amendment within nine months of promulgation of the applicable requirement, pursuant to Minn. R. 7007.0400, subp. 3.
Minn. R. 7007.0400, subp. 3, Minn. R. 7007.1150 ‐ 7007.1500
TFAC 2(12300410) 47
Extension Requests: The Permittee may apply for an Administrative Amendment to extend a deadline in a permit by no more than 120 days, provided the proposed deadline extension meets the requirements of Minn. R. 7007.1400, subp. 1(H). Performance testing deadlines from the General Provisions of 40 CFR pt. 60 and pt. 63 are examples of deadlines for which the MPCA does not have authority to grant extensions and therefore do not meet the requirements of Minn. R. 7007.1400, subp. 1(H). Minn. R. 7007.1400, subp. 1(H)
TFAC 2(12300410) 49
The Permittee shall submit a compliance certification : Due annually, by the 31st of January (for the previous calendar year). The Permittee shall submit this to the Commissioner on a form approved by the Commissioner. This report covers all deviations experienced during the calendar year. Minn. R. 7007.0800, subp. 6(C)
TFAC 2(12300410) 50
Emission Inventory Report: due on or before April 1 of each calendar year following permit issuance. Submit in a format specified by the Commissioner. Minn. R. 7019.3000‐7019.3100
TFAC 2(12300410) 51 Emission Fees: due 30 days after receipt of an MPCA bill. Minn. R. 7002.0005‐7002.0095
TFAC 2(12300410) 53
The Permittee shall not have engines that meet section (1)(iii) under the definition of Nonroad Engine at 40 CFR Section 1068.30 in one location within the stationary source for more than 12 consecutive months. A loca on is any single site at a building, structure, facility, or installa on.
Any engine, or engines, that replaces an engine at a location and that is intended to perform the same or similar function as the engine it replaced will be included in calculating the consecutive time period. 40 CFR 1068.30
TFAC 2(12300410) 54
For a nonroad engine that is excluded from any requirements of 40 CFR Part 1068 because it is a stationary engine, the Permittee may not move it or install it in any mobile equipment, except as allowed by the provisions of 40 CFR Part 1068. The Permittee may not circumvent or attempt to circumvent the residence‐time requirements of Section (2)(iii) of the Nonroad Engine definition at 40 CFR Section 1068.30. 40 CFR 1068.101(b)(3)
Subject
Item ID Seq. # Requirement Citation
TFAC 2(12300410) 55
The Permittee shall conduct an inventory of all engines on‐site that meet section (1)(iii) under the definition of Nonroad Engine at 40 CFR Section 1068.30, once each calendar quarter; inventories shall not take place in consecutive months. This applies to nonroad engines that are owned by the Permittee, or rented and operated by the Permittee, or brought onsite and operated by a vendor or contractor. The inventory shall include the following:1) Date that the nonroad engine is inventoried.2) Iden fica on number.
3) Func on of the nonroad engine (e.g. compressor, welder).4) Loca on of the engine within the sta onary source.5) Statement that the nonroad engine has not been located in a single location for 12 consecutive months, and movement between locations has not been for purposes of circumvention of residence time requirements of section (2)(iii) under the definition of Nonroad Engine at 40 CFR Section 1068.30.
40 CFR 1068.30(nonrd engn)(1)(iii), Minn. R. 7007.0800, subps. 4‐5
TFAC 2(12300410) 56
A nonroad engine ceases to be a nonroad engine and becomes a new sta onary engine if:1. At any time, it meets the criteria specified in section (2)(iii) under the definition of Nonroad Engine in 40 CFR Section 1068.30. For example, a portable generator engine ceases to be a nonroad engine if it is used or will be used in a single specific location for 12 months or longer. If the Administrator or the Permitting authority determines that an engine will be or has been used in a single specific location for 12 months or longer, it ceased to be a nonroad engine when it was placed in that loca on.
OR
2. It is otherwise regulated by a federal New Source Performance Standard promulgated under section 111 of the Clean Air Act (42 U.S.C. 7411). 40 CFR 1068.31(e)
COMG 1(GP001) 5
Fuel Records: The Permittee shall obtain and maintain a certification from the fuel supplier for each fuel oil delivery specifying the sulfur content of the fuel oil, in percent by weight, and the heating value of the fuel oil, in mmBtu/gal. This information shall be maintained on site. Minn. R. 7007.0800, subp. 5
COMG 1(GP001) 8
The MPCA does not have delegation for 40 CFR pt. 63, subp. DDDDD, but MPCA must be copied on all submittals/notifications. Minn. R. 7007.0800, subp. 2
COMG 1(GP001) 19
The affected source of 40 CFR pt. 63, subp. DDDDD is the collection at a major source of all existing industrial, commercial, and institutional boilers and process heaters within a subcategory as defined in 40 CFR Section 63.7575. These units are part of the subcategory "units designed to burn gas 1 fuels.". 40 CFR 63.7490
COMG 1(GP001) 20
The Permittee must comply with 40 CFR pt. 63, subp. DDDDD no later than January 31, 2016, unless an extension has been granted as provided in 40 CFR Section 63.6(i).
40 CFR 63.6(i), 40 CFR 63.7495(b), Minn. R. 7011.7000
COMG 1(GP001) 21
The Permittee must conduct a tune‐up of the boiler or process heater annually as specified in 40 CFR Section 63.7540(a)(10) beginning January 31, 2016, except that boilers and process heaters which use continuous oxygen trim systems that maintain an optimum air to fuel ratio are required to conduct a tune‐up once every 5 years. 40 CFR 63.7500(a)(1), Table 3
COMG 1(GP001) 22
Each annual tune‐up specified in 40 CFR Section 63.7540(a)(10) must be no more than 13 months after the previous tune‐up. Each 5‐year tune‐up must be no more than 61 months after the previous tune‐up. 40 CFR 63.7515(d)
COMG 1(GP001) 25
At all times, the Permittee must operate and maintain any affected source, including associated air pollution control equipment and monitoring equipment, in a manner consistent with safety and good air pollution control practices for minimizing emissions. Determination of whether such operation and maintenance procedures are being used will be based on information available to the Administrator that may include, but is not limited to, monitoring results, review of operation and maintenance procedures, review of operation and maintenance records, and inspection of the source. 40 CFR 63.7500(a)(3)
COMG 1(GP001) 26
The standards under 40 CFR Section 63.7500 apply at all times the affected unit is operating, except during periods of startup and shutdown during which time the Permittee must comply only with the applicable provisions in Table 3 to Subpart DDDDD of Part 63. 40 CFR 63.7500(f)
COMG 1(GP001) 29
The Permittee must be in compliance with the work practice standards in 40 CFR pt. 63, subp. DDDDD. These limits apply at all times the affected unit is operating. 40 CFR 63.7505(a)
Subject
Item ID Seq. # Requirement Citation
COMG 1(GP001) 30
The Permittee must conduct a tune‐up of the boiler or process heater annually or once every 5 years, as applicable, to demonstrate con nuous compliance as specified below:
1. As applicable, inspect the burner, and clean or replace any components of the burner as necessary (the Permittee may delay the burner inspection until the next scheduled unit shutdown). Units that produce electricity for sale may delay the burner inspection until the first outage, not to exceed 36 months from the previous inspection. At units where entry into a piece of process equipment or into a storage vessel is required to complete the tune‐up inspections, inspections are required only during planned entries into the storage vessel or process equipment;
2. Inspect the flame pattern, as applicable, and adjust the burner as necessary to optimize the flame pa ern. The adjustment should be consistent with the manufacturer's specifica ons, if available;
3. Inspect the system controlling the air‐to‐fuel ratio, as applicable, and ensure that it is correctly calibrated and functioning properly (the Permittee may delay the inspection until the next scheduled unit shutdown). Units that produce electricity for sale may delay the inspection until the first outage, not to exceed 36 months from the previous inspec on;
4. Optimize total emissions of CO. This optimization should be consistent with the manufacturer's specifica ons, if available, and with any NOx requirement to which the unit is subject; 40 CFR 63.7540(a)(10)
COMG 1(GP001) 30
5. Measure the concentrations in the effluent stream of CO in parts per million, by volume, and oxygen in volume percent, before and after the adjustments are made (measurements may be either on a dry or wet basis, as long as it is the same basis before and after the adjustments are made). Measurements may be taken using a portable CO analyzer; and
6. Maintain on‐site and submit, if requested by the Administrator, an annual report containing the information below:
i. The concentrations of CO in the effluent stream in parts per million by volume, and oxygen in volume percent, measured at high fire or typical operating load, before and after the tune‐up of the boiler or process heater;
ii. A description of any corrective actions taken as a part of the tune‐up; and
iii. The type and amount of fuel used over the 12 months prior to the tune‐up, but only if the unit was physically and legally capable of using more than one type of fuel during that period. Units sharing a fuel meter may estimate the fuel used by each unit. 40 CFR 63.7540(a)(10)
COMG 1(GP001) 31
If the unit is not operating on the required date for a tune‐up, the tune‐up must be conducted within 30 calendar days of startup.
40 CFR 63.7515(g), 40 CFR 63.7540(a)(13)
COMG 1(GP001) 32
The Permittee must report each instance in which they did not meet each emission limit and operating limit in Tables 1 through 4 or 11 through 13 to Subpart DDDDD of Part 63 that apply. These instances are deviations from the emission limits or operating limits, respectively, in 40 CFR pt. 63, subp. DDDDD. These deviations must be reported according to the requirements in 40 CFR Section 63.7550. 40 CFR 63.7540(b)
COMG 1(GP001) 34
Request for extension of compliance:
If the Permittee of an affected source cannot comply with a relevant standard by the applicable compliance date for that source, or if the Permittee has installed BACT or technology to meet LAER consistent with 40 CFR Section 63.6(i)(5), the Permittee may submit to the Administrator (or the State with an approved permit program) a request for an extension of compliance as specified in 40 CFR Section 63.6(i)(4) through 40 CFR Section 63.6(i)(6).
40 CFR 63.7545(a), 40 CFR 63.9(c), Minn. R. 7019.0100
Subject
Item ID Seq. # Requirement Citation
COMG 1(GP001) 35
No fica on of Compliance Status Contents:The no fica on shall be signed by the responsible official who shall cer fy its accuracy, and shall list:
1. The methods that were used to determine compliance;
2. The results of any performance tests, opacity or visible emission observations, continuous monitoring system (CMS) performance evaluations, and/or other monitoring procedures or methods that were conducted;
3. The methods that will be used for determining continuing compliance, including a description of monitoring and repor ng requirements and test methods;
4. The type and quantity of hazardous air pollutants emitted by the source (or surrogate pollutants if specified in the relevant standard), reported in units and averaging times and in accordance with the test methods specified in the relevant standard;
5. If the relevant standard applies to both major and area sources, an analysis demonstrating whether the affected source is a major source (using the emissions data generated for this no fica on);
6. A description of the air pollution control equipment (or method) for each emission point, including each control device (or method) for each hazardous air pollutant and the control efficiency (percent) for each control device (or method); and
7. A statement by the owner or operator of the affected existing source as to whether the source has complied with the relevant standard or other requirements.
40 CFR 63.7545(a), 40 CFR 63.9(h)(2)(i)(A)‐(G), Minn. R. 7019.0100
COMG 1(GP001) 36
The Permittee must submit a Notification of Compliance Status for each boiler or process heater before the close of business on the 60th day following the completion of all initial compliance demonstrations for all boiler or process heaters at the facility. The Notification of Compliance Status report must contain all the informa on specified below:
1. A description of the affected unit(s) including identification of which subcategories the unit is in, the design heat input capacity of the unit, a description of the add‐on controls used on the unit to comply with this subpart, description of the fuel(s) burned, including whether the fuel(s) were a secondary material determined by the Permittee or the EPA through a petition process to be a non‐waste under 40 CFR Section 241.3, whether the fuel(s) were a secondary material processed from discarded non‐hazardous secondary materials within the meaning of 40 CFR Section 241.3, and justification for the selec on of fuel(s) burned during the compliance demonstra on.
2. A signed certification that the Permittee has met all applicable emission limits and work practice standards.
3. If there was a deviation from any emission limit, work practice standard, or operating limit, submit a description of the deviation, the duration of the deviation, and the corrective action taken in the No fica on of Compliance Status report.
4. In addition to the information required in 40 CFR Section 63.9(h)(2), the notification of compliance status must include the following certification(s) of compliance, as applicable, and signed by a responsible official:
i. This facility complies with the required initial tune‐up according to the procedures in 40 CFR Section 63.7540(a)(10)(i) through (vi).ii. This facility has had an energy assessment performed according to 40 CFR Section 63.7530(e).
40 CFR 63.7530(f), 40 CFR 63.7545(a), 40 CFR 63.7545(e)(1)‐(8), 40 CFR 63.9(h)(2)(ii), Minn. R. 7019.0100
COMG 1(GP001) 37
The Permittee must submit a signed statement in the Notification of Compliance Status report that indicates that a tune‐up of the boiler or process heater was conducted. 40 CFR 63.7530(d)
COMG 1(GP001) 38
The Permittee must include with the Notification of Compliance Status a signed certification that the energy assessment was completed according to 40 CFR pt. 63, subp. DDDDD, Table 3 and is an accurate depiction of the facility at the time of the assessment. 40 CFR 63.7530(e)
Subject
Item ID Seq. # Requirement Citation
COMG 1(GP001) 39
40 CFR pt. 63, subp. DDDDD Compliance Report: The Permittee shall submit a compliance status report : Due annually, by the 31st of January. The Permittee shall submit an annual compliance report starting 1/31/2018.
Each subsequent compliance report must cover the applicable 1‐year period from January 1 to December 31. Annual compliance reports must be postmarked or submitted no later than January 31.
40 CFR pt. 63, 7550(b), Minn. R. 7011.7050
COMG 1(GP001) 40
A Compliance Report for 40 CFR pt. 63, subp. DDDDD must contain the following:
1. Informa on required in 40 CFR Sec on 63.7550(c)(1) through (5);
2. If there were no deviations from the requirements for work practice standards in Table 3 of 40 CFR pt. 63, subp. DDDDD that apply, a statement that there were no deviations from the work practice standards during the repor ng period; and
3. If there was a deviation from a work practice standard during the reporting period, the report must contain the information in 40 CFR Section 63.7550(d).
40 CFR 63.7550(b), 40 CFR 63.7550(a), Table 9
COMG 1(GP001) 41
A compliance report must contain the following informa on:
1. Company and Facility name and address.
2. Process unit informa on, emissions limita ons, and opera ng parameter limita ons.
3. Date of report and beginning and ending dates of the repor ng period.
4. The total opera ng me during the repor ng period.
5. Include the date of the most recent tune‐up for each unit subject to only the requirement to conduct a biennial tune‐up. Include the date of the most recent burner inspection if it was not done biennially and was delayed until the next scheduled or unscheduled unit shutdown. 40 CFR 63.7550(c)
COMG 1(GP001) 42
For each deviation from an emission limit or operating limit in 40 CFR pt. 63, subp. DDDDD that occurs at an individual boiler or process heater where a CMS is not used to comply with that emission limit or opera ng limit, the compliance report must addi onally contain the following informa on:
1. A description of the deviation and which emission limit or operating limit from which there was a devia on.
2. Information on the number, duration, and cause of deviations (including unknown cause), as applicable, and the correc ve ac on taken.
3. If the deviation occurred during an annual performance test, provide the date the annual performance test was completed. 40 CFR 63.7550(d)
COMG 1(GP001) 43
The Permittee must submit all reports required by 40 CFR pt. 63, subp. DDDDD, Table 9 electronically using CEDRI that is accessed through the EPA's Central Data Exchange (CDX) (www.epa.gov/cdx). However, if the reporting form specific to 40 CFR pt. 63, subp. DDDDD is not available in CEDRI at the time that the report is due, the Permittee must submit the report to the Administrator at the appropriate address listed in 40 CFR Section 63.13. At the discretion of the Administrator, you must also submit these reports, to the Administrator in the format specified by the Administrator. 40 CFR 63.7550(h)(3)
COMG 1(GP001) 44
The Permittee must keep records of each notification and report that is submitted to comply with 40 CFR pt. 63, subp. DDDDD, including all documentation supporting any Initial Notification or Notification of Compliance Status or biennial compliance report that is submitted, according to the requirements in 40 CFR Section 63.10(b)(2)(xiv). 40 CFR 63.7555(a)(1)
COMG 1(GP001) 47 Records must be in a form suitable and readily available for expeditious review.
40 CFR 63.10(b)(1), 40 CFR 63.7560(a), Minn. R. 7019.0100
COMG 1(GP001) 48
The Permittee must keep each record for 5 years following the date of each occurrence, measurement, maintenance, corrective action, report, or record.
40 CFR 63.10(b)(1), 40 CFR 63.7560(b), Minn. R. 7019.0100
COMG 1(GP001) 49
The Permittee must keep each record on site, or they must be accessible from onsite (for example, through a computer network), for at least 2 years after the date of each occurrence, measurement, maintenance, corrective action, report, or record. The Permittee can keep the records offsite for the remaining 3 years.
40 CFR 63.10(b)(1), 40 CFR 63.7560(c), Minn. R. 7019.0100
Subject
Item ID Seq. # Requirement Citation
COMG 1(GP001) 50
The Permi ee must comply with all applicable requirements of 40 CFR pt. 63, subp. A as follows:
40 CFR 63.1(a), 63.1(b)(1), 63.1(b)(3), 63.1(c)(1), 63.1(c)(2), 63.1(c)(5), 63.1(e), 63.2, 63.3, 63.4(b), 63.5(b)(4), 63.5(b)(6), 63.6(f)(2‐3), 63.8(a)(2), 63.8(c)(1‐8), 63.8(d), 63.8(e), 63.8(g), 63.9(f), 63.9(g), 63.9(h), 63.9(j), 63.10(a), 63.10(b)(1), 63.10(b)(2)(i), 63.10(b)(2)(iii), 63.10(b)(2)(vi‐xiv), 63.10(c), 63.10(d)(1), 63.10(d)(4), 63.10(e)(1‐2), 63.10(e)(3)(i‐vii), and 63.10(e)(4).
A copy of 40 CFR pt. 63, subp. A is included in Appendix B. If the standard changes or upon adoption of a new or amended federal applicable requirement, and if there are more than 3 years remaining in the permit term, the Permittee shall file an application for an amendment within nine months of promulgation of the applicable requirement, pursuant to Minn. R. 7007.0400, subp. 3.
40 CFR 63.7565 , 40 CFR pt. 63, subp. A, Minn. R. 7007.0400, subp. 3 , Minn. R. 7007.1150‐1500, Minn. R. 7011.7000, Minn. R. 7011.7050, Minn. R. 7017.1010 & 7017.2025, Minn. R. 7019.0100
EQUI 1(EU004) 1 Capacity <= 232 million Btu per hour. This is derated heat input used in modeling for PM SIP. Minn. R. 7009.0080
EQUI 1(EU004) 7
The Permittee shall limit Particulate Matter <= 0.40 pounds per million Btu heat input. The potential to emit from the unit is 0.0075 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0510, subp. 1
EQUI 1(EU004) 8
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity. Minn. R. 7011.0510, subp. 2
EQUI 1(EU004) 9
The Permittee shall limit Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 0.00059 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0510, subp. 1
EQUI 1(EU004) 10 Fuel Type: Fuel use is limited to natural gas. Minn. R. 7007.0800, subp. 2
EQUI 6(EU018) 4
The Permittee shall limit Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas unless required to further reduce emissions to comply with the less stringent limit of either Minn. R. 7011.0730 or Minn. R. 7011.0735.
Minn. R. 7011.0610, subp. 1(A)(1)
EQUI 6(EU018) 5
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity.
Minn. R. 7011.0610, subp. 1(A)(2)
EQUI 6(EU018) 6
The Permittee shall limit Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 0.0006 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0610, subp. 2
EQUI 6(EU018) 7 Fuel Type: Natural gas only, by equipment design. Minn. R. 7005.0100, subp. 35aEQUI 10(EU001) 1 This boiler has been decommissioned. The Permittee shall not operate this boiler. Minn. R. 7007.0800, subp. 2EQUI 11(EU002) 4 Fuel Type: Natural gas, No. 2 fuel oil, or No. 6 fuel oil only, by design. Minn. R. 7005.0100, subp. 35a
EQUI 11(EU002) 5
As a "unit designed to burn gas 1" fuels, this boiler is only allowed to burn liquid fuel:
1) For periodic testing of liquid fuel, maintenance, or operator training, not to exceed a combined total of 48 hours during any calendar year; and 2) During periods of gas curtailment or gas supply interruptions.
40 CFR 63.7575, Minn. R. 7011.7050
EQUI 11(EU002) 6 Sulfur Content of Fuel: less than or equal to 1.5 percent by weight for #6 fuel oil. Minn. R. 7007.0800, subp. 2EQUI 11(EU002) 7 Sulfur Content of Fuel: less than or equal to 0.5 percent by weight for #2 fuel oil. Minn. R. 7007.0800, subp. 2
EQUI 11(EU002) 9
The Permittee shall limit Filterable Particulate Matter <= 0.40 pounds per million Btu heat input. The potential to emit from the unit is 0.12 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0510, subp. 1
EQUI 11(EU002) 10
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity. Minn. R. 7011.0510, subp. 2
EQUI 11(EU002) 10
The Permittee shall limit Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 1.57 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0510, subp. 1
Subject
Item ID Seq. # Requirement Citation
EQUI 11(EU002) 11
Filterable Particulate Matter: The Permittee shall conduct a performance test due before 03/12/2018 and every 60 months thereafter to measure emissions. The first test is due by the date specified and all subsequent tests shall be completed every 60 months thereafter by the set due date (month and day) and as described below. The performance test shall be conducted at worst case conditions as defined at Minn. R. 7017.2025, subp. 2, using EPA Reference Methods 5 and 202, or other method approved by MPCA in the performance test plan approval. The test shall be conducted while burning #6 fuel oil. Testing conducted during the 60 days prior to the performance test due date will not reset the test due date for future testing as required by this permit. Testing conducted more than 60 days prior to the set due date satisfies this requirement but will reset future performance test due dates based on the performance test date.
The Permittee need only demonstrate compliance with the limit using Filterable Particulate Matter results (Method 5), but must also conduct EPA Method 202 so Condensible Particulate Matter results can be reported. Minn. R. 7017.2020, subp. 1
EQUI 11(EU002) 12
Opacity: The Permittee shall conduct a performance test due before 03/12/2018 and every 60 months thereafter to measure opacity. The first test is due by the date specified and all subsequent tests shall be completed every 60 months thereafter by the set due date (month and day) and as described below. The performance test shall be conducted at worst case conditions as defined at Minn. R. 7017.2025, subp. 2, using EPA Reference Method 9, or other method approved by MPCA in the performance test plan approval. The test shall be conducted while burning #6 fuel oil. Testing conducted during the 60 days prior to the performance test due date will not reset the test due date for future testing as required by this permit. Testing conducted more than 60 days prior to the set due date satisfies this requirement but will reset future performance test due dates based on the performance test date. Minn. R. 7017.2020, subp. 1
EQUI 12(EU003) 4 Fuel Type: Natural gas, No. 2 fuel oil, or No. 6 fuel oil only, by design. Minn. R. 7005.0100, subp. 35a
EQUI 12(EU003) 5
As a "unit designed to burn gas 1" fuels, this boiler is only allowed to burn liquid fuel:
1) For periodic testing of liquid fuel, maintenance, or operator training, not to exceed a combined total of 48 hours during any calendar year; and2) During periods of gas curtailment or gas supply interruptions.
40 CFR 63.7575, Minn. R. 7011.7050
EQUI 12(EU003) 6 Sulfur Content of Fuel: less than or equal to 1.5 percent by weight for #6 fuel oil. Minn. R. 7007.0800, subp. 2EQUI 12(EU003) 7 Sulfur Content of Fuel: less than or equal to 0.5 percent by weight for #2 fuel oil. Minn. R. 7007.0800, subp. 2
EQUI 12(EU003) 9
The Permittee shall limit Filterable Particulate Matter <= 0.40 pounds per million Btu heat input. The potential to emit from the unit is 0.12 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0510, subp. 1
EQUI 12(EU003) 10
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity. Minn. R. 7011.0510, subp. 2
EQUI 12(EU003) 10
The Permittee shall limit Sulfur Dioxide <= 1.6 pounds per million Btu heat input. The potential to emit from the unit is 1.57 lb/MMBtu due to equipment design and allowable fuels. Minn. R. 7011.0510, subp. 1
EQUI 12(EU003) 11
Filterable Particulate Matter: The Permittee shall conduct a performance test due before 03/12/2018 and every 60 months thereafter to measure emissions. The first test is due by the date specified and all subsequent tests shall be completed every 60 months thereafter by the set due date (month and day) and as described below. The performance test shall be conducted at worst case conditions as defined at Minn. R. 7017.2025, subp. 2, using EPA Reference Methods 5 and 202, or other method approved by MPCA in the performance test plan approval. The test shall be conducted while burning #6 fuel oil. Testing conducted during the 60 days prior to the performance test due date will not reset the test due date for future testing as required by this permit. Testing conducted more than 60 days prior to the set due date satisfies this requirement but will reset future performance test due dates based on the performance test date.
The Permittee need only demonstrate compliance with the limit using Filterable Particulate Matter results (Method 5), but must also conduct EPA Method 202 so Condensible Particulate Matter results can be reported. Minn. R. 7017.2020, subp. 1
Subject
Item ID Seq. # Requirement Citation
EQUI 12(EU003) 12
Opacity: The Permittee shall conduct a performance test due before 03/12/2018 and every 60 months thereafter to measure opacity. The first test is due by the date specified and all subsequent tests shall be completed every 60 months thereafter by the set due date (month and day) and as described below. The performance test shall be conducted at worst case conditions as defined at Minn. R. 7017.2025, subp. 2, using EPA Reference Method 9, or other method approved by MPCA in the performance test plan approval. The test shall be conducted while burning #6 fuel oil. Testing conducted during the 60 days prior to the performance test due date will not reset the test due date for future testing as required by this permit. Testing conducted more than 60 days prior to the set due date satisfies this requirement but will reset future performance test due dates based on the performance test date. Minn. R. 7017.2020, subp. 1
EQUI 66(EU013) 1
The Permittee shall limit Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas unless required to further reduce emissions to comply with the less stringent limit of either Minn. R. 7011.0730 or Minn. R. 7011.0735. Minn. R. 7011.0710, subp. 1(A)
EQUI 66(EU013) 2
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity. Minn. R. 7011.0710, subp. 1(B)
EQUI 67(EU014) 1
The Permittee shall limit Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas unless required to further reduce emissions to comply with the less stringent limit of either Minn. R. 7011.0730 or Minn. R. 7011.0735. Minn. R. 7011.0710, subp. 1(A)
EQUI 67(EU014) 2
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity.
Minn. R. 7011.0710, subp. (1(B) )
EQUI 68(EU015) 1
The Permittee shall limit Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas unless required to further reduce emissions to comply with the less stringent limit of either Minn. R. 7011.0730 or Minn. R. 7011.0735. Minn. R. 7011.0710, subp. 1(A)
EQUI 68(EU015) 2
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity. Minn. R. 7011.0710, subp. 1(B)
EQUI 69(EU016) 2
The Permittee shall limit Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas unless required to further reduce emissions to comply with the less stringent limit of either Minn. R. 7011.0730 or Minn. R. 7011.0735. Minn. R. 7011.0710, subp. 1(A)
EQUI 69(EU016) 3
The Permittee shall limit Opacity <= 20 percent opacity except for one six‐minute period per hour of not more than 60 percent opacity. Minn. R. 7011.0710, 1(B)
EQUI 70(EU017) 1
The Permittee shall limit Particulate Matter <= 0.30 grains per dry standard cubic foot of exhaust gas unless required to further reduce emissions to comply with the less stringent limit of either Minn. R. 7011.0730 or Minn. R. 7011.0735. Minn. R. 7011.0715, subp. 1(A)
EQUI 70(EU017) 2 The Permittee shall limit Opacity <= 20 percent opacity. Minn. R. 7011.0715, subp. 1(B)
EQUI 70(EU017) 3
The Permi ee must comply with all applicable requirements of 40 CFR pt. 63, subp JJJJ, as follows:
40 CFR Sec on 63.329040 CFR Sec on 63.3320(a)‐(b) 40 CFR Sec on 63.333040 CFR Sec on 63.334040 CFR Sec on 63.3360(a)(1) 40 CFR Sec on 63.3360(c)‐(d) 40 CFR Sec on 63.3370(a)(2)‐(3) 40 CFR Sec on 63.3370(c)‐(d) 40 CFR Sec on 63.3370(l) 40 CFR Sec on 63.340040 CFR Sec on 63.341040 CFR Sec on 63.3420
A copy of 40 CFR pt. 63, subp JJJJ is included in Appendix D.
If the standard changes or upon adoption of a new or amended federal applicable requirement, and if there are more than 3 years remaining in the permit term, the Permittee shall file an application for an amendment within nine months of promulgation of the applicable requirement, pursuant to Minn. R. 7007.0400, subp. 3.
40 CFR pt. 63, subp. JJJJ, Minn. R. 7011.7385
EQUI 70(EU017) 4
The permittee shall limit HAPs ‐ Organic <= 20 percent of the mass of coating solids applied for each month, or levels specified in 40 CFR 63.3320(b) for an existing affected source.
40 CFR 63.3320(b), Minn. R. 7011.7385
Subject
Item ID Seq. # Requirement Citation
EQUI 70(EU017) 5
The Permi ee must comply with all applicable requirements of 40 CFR pt. 63, subp A, as follows: 63.4(b), 63.5(b)(4), 63.5(b)(6), 63.6(e)(1)(i‐ii), 63.6(f)(2‐3), 63.9(h), 63.9(j), 63.10(a), 63.10(b)(1), 63.10(d)(1), and 63.10(d)(4). A copy of 40 CFR pt. 63, subp. A is included in Appendix B.
If the standard changes or upon adoption of a new or amended federal applicable requirement, and if there are more than 3 years remaining in the permit term, the Permittee shall file an application for an amendment within nine months of promulgation of the applicable requirement, pursuant to Minn. R. 7007.0400, subp. 3.
40 CFR pt. 63, subp. A, 40 CFR pt. 63, subp. JJJJ, Minn. R. 7007.0400, subp. 3, Minn. R. 7007.1150‐7007.1500, Minn. R. 7011.7000
FUGI 1(FS001) 1
Do not cause or permit the handling, use, transporting, or storage of any material in a manner which may allow avoidable amounts of particulate matter to become airborne. Do not cause or permit a building or its appurtanences or a road, or a driveway, or an open are to be constructed, used, repaired, or demolished without applying all such reasonable measures as may be required to prevent particulate matter from becoming airborne. All persons shall take reasonable precautions to prevent the discharge of visible fugitive dust emissions beyond the lot line of the property on which the emissions originate. The commissioner may require such reasonable measures as may be necessary to prevent particulate matter from becoming airborne including, but not limited to, paving or frequent clearing of roads, driveways, and parking lots; application of dust‐free surfaces; application of water; and the planting and maintenance of vegetative ground cover. Minn. R. 7011.0150
2250 Wabash Ave St. Paul, MN 55114
651.641.4938 www.westrock.com
May 31, 2017
Brady Kruger Air Quality Permit Engineer Minnesota Pollution Control Agency 520 Lafayette Road St. Paul, MN 55155
Re: WestRock Title V Max Production Rate Calculation Basis
Dear Brady:
The following is in response to your question regarding the production differences in the table provided in your email of May 10, 2017, shown below. As explained below, the numbers in the two columns differ because they represent different operating assumptions and products.
Max design capacity (tons of paper/hr)
Throughput used for PTE calcs (MDTFP/hr)
CorMed Paper Machine 4 19.05 14.3
CorMed Paper Machine 5 20.1 14.8
Boxboard Mill 1 16.8 11.12
Boxboard Mill 2 19.5 14.04
The numbers in the first column, Max design capacity (tons of paper/hr), are from historical records, and appear to be based on the top design speed of the machines and the highest weight paper grades that could be run, and include coating weight for the Boxboard Mill machines. These production rates are theoretical maximums and are not achievable currently in practice. I.e., the machines could not run the heaviest grade at the maximum machine design speed, even for a single hour.
The second column, Throughput used for PTE calcs (tons finished product/hr), represents the maximum annual average production rate—not a single hourly maximum—in tons/hour for each machine given our current product mix, and do not include the coating weight. We calculated these rates by reviewing the production rate for each machine for each of the past three years by grade. We selected the highest annual production rate for an individual grade from those years as the maximum annualized rate. Because we use NCASI emission factors for the paper production process, and emissions from coating operations are calculated separately, we removed the coating weight from the total production rate for the Boxboard Mills. I.e., The max production shown in column 2 of the table is strictly the fiber contribution in machine dry tons per hour. The hourly rates were assumed to be run 24/7/365 (100% machine uptime and efficiency) for the annualized production totals used in our PTE calculations. We believe the hourly production rates shown in column 2 reflect the maximum annual average capacity in tons/hour of the machines given their current physical capacity and our product mix.
The maximum operating rates shown in column 2 are based on the following:
Attachment 3: Paper/boxboard machines production rates letter
Boxboard Mill 1: The maximum production rate is 11.9 tph, including coating. Using the criteria above, .022 CRB and .020 MM were used as the grades for the calculations with a grade mix of 45% .020 MM (164 days/year production at 90 lb/MSF) and 55% .022 CRB (201 days/year production at 91.52 lb/MSF). Coat weight across all grades is 6.0 lb/MSF. When factoring out the coating, the maximum production rate from PM1, based on an annual average of production on the highest grade to be 11.12 machine dry tons per hour, but individual hours may exceed this number.
Boxboard Mill 2: The maximum production rate is 15.05 tph, including coating. Using the criteria above, .022 CRB and .018 CRB were used as the grades for the calculations with a grade mix of 50% .018 CRB (182.5 days/year production at 86.63 lb/MSF) and 50% .022 CRB (182.5 days/year production at 92.66 lb/MSF). Coat weight across all grades was 6.0 lb/MSF. When factoring out the coating, the maximum production rate from PM2, based on the average annual production is 14.04 machine dry tons per hour, but individual hours may exceed this number. We have recently completed a project in 2017 on the steam system that will slightly increase the annual maximum annual average production rate for PM2 beyond the number shown in column 2 above, however, the project did not result in an emission increase that required an air permitting action. We project the new average annual production number, based on the calculation parameters, to be 14.8 machine dry tons per hour.
CorMed Paper Machine 4: The maximum production rate is 14.3 machine dry tons per hour, based on running 33# medium at 33.0#/MSF, but individual hours may exceed this number.
CorMed Paper Machine 5: The maximum production rate is 14.8 machine dry tons per hour, based on running 26# medium at 27.0#/MSF, but individual hours may exceed this number. Note that recent changes have lowered the 26# basis weight to a nominal 26.0#/MSF, but the higher weight of 27.0#/MSF is still being utilized in these calculations, as economic conditions may dictate a move back at some point.
In summary, the numbers posted in column 1 above, that have been used in the past, are based on a theoretical per hour maximum and include the weight of coating for the Boxboard Mill machines. The numbers in column 2 are maximum annual averages, not maximums for any individual hour, and do not include coating for the Boxboard Mill machines. We used the column 2 numbers, which are in line with the current applied capabilities of the paper machines and emission calculation methods, in our most recent Title V Permit Application. If MPCA determines that the most appropriate maximum capacity numbers to be included in the Title V Permit Application are the numbers in column 1, we will adjust the application to reflect the column 1 numbers.
Sincerely,
Beau Cooper Technical Manager WestRock 2250 Wabash Avenue St. Paul, MN 55114 Mobile: 651.448.1597 [email protected]