The URL can be used to link to this page

Home My WebLink AboutDAQ-2024-0108741 DAQC-1005-24 Site ID 10008 (B4) MEMORANDUM TO: STACK TEST FILE – NUCOR STEEL – Utah THROUGH: Harold Burge, Major Source Compliance Section Manager FROM: Paul Morris, Environmental Scientist DATE: October 2, 2024 SUBJECT: Contact: Doug Jones – 435-458-2415 Location: West Cemetery Road, Plymouth, Box Elder County, Utah Tester: Alliance Source Testing Sources: Reheat Furnace #2 FRS ID #: UT0000004900300002 Permit: Title V operating permit #300002004 dated May 23, 2022 Date of Last Revision: September 12, 2024 Action Code: TR Subject: Review of Stack Test Report dated October 1, 2024 On October 2, 2024, the Utah Division of Air Quality (DAQ) received a stack test report for the Reheat Furnace (RH) #2 located at Nucor Steel’s steel mill located in Plymouth, Utah. Testing was performed on August 5, 2024, to demonstrate compliance with the NOX emission limits found in Permit Condition II.B.6.b. The DAQ-calculated test results are: Source Test Date RM/Pollutant DAQ Result Test Result Limit RH #2 8/5/2024 7E/NOX 3.2 lbs/hr 3.2 lbs/hr 8.0 lbs/hr DEVIATIONS: None noted. CONCLUSION: The submitted test reports appear to be acceptable. RECOMMENDATION: The NOX emissions appear to have been in compliance with the applicable limits at the time of testing. No further action is necessary. HPV: No. ATTACHMENTS: Nucor Steel stack test reports received October 1, 2024 DAQ generated excel test review spreadsheets. 6 , 3 Source Test Report Nucor Steel-Utah West Cemetery Rd. Plymouth, UT 84330 Source Tested: Reheat Furnace #2 Test Date: August 5, 2024 Project No. AST-2024-3136-004 Prepared By Alliance Technical Group, LLC 3683 W 2270 S, Suite E West Valley City, UT 84120 Source Test Report Test Program Summary AST-2024-3136-004 Nucor – Plymouth, UT Page i Regulatory Information Permit Nos. Utah Department of Environmental Quality, Division of Air Quality Approval Order DAQE-AN100080048-21-20 Issued on October 28, 2021, Title V Permit No. 300002004 revised May 23, 2022 and Utah State Implementation Plan (Sections IX.H.11&12). Source Information Source Name Source ID Target Parameter Reheat Furnace #2 Unit #14 NOx Contact Information Test Location Test Company Nucor Steel-Utah West Cemetery Rd. Plymouth, Utah Facility Contacts Doug Jones P.O. Box 100 Plymouth, UT 84330-0100 Doug.Jones@nucor.com (435) 458-2415 Kyndal Bair P.O. Box 100 Plymouth, UT 84330 kyndal.bair@nucor.com (435) 458-2300 Alliance Technical Group, LLC 3683 W 2270 S, Suite E West Valley City, UT 84120 Project Manager Charles Horton charles.horton@alliancetg.com (352) 663-7568 Field Team Leader Ryan Lyons ryan.lyons@alliancetg.com (708)214-4850 QA/QC Manager Kathleen Shonk katie.shonk@alliancetg.com (812) 452-4785 Report Coordinator Delaine Spangler delaine.spangler@alliancetg.com Report Reviewer Sarah Perry sarah.perry@alliancetg.com 2 of 56 Source Test Report Certification Statement AST-2024-3136-004 Nucor – Plymouth, UT Page ii Alliance Technical Group, LLC (Alliance) has completed the source testing as described in this report. Results apply only to the source(s) tested and operating condition(s) for the specific test date(s) and time(s) identified within this report. All results are intended to be considered in their entirety, and Alliance is not responsible for use of less than the complete test report without written consent. This report shall not be reproduced in full or in part without written approval from the customer. To the best of my knowledge and abilities, all information, facts and test data are correct. Data presented in this report has been checked for completeness and is accurate, error-free and legible. Onsite testing was conducted in accordance with approved internal Standard Operating Procedures. Any deviations or problems are detailed in the relevant sections in the test report. This report is only considered valid once an authorized representative of Alliance has signed in the space provided below; any other version is considered draft. This document was prepared in portable document format (.pdf) and contains pages as identified in the bottom footer of this document. Charles Horton, QSTI Alliance Technical Group, LLC Date 10/1/2024 3 of 56 Source Test Report Table of Contents AST-2024-3136-004 Nucor – Plymouth, UT Page iii TABLE OF CONTENTS 1.0 Introduction ................................................................................................................................................. 1-1 1.1 Process/Control System Descriptions .......................................................................................................... 1-1 1.2 Project Team ............................................................................................................................................... 1-1 1.3 Site Specific Test Plan & Notification ........................................................................................................ 1-1 1.4 Test Program Notes ..................................................................................................................................... 1-1 2.0 Summary of Results .................................................................................................................................... 2-1 3.0 Testing Methodology .................................................................................................................................. 3-1 3.1 U.S. EPA Reference Test Methods 1 and 2 – Sampling/Traverse Points and Volumetric Flow Rate ........ 3-1 3.2 U.S. EPA Reference Test Method 3A – Oxygen/Carbon Dioxide .............................................................. 3-1 3.3 U.S. EPA Reference Test Method 4 – Moisture Content ............................................................................ 3-1 3.4 U.S. EPA Reference Test Method 7E – Nitrogen Oxides ........................................................................... 3-1 3.5 U.S. EPA Reference Test Method 205 – Gas Dilution System Certification .............................................. 3-2 3.6 Quality Assurance/Quality Control – U.S. EPA Reference Test Methods 3A and 7E ................................ 3-2 LIST OF TABLES Table 1-1: Project Team ........................................................................................................................................... 1-1 Table 2-1: Summary of Results ................................................................................................................................ 2-1 Table 3-1: Source Testing Methodology .................................................................................................................. 3-1 APPENDICES Appendix A Sample Calculations Appendix B Field Data Appendix C Quality Assurance/Quality Control Data Appendix D Process Operating/Control System Data 4 of 56 Introduction 5 of 56 Source Test Report Introduction AST-2024-3136-004 Nucor – Plymouth, UT Page 1-1 1.0 Introduction Alliance Technical Group, LLC (Alliance) was retained by Nucor Steel-Utah (Nucor) to conduct compliance testing at the Plymouth, Utah facility. Portions of the facility are subject to provisions of the Utah Department of Environmental quality, Division of Air Quality (UDAQ) Approval Order (AOP) DAQE-AN100080048-21-20, Title V Permit No. 300002004 and the Utah State Implementation Plan (SIP) Sections IX.H.11 and 12. Testing was conducted to determine the emission rates of nitrogen oxides (NOx) at the exhaust of Reheat Furnace #2 (RF#2). 1.1 Process/Control System Descriptions The Reheat Furnace #2 is used to heat the steel billets prior to hot rolling them into marketable shapes. The furnace is equipped with natural gas fired boilers. 1.2 Project Team Personnel involved in this project are identified in the following table. Table 1-1: Project Team Nucor Personnel Kyndal Bair UDAQ Personnel Paul Morris Alliance Personnel Ryan Lyons Alan Barrios Steven Cooper Patrick Doyle 1.3 Site Specific Test Plan & Notification Testing was conducted in accordance with the Site Specific Test Plan (SSTP) submitted to UDAQ by Alliance on June 28, 2024. 1.4 Test Program Notes •Run 1 was paused from 13:51 to 13:59 •Run 2 was paused from 15:37 to 16:07 •Method 205 and cals are behind one (1) hour due to time zone differences. 6 of 56 Summary of Results 7 of 56 Source Test Report Summary of Results AST-2024-3136-004 Nucor – Plymouth, UT Page 2-1 2.0 Summary of Results Alliance conducted compliance testing at the Nucor facility in Plymouth, Utah on August 5, 2024. Testing consisted of determining the emission rates of NOx at the exhaust of RF#2. Table 2-1 provides a summary of the emission testing results with comparisons to the applicable permit limits. Any difference between the summary results listed in the following table and the detailed results contained in appendices is due to rounding for presentation. Table 2-1: Summary of Results Run Number Run 1 Run 2 Run 3 Average Date 8/5/24 8/5/24 8/5/24 -- Nitrogen Oxides Data Concentration, ppmvd 23.37 23.32 23.38 23.36 Emission Rate, lb/hr 3.1 3.3 3.1 3.2 Emission limit, lb/hr -- -- -- 8.0 Percent of Limit, % -- -- -- 40 8 of 56 Testing Methodology 9 of 56 Source Test Report Testing Methodology AST-2024-3136-004 Nucor – Plymouth, UT Page 3-1 3.0 Testing Methodology The emission testing program was conducted in accordance with the test methods listed in Table 3-1. Method descriptions are provided below while quality assurance/quality control data is provided in Appendix C. Table 3-1: Source Testing Methodology Parameter U.S. EPA Reference Test Methods Notes/Remarks Volumetric Flow Rate 1 & 2 Full Velocity Traverses Oxygen / Carbon Dioxide 3A Instrumental Analysis Moisture Content 4 Gravimetric Analysis Nitrogen Oxides 7E Instrumental Analysis Gas Dilution System Certification 205 -- 3.1 U.S. EPA Reference Test Methods 1 and 2 – Sampling/Traverse Points and Volumetric Flow Rate The sampling location and number of traverse (sampling) points were selected in accordance with U.S. EPA Reference Test Method 1. To determine the minimum number of traverse points, the upstream and downstream distances were equated into equivalent diameters and compared to Figure 1-2 in U.S. EPA Reference Test Method 1. Full velocity traverses were conducted in accordance with U.S. EPA Reference Test Method 2 to determine the average stack gas velocity pressure, static pressure and temperature. The velocity and static pressure measurement system consisted of a pitot tube and inclined manometer. The stack gas temperature was measured with a K-type thermocouple and pyrometer. Stack gas velocity pressure and temperature readings were recorded during each test run. The data collected was utilized to calculate the volumetric flow rate in accordance with U.S. EPA Reference Test Method 2. 3.2 U.S. EPA Reference Test Method 3A – Oxygen/Carbon Dioxide The oxygen (O2) and carbon dioxide (CO2) testing was conducted in accordance with U.S. EPA Reference Test Method 3A. Data was collected online and reported in one-minute averages. The sampling system consisted of a stainless-steel probe, Teflon sample line(s), gas conditioning system and the identified gas analyzer. The gas conditioning system was a non-contact condenser used to remove moisture from the stack gas. If an unheated Teflon sample line was used, then a portable non-contact condenser was placed in the system directly after the probe. Otherwise, a heated Teflon sample line was used. The quality control measures are described in Section 3.6. 3.3 U.S. EPA Reference Test Method 4 – Moisture Content The stack gas moisture content (BWS) was determined in accordance with U.S. EPA Reference Test Method 4. The gas conditioning train consisted of a series of chilled impingers. Prior to testing, each impinger was filled with a known quantity of water or silica gel. Each impinger was analyzed gravimetrically before and after each test run on the same balance to determine the amount of moisture condensed. 3.4 U.S. EPA Reference Test Method 7E – Nitrogen Oxides The nitrogen oxides (NOx) testing was conducted in accordance with U.S. EPA Reference Test Method 7E. Data was collected online and reported in one-minute averages. The sampling system consisted of a stainless-steel probe, 10 of 56 Source Test Report Testing Methodology AST-2024-3136-004 Nucor – Plymouth, UT Page 3-2 Teflon sample line(s), gas conditioning system and the identified gas analyzer. The gas conditioning system was a non-contact condenser used to remove moisture from the stack gas. If an unheated Teflon sample line was used, then a portable non-contact condenser was placed in the system directly after the probe. Otherwise, a heated Teflon sample line was used. The quality control measures are described in Section 3.6. 3.5 U.S. EPA Reference Test Method 205 – Gas Dilution System Certification A calibration gas dilution system field check was conducted in accordance with U.S. EPA Reference Method 205. An initial three (3) point calibration was conducted, using individual Protocol 1 gases, on the analyzer used to complete the dilution system field check. Multiple dilution rates and total gas flow rates were utilized to force the dilution system to perform two dilutions on each mass flow controller. The diluted calibration gases was sent directly to the analyzer, and the analyzer response recorded in an electronic field data sheet. A mid-level supply gas, with a cylinder concentration within 10% of one of the gas divider settings described above, was introduced directly to the analyzer, and the analyzer response recorded in an electronic field data sheet. The cylinder concentration and the analyzer response agreed within 2%. These steps were repeated three (3) times. The average analyzer response agreed within 2% of the predicted gas concentration. No single injection differed more than 2% from the average instrument response for that dilution. Copies of the Method 205 data can be found in the Quality Assurance/Quality Control Appendix. 3.6 Quality Assurance/Quality Control – U.S. EPA Reference Test Methods 3A and 7E Cylinder calibration gases used met EPA Protocol 1 (+/- 2%) standards. Copies of all calibration gas certificates can be found in the Quality Assurance/Quality Control Appendix. Low Level gas was introduced directly to the analyzer. After adjusting the analyzer to the Low-Level gas concentration and once the analyzer reading was stable, the analyzer value was recorded. This process was repeated for the High-Level gas. For the Calibration Error Test, Low, Mid, and High Level calibration gases were sequentially introduced directly to the analyzer. All values were within 2.0 percent of the Calibration Span or 0.5 ppmv/% absolute difference. High or Mid-Level gas (whichever was closer to the stack gas concentration) was introduced at the probe and the time required for the analyzer reading to reach 95 percent or 0.5 ppmv/% (whichever was less restrictive) of the gas concentration was recorded. The analyzer reading was observed until it reached a stable value, and this value was recorded. Next, Low Level gas was introduced at the probe and the time required for the analyzer reading to decrease to a value within 5.0 percent or 0.5 ppmv/% (whichever was less restrictive) was recorded. If the Low- Level gas was zero gas, the response was 0.5 ppmv/% or 5.0 percent of the upscale gas concentration (whichever was less restrictive). The analyzer reading was observed until it reached a stable value and this value was recorded. The measurement system response time and initial system bias were determined from these data. The System Bias was within 5.0 percent of the Calibration Span or 0.5 ppmv/% absolute difference. High or Mid-Level gas (whichever was closer to the stack gas concentration) was introduced at the probe. After the analyzer response was stable, the value was recorded. Next, Low Level gas was introduced at the probe, and the analyzer value recorded once it reached a stable response. The System Bias was within 5.0 percent of the Calibration Span or 0.5 ppmv/% absolute difference or the data was invalidated and the Calibration Error Test and System Bias were repeated. 11 of 56 Source Test Report Testing Methodology AST-2024-3136-004 Nucor – Plymouth, UT Page 3-3 Drift between pre- and post-run System Bias was within 3 percent of the Calibration Span or 0.5 ppmv/% absolute difference. If the drift exceeded 3 percent or 0.5 ppmv/%, the Calibration Error Test and System Bias were repeated. To determine the number of sampling points, a gas stratification check was conducted prior to initiating testing. The pollutant concentrations were measured at three points (16.7, 50.0 and 83.3 percent of the measurement line). Each traverse point was sampled for a minimum of twice the system response time. If the pollutant concentration at each traverse point did not differ more than 5 percent or 0.5 ppmv/0.3% (whichever was less restrictive) of the average pollutant concentration, then single point sampling was conducted during the test runs. If the pollutant concentration did not meet these specifications but differed less than 10 percent or 1.0 ppmv/0.5% from the average concentration, then three (3) point sampling was conducted (stacks less than 7.8 feet in diameter - 16.7, 50.0 and 83.3 percent of the measurement line; stacks greater than 7.8 feet in diameter – 0.4, 1.0, and 2.0 meters from the stack wall). If the pollutant concentration differed by more than 10 percent or 1.0 ppmv/0.5% from the average concentration, then sampling was conducted at a minimum of twelve (12) traverse points. Copies of stratification check data can be found in the Quality Assurance/Quality Control Appendix. An NO2 – NO converter check was performed on the analyzer prior to initiating testing. An approximately 50 ppm nitrogen dioxide cylinder gas was introduced directly to the NOx analyzer and the instrument response was recorded in an electronic data sheet. The instrument response was within +/- 10 percent of the cylinder concentration. A Data Acquisition System with battery backup was used to record the instrument response in one (1) minute averages. The data was continuously stored as a *.CSV file in Excel format on the hard drive of a computer. At the completion of testing, the data was also saved to the Alliance server. All data was reviewed by the Field Team Leader before leaving the facility. Once arriving at Alliance’s office, all written and electronic data was relinquished to the report coordinator and then a final review was performed by the Project Manager. 12 of 56 Appendix A 13 of 56 Example Calculations Location Source Project No. Run No. Parameter(s) Meter Pressure (Pm), in. Hg where, Pb 25.62 = barometric pressure, in. Hg ΔH 1.300 = pressure differential of orifice, in H2O Pm 25.72 = in. Hg Absolute Stack Gas Pressure (Ps), in. Hg where, Pb 25.62 = barometric pressure, in. Hg Pg 1.10 = static pressure, in. H2O Ps 25.70 = in. Hg Standard Meter Volume (Vmstd), dscf where,Y 1.002 = meter correction factor Vm 42.080 = meter volume, cf Pm 25.72 = absolute meter pressure, in. Hg Tm 567.4 = absolute meter temperature, °R Vmstd 33.704 = dscf Standard Wet Volume (Vwstd), scf where, Vlc 136.7 = weight of H2O collected, g Vwstd 6.447 = scf Moisture Fraction (BWSsat), dimensionless (theoretical at saturated conditions) where, Ts 952.0 = stack temperature, °F Ps 25.7 = absolute stack gas pressure, in. Hg BWSsat 1.000 = dimensionless Moisture Fraction (BWS), dimensionless where, Vwstd 6.447 = standard wet volume, scf Vmstd 33.704 = standard meter volume, dscf BWS 0.161 = dimensionless Moisture Fraction (BWS), dimensionless where, BWSsat 1.000 = moisture fraction (theoretical at saturated conditions) BWSmsd 0.161 = moisture fraction (measured) BWS 0.161 Molecular Weight (DRY) (Md), lb/lb-mole where, CO2 10.3 = carbon dioxide concentration, % O2 3.8 = oxygen concentration, % Md 29.79 = lb/lb mol Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 1 VFR Vwstd = 0.04716 x Vlc Vmstd =17.636 x Vm x Pm x Y Tm BWS = Vwstd (Vwstd +Vmstd) Md = (0.44 × % COଶ) + (0.32 × % O2) + (0.28 (100 − % COଶ − % O2)) BWS = BWSmsd unless BWSsat <BWSmsd BWSsat = 10଺.ଷ଻ି ଶ,଼ଶ଻ ୘ୱା Ps Ps = Pb + Pg 13 6 Pm = Pb + Δ H 136 14 of 56 Example Calculations Location Source Project No. Run No. Parameter(s) Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 1 VFR Molecular Weight (WET) (Ms), lb/lb-mole where, Md 29.79 = molecular weight (DRY), lb/lb mol BWS 0.161 = moisture fraction, dimensionless Ms 27.90 = lb/lb mol Average Velocity (Vs), ft/sec where, Cp 0.84 = pitot tube coefficient Δ P1/2 0.287 = average pre/post test velocity head of stack gas, (in. H2O)1/2 Ts 1411.7 = average pre/post test absolute stack temperature, °R Ps 25.70 = absolute stack gas pressure, in. Hg Ms 27.90 = molecular weight of stack gas, lb/lb mol Vs 28.9 = ft/sec Average Stack Gas Flow at Stack Conditions (Qa), acfm where, Vs 28.9 = stack gas velocity, ft/sec As 39.41 = cross-sectional area of stack, ft2 Qa 68,440 = acfm Average Stack Gas Flow at Standard Conditions (Qs), dscfm PsTs where, Qa 68,440 = average stack gas flow at stack conditions, acfm BWS 0.161 = moisture fraction, dimensionless Ps 25.70 = absolute stack gas pressure, in. Hg Ts 1411.7 = average pre/post test absolute stack temperature, °R Qs 18,446 = dscfm Dry Gas Meter Calibration Check (Yqa), percent where,Y 1.002 = meter correction factor, dimensionless Θ 60 = run time, min.Vm 42.08 = total meter volume, dcf Tm 567.4 = absolute meter temperature, °R ΔH@ 1.758 = orifice meter calibration coefficient, in. H2O Pb 25.62 = barometric pressure, in. Hg ΔH avg 1.300 = average pressure differential of orifice, in H2O Md 29.79 = molecular weight (DRY), lb/lb mol (Δ H)1/2 1.140 = average square root pressure differential of orifice, (in. H2O)1/2 Yqa -1.3 = percent Qsd = 17.636 x Qa x (1 - BWS) x Ms = Md (1 − BWS) + 18.015 (BWS) Vs = 85.49 × Cp × (Δ P ଵ/ଶ) avg × Ts Ps x Ms Qa = 60 × Vs × As Yqa = Y − Θ Vm 0.0319 × Tm× 29 ΔH@ × Pb + Δ Havg. 13.6 × Md ΔH avg. Y × 100 15 of 56 Location: Source: Project No.: Run No. /Method O₂ - Outlet Concentration (CO₂), % dry CMA( CM - C0 ) where,Cobs 3.8 = average analyzer value during test, % dry Co 0.1 = average of pretest & posttest zero responses, % dry CMA 5.0 = actual concentration of calibration gas, % dry CM 5.0 = average of pretest & posttest calibration responses, % dry CO₂3.8 = O₂ Concentration, % dry Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 Run 1 / Method 3A CO₂ = ( Cobs - C0 ) x CO₂ - Outlet Concentration (CCO₂), % dry C M A ( C M - C 0 ) where,Cobs 10.2 Co 0.0 CMA 12.0 CM 11.9 CCO₂10.3 = average analyzer value during test, % dry = average of pretest & posttest zero responses, % dry = actual concentration of calibration gas, % dry = average of pretest & posttest calibration responses, % dry = CO₂ Concentration, % dry CCO₂ = ( Cobs - C0 ) x Example Calculations 16 of 56 Location: Source: Project No.: Run No. /Method NOx - Outlet Concentration (CNOx), ppmvd CMA( CM - C0 ) where,Cobs 23.1 = average analyzer value during test, ppmvd Co 0.0 = average of pretest & posttest zero responses, ppmvd CMA 25.0 = actual concentration of calibration gas, ppmvd CM 24.8 = average of pretest & posttest calibration responses, ppmvd CNOx 23.4 = NOx Concentration, ppmvd NOx - Outlet Emission Rate (ERNOx), lb/hr where, CNOx 23.4 = NOx - Outlet Concentration, ppmvd MW 46.0055 = NOx molecular weight, g/g-mole Qs 18,446 = stack gas volumetric flow rate at standard conditions, dscfm ERNOx 3.1 = lb/hr Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 Run 1 / Method 7E CNOx = ( Cobs - C0 ) x ERNOx =CNOx x MW x Qs x 60 x 28.32 24.04 x 1.0E06 x 453.592 𝑚𝑖𝑛 ℎ𝑟 𝐿 𝑓𝑡ଷ 𝐿 𝑔−𝑚𝑜𝑙𝑒 𝑔 𝑙𝑏 Example Calculations 17 of 56 Appendix B 18 of 56 Emissions Calculations Location Source Project No. Run Number Run 1 Run 2 Run 3 Average Date 8/5/24 8/5/24 8/5/24 -- Start Time 13:30 15:07 16:57 -- Stop Time 14:37 16:35 17:56 -- Volumetric Flow Rate (M1-4), dscfm Qs 18,446 19,643 18,671 18,920 O₂ Concentration, % dry CO₂3.77 4.02 3.90 3.90 CO₂ Concentration, % dry CCO₂10.26 9.52 8.59 9.46 NOx Concentration, ppmvd CNOx 23.37 23.32 23.38 23.36 NOx Emission Rate, lb/hr ERNOx 3.1 3.3 3.1 3.2 Input Data - Outlet Calculated Data - Outlet Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 19 of 56 Method 1 Data Location Source Project No. Date Horizontal Circular 94.00 in 9.00 in 85.00 in 39.41 ft2 2 1 7.0 ft 1.0 (must be > 0.5) 23.0 ft 3.2 (must be > 2) 16 16 Measurer (Initial and Date):PDD 8/5/24 Reviewer (Initial and Date):ALB 8/5/24 2 3 4 5 6 7 8 9 10 11 12 1 14.6 -- 6.7 -- 4.4 -- 3.2 -- 2.6 -- 2.1 1 3.2 2.72 11 3/4 2 85.4 -- 25.0 -- 14.6 -- 10.5 -- 8.2 -- 6.7 2 10.5 8.93 17 15/16 3 -- -- 75.0 -- 29.6 -- 19.4 -- 14.6 -- 11.8 3 19.4 16.49 25 1/2 4 -- -- 93.3 -- 70.4 -- 32.3 -- 22.6 -- 17.7 4 32.3 27.46 36 7/16 5 -- -- -- -- 85.4 -- 67.7 -- 34.2 -- 25.0 5 67.7 57.55 66 9/16 6 -- -- -- -- 95.6 -- 80.6 -- 65.8 -- 35.6 6 80.6 68.51 77 1/2 7 -- -- -- ------ 89.5 -- 77.4 -- 64.4 7 89.5 76.08 85 1/16 8 -- -- -- ------ 96.8 -- 85.4 -- 75.0 8 96.8 82.28 91 1/4 9 -- -- -- ------ -- -- 91.8 -- 82.3 9 -- -- -- 10 -- -- -- ------ -- -- 97.4 -- 88.2 10 -- -- -- 11 -- -- -- ------ -- -- -- -- 93.3 11 -- -- -- 12 -- -- -- ------ -- -- -- -- 97.9 12 -- -- -- *Percent of stack diameter from inside wall to traverse point. A = 7 ft. B = 23 ft. Depth of Duct = 85 in. Cross Sectional Area of Duct: Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 08/05/24 Stack Parameters Duct Orientation: Duct Design: Distance from Far Wall to Outside of Port: Nipple Length: Depth of Duct: No. of Test Ports: Number of Readings per Point: Distance A: Distance A Duct Diameters: Distance B: Distance B Duct Diameters: Minimum Number of Traverse Points: Actual Number of Traverse Points: CIRCULAR DUCT Number of traverse points on a diameter Stack Diagram Cross Sectional Area LOCATION OF TRAVERSE POINTS Traverse Point % of Diameter Distance from inside wall Distance from outside of port Upstream Disturbance Downstream Disturbance B A 20 of 56 Cyclonic Flow Check Location Source Project No. Date Sample Point Angle (ΔP=0) 1 9 2 12 3 10 4 4 5 0 6 0 7 4 8 6 9 10 10 12 11 7 12 6 13 2 14 0 15 8 16 5 Average 5.9 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 8/5/24 21 of 56 Field Data Method 2 Data Location Source Project No. Δ P (in. WC) Ts (°F) Δ P (in. WC) Ts (°F) Δ P (in. WC) Ts (°F) 0.05 956 0.08 965 0.06 958 0.12 956 0.13 965 0.11 960 0.09 955 0.12 967 0.09 961 0.10 954 0.11 970 0.12 959 0.08 952 0.10 968 0.13 957 0.09 950 0.09 962 0.09 955 0.07 948 0.08 960 0.08 954 0.06 946 0.09 958 0.07 954 0.05 955 0.06 964 0.08 962 0.10 955 0.09 962 0.06 961 0.08 954 0.11 960 0.07 961 0.07 952 0.13 958 0.10 959 0.08 952 0.10 955 0.11 957 0.09 950 0.08 952 0.09 955 0.10 949 0.07 952 0.08 955 0.11 948 0.07 948 0.07 953 Average Square Root of ΔP, (in. WC)1/2 (ΔP)1/2 0.296 Average ΔP, in. WC (ΔP)0.09 Pitot Tube Coefficient (Cp)0.840 Barometric Pressure, in. Hg (Pb)25.62 Static Pressure, in. WC (Pg)1.10 Stack Pressure, in. Hg (Ps)25.70 Average Temperature, °F (Ts)956.6 Average Temperature, °R (Ts)1416.3 Measured Moisture Fraction (BWSmsd)0.165 Moisture Fraction @ Saturation (BWSsat)1.000 Moisture Fraction (BWS)0.165 O2 Concentration, % (O2)3.9 CO2 Concentration, % (CO2)9.5 Molecular Weight, lb/lb-mole (dry) (Md)29.67 Molecular Weight, lb/lb-mole (wet) (Ms)27.75 Velocity, ft/sec (Vs)29.9 VFR at stack conditions, acfm (Qa)70,795 VFR at standard conditions, scfh (Qsw)1,359,315 VFR at standard conditions, scfm (Qsw)22,655 VFR at standard conditions, dscfm (Qsd)18,920 8 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 Run No.1 2 3 Status VALID VALID VALID Date 8/5/24 8/5/24 8/5/24 Stop Time 14:49 16:35 17:57 Start Time 13:30 15:07 16:57 Traverse Point 1 2 3 4 Leak Check Pass Pass Pass 3 4 5 6 7 5 6 7 8 1 2 0.840 0.840 0.840 0.08 0.09 0.09 0.287 0.305 0.295 1.10 1.20 1.00 25.62 25.62 25.62 952.0 960.4 957.6 25.70 25.71 25.69 0.161 0.157 0.177 1411.7 1420.0 1417.2 29.79 29.68 29.53 3.77 4.02 3.90 10.26 9.52 8.59 28.9 30.9 30.0 27.90 27.85 27.50 68,440 73,025 70,922 21,975 23,315 22,676 1,318,480 1,398,914 1,360,551 18,446 19,643 18,671 1.0001.0001.000 0.1770.1570.161 22 of 56 Method 4 Data Location SourceProject No. Parameter(s) Console Units / Method ft3 M4 Run No. Date Status Start Time End Time Run Time, min (θ) Meter ID Meter Correction Factor (Y) Orifice Calibration Value (ΔH @) Max Vacuum, in. Hg Post Leak Check, ft3/min (at max vac.) Meter Volume, ft3 Total Meter Volume, ft3 (Vm) Meter Probe Filter Vacuum Imp. Exit Meter Probe Filter Vacuum Imp. Exit Meter Probe Filter Vacuum Imp. Exit 103 956 -- 7 64 111 964 -- 7 68 114 958 -- 6 68 104 956 -- 7 64 111 962 -- 7 66 114 958 -- 6 66 104 955 -- 7 66 112 967 -- 7 68 115 960 -- 6 66 106 954 -- 7 67 113 968 -- 7 68 116 961 -- 6 65 106 952 -- 7 66 114 964 -- 7 66 116 958 -- 6 65 106 950 -- 7 63 114 960 -- 7 67 117 957 -- 6 66 107 948 -- 7 61 115 958 -- 7 67 117 960 -- 6 67 108 955 -- 7 62 115 955 -- 7 66 117 955 -- 6 67 110 955 -- 7 65 115 962 -- 7 66 116 954 -- 6 68 111 954 -- 7 66 116 964 -- 7 67 115 953 -- 6 68 111 952 -- 7 66 115 960 -- 7 67 115 951 -- 6 67 112 952 -- 7 66 114 958 -- 7 65 114 950 -- 6 67 112 950 -- 7 67 115 955 -- 7 65 114 950 -- 6 66 Average Temperature, °F (Tm)108 953 -- 7 65 114 961 -- 7 67 115 956 -- 6 67 Average Temperature, °R (Tm)567 1413 -- -- -- 574 1421 -- -- -- 575 1415 -- -- -- Minimum Temperature, °F 103 948 -- 7 61 111 955 -- 7 65 114 950 -- 6 65 Maximum Temperature, °F 112 956 -- 7 67 116 968 -- 7 68 117 961 -- 6 68 Barometric Pressure, in. Hg (Pb) Meter Orifice Pressure , in. WC (ΔH) Meter Pressure, in. Hg (Pm) Standard Meter Volume, ft3 (Vmstd) Analysis Type Impinger 1, Pre/Post Test, g 732.1 882.9 150.8 882.9 915.4 32.5 740.3 867.5 127.2 Impinger 2, Pre/Post Test, g 732.7 697.0 -35.7 697.0 769.9 72.9 769.9 777.4 7.5 Impinger 3, Pre/Post Test, g 645.2 653.3 8.1 653.3 663.5 10.2 663.5 666.5 3.0 Impinger 4, Pre/Post Test, g 917.4 930.9 13.5 930.3 945.6 15.3 945.6 963.4 17.8 Volume Water Collected, mL (Vlc) Standard Water Volume, ft3 (Vwstd) Moisture Fraction Measured (BWS) Gas Molecular Weight, lb/lb-mole (dry) (Md) DGM Calibration Check Value (Yqa) Temperature, °F 0 5 30 35 60 Nucor Steel - Plymouth, UT Reheat Furnace #22024-3136 VFR 1 VALID 8/5/24 13:30 14:37 60 M5-26 1.002 1.758 VALID 16:57 17:57 60 M5-26 1.002 1.758 6 0.000 29.80 -2.8 155.5 7.333 0.177 0.4 29.53 H2O H2O Empty H2O Empty 25.62 1.300 25.62 1.300 2 8/5/24 3 8/5/24 VALID 15:07 16:35 60 M5-26 1.002 1.758 7 0.000 195.330 198.950 202.530 206.290 209.880 213.500 217.090 220.700 224.300 227.950 231.450 235.200 238.590 184.900 188.350 191.800 195.240 153.560 157.020 160.500 163.050 167.480 170.960 174.460 178.040 181.320 42.080 41.680 43.260 H2O 130.9 6.173 0.157 29.79 -1.3 25.72 33.025 25.72 34.185 Gravimetric Gravimetric Silica Silica Silica 25.62 136.7 6.447 0.161 1.300 25.72 33.704 H2O H2O Empty Gravimetric 7 0.000 108.320 112.000 115.760 119.500 122.660 126.150 129.680 133.130 136.660 139.980 143.420 146.900 150.40060 0 5 10 15 20 25 10 15 20 25 40 45 50 55 30 35 40 45 50 55 23 of 56 Run 1 - RM Data Location: Source: Project No.: Date: Time O₂ - Outlet CO₂ - Outlet NOx - Outlet Unit % dry % dry ppmvd Status Valid Valid Valid Uncorrected Run Average (Cobs)3.79 10.15 23.14 Cal Gas Concentration (CMA)5.00 12.00 25.00 Pretest System Zero Response 0.09 0.04 0.01 Posttest System Zero Response 0.06 0.00 0.02 Average Zero Response (Co)0.08 0.02 0.02 Pretest System Cal Response 4.99 11.87 24.97 Posttest System Cal Response 5.02 11.87 24.54 Average Cal Response (CM)5.01 11.87 24.76 Corrected Run Average (Corr)3.77 10.26 23.37 13:30 3.50 9.78 23.61 13:31 3.48 9.79 23.75 13:32 3.61 9.73 23.68 13:33 3.57 9.75 24.28 13:34 3.50 9.79 23.85 13:35 3.72 9.67 23.67 13:36 3.67 9.70 23.95 13:37 3.67 9.70 23.59 13:38 3.83 9.62 23.42 13:39 3.87 9.60 23.53 13:40 3.70 9.69 23.22 13:41 3.71 9.69 23.44 13:42 3.76 9.66 23.42 13:43 3.75 9.67 23.45 13:44 3.81 9.63 23.18 13:45 3.82 9.64 22.90 13:46 3.74 9.69 22.97 13:47 3.59 9.77 22.98 13:48 3.65 9.72 23.03 13:49 3.58 9.77 23.20 13:50 3.66 9.73 23.41 13:59 4.13 9.47 23.29 14:00 4.04 9.52 22.87 14:01 4.07 9.49 22.98 14:02 4.04 9.53 22.64 14:03 3.99 9.53 23.02 14:04 4.03 10.07 22.77 14:05 4.06 10.34 22.89 14:06 3.91 10.43 22.87 14:07 3.97 10.41 22.82 14:08 3.95 10.44 22.91 14:09 3.94 10.45 22.97 14:10 3.73 10.57 23.34 14:11 3.82 10.53 22.79 14:12 3.74 10.57 23.00 14:13 3.77 10.56 22.94 14:14 3.91 10.47 23.18 14:15 3.80 10.52 22.77 14:16 3.94 10.45 22.84 14:17 3.92 10.48 23.07 14:18 3.94 10.48 22.48 14:19 3.78 10.56 22.87 14:20 3.85 10.52 23.21 14:21 3.63 10.67 23.01 14:22 3.81 10.57 22.88 14:23 3.88 10.54 23.22 14:24 3.78 10.57 23.36 14:25 3.81 10.58 23.52 14:26 3.99 10.49 23.28 14:27 4.04 10.46 22.63 14:28 3.85 10.55 22.85 14:29 3.75 10.61 23.11 14:30 3.80 10.58 22.86 14:31 3.79 10.57 23.07 14:32 3.63 10.66 23.21 14:33 3.62 10.68 23.08 14:34 3.67 10.66 22.79 14:35 3.67 10.64 22.98 14:36 3.68 10.63 22.75 14:37 3.70 10.62 22.89 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 8/5/24 24 of 56 Run 2 - RM Data Location: Source: Project No.: Date: Time O₂ - Outlet CO₂ - Outlet NOx - Outlet Unit % dry % dry ppmvd Status Valid Valid Valid Uncorrected Run Average (Cobs)4.03 9.39 22.85 Cal Gas Concentration (CMA)5.00 12.00 25.00 Pretest System Zero Response 0.06 0.00 0.02 Posttest System Zero Response 0.07 0.01 0.01 Average Zero Response (Co)0.07 0.01 0.02 Pretest System Cal Response 5.02 11.87 24.54 Posttest System Cal Response 4.97 11.79 24.45 Average Cal Response (CM)5.00 11.83 24.50 Corrected Run Average (Corr)4.02 9.52 23.32 15:07 3.75 9.52 22.68 15:08 3.80 9.50 22.40 15:09 3.60 9.63 22.96 15:10 3.63 9.59 22.75 15:11 3.84 9.48 23.19 15:12 3.83 9.49 23.22 15:13 3.73 9.53 22.86 15:14 3.76 9.51 23.12 15:15 3.80 9.50 23.37 15:16 3.91 9.45 22.95 15:17 3.95 9.42 23.18 15:18 3.90 9.45 23.20 15:19 3.86 9.48 23.09 15:20 3.96 9.41 23.08 15:21 3.67 9.58 23.19 15:22 3.72 9.57 22.96 15:23 3.83 9.50 23.35 15:24 3.74 9.55 23.41 15:25 3.85 9.50 23.29 15:26 3.92 9.46 23.37 15:27 4.01 9.40 23.17 15:28 3.93 9.46 22.97 15:29 3.85 9.46 23.13 15:30 3.84 9.49 23.25 15:31 3.94 9.43 23.30 15:32 3.90 9.46 23.76 15:33 4.11 9.34 23.38 15:34 4.16 9.31 23.41 15:35 4.07 9.37 23.80 15:36 3.98 9.44 24.06 15:37 4.03 9.40 24.05 16:07 4.52 9.14 22.34 16:08 4.44 9.19 21.97 16:09 4.30 9.26 22.12 16:10 4.29 9.26 22.24 16:11 4.23 9.29 22.58 16:12 4.36 9.22 22.40 16:13 4.30 9.25 22.46 16:14 4.31 9.23 22.57 16:15 4.21 9.29 22.40 16:16 4.11 9.36 22.93 16:17 4.17 9.33 22.59 16:18 4.20 9.30 22.63 16:19 4.26 9.26 22.48 16:20 4.27 9.26 22.67 16:21 4.24 9.28 22.48 16:22 4.29 9.25 22.38 16:23 4.20 9.30 22.44 16:24 4.19 9.31 22.71 16:25 4.25 9.26 22.49 16:26 4.03 9.37 22.47 16:27 4.05 9.38 22.84 16:28 4.04 9.38 22.54 16:29 4.05 9.36 22.72 16:30 4.05 9.36 22.57 16:31 4.01 9.38 22.07 16:32 4.04 9.37 22.27 16:33 4.18 9.28 22.42 16:34 4.05 9.36 22.52 16:35 4.25 9.27 21.93 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 8/5/24 25 of 56 Run 3 - RM Data Location: Source: Project No.: Date: Time O₂ - Outlet CO₂ - Outlet NOx - Outlet Unit % dry % dry ppmvd Status Valid Valid Valid Uncorrected Run Average (Cobs)3.90 8.52 22.91 Cal Gas Concentration (CMA)5.00 12.00 25.00 Pretest System Zero Response 0.07 0.01 0.01 Posttest System Zero Response 0.08 0.00 0.03 Average Zero Response (Co)0.08 0.01 0.02 Pretest System Cal Response 4.97 11.79 24.45 Posttest System Cal Response 4.98 12.00 24.55 Average Cal Response (CM)4.98 11.90 24.50 Corrected Run Average (Corr)3.90 8.59 23.38 16:57 3.79 8.54 22.69 16:58 3.93 8.48 22.42 16:59 3.84 8.51 22.02 17:00 3.91 8.50 22.39 17:01 3.83 8.54 22.15 17:02 3.75 8.59 22.30 17:03 4.02 8.45 22.60 17:04 4.00 8.45 22.33 17:05 3.95 8.46 22.46 17:06 3.97 8.46 22.77 17:07 4.08 8.41 22.83 17:08 4.05 8.41 22.86 17:09 4.13 8.37 23.12 17:10 3.86 8.52 23.11 17:11 3.93 8.48 23.47 17:12 3.97 8.46 23.31 17:13 3.92 8.49 23.17 17:14 3.83 8.55 23.16 17:15 3.95 8.48 23.22 17:16 3.98 8.47 23.28 17:17 3.99 8.47 22.83 17:18 3.94 8.50 23.02 17:19 3.82 8.56 23.07 17:20 3.69 8.63 22.82 17:21 3.79 8.58 22.54 17:22 3.85 8.54 22.29 17:23 3.78 8.58 22.70 17:24 3.95 8.49 23.01 17:25 4.03 8.44 23.38 17:26 3.90 8.51 23.07 17:27 3.95 8.50 23.12 17:28 3.80 8.58 23.35 17:29 3.94 8.51 22.98 17:30 3.88 8.54 22.73 17:31 4.03 8.47 22.53 17:32 3.93 8.51 22.59 17:33 3.84 8.56 22.99 17:34 3.91 8.50 22.76 17:35 4.07 8.43 22.69 17:36 4.06 8.42 22.55 17:37 3.85 8.55 22.57 17:38 3.96 8.50 23.13 17:39 3.92 8.52 23.01 17:40 4.15 8.41 22.68 17:41 4.02 8.46 22.70 17:42 4.14 8.39 22.67 17:43 4.07 8.44 22.96 17:44 3.98 8.50 23.32 17:45 3.96 8.50 22.96 17:46 3.86 8.55 23.37 17:47 3.78 8.59 23.48 17:48 3.75 8.61 23.26 17:49 3.66 8.66 23.58 17:50 3.63 8.68 23.49 17:51 3.63 8.69 23.02 17:52 3.81 8.59 23.28 17:53 3.77 8.62 23.11 17:54 3.78 8.61 23.00 17:55 3.78 8.60 23.04 17:56 3.75 8.63 23.27 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 8/5/24 26 of 56 Appendix C 27 of 56 QA Data Location Source Project No. O₂ - Outlet CO₂ - Outlet NOx - Outlet Make CAI CAI THERMO Model 600 600 42iQ S/N W12008-MA W12008-MZ 12327730521 Operating Range 25 25 100 Cylinder ID Zero NA NA NA Mid CC727648 CC727648 CC736761 High CC727648 CC727648 CC736761 Cylinder Certifed Values Zero NA NA NA Mid 24.06 23.9 99.1 High 24.06 23.9 99.1 Cylinder Expiration Date Zero NA NA NA Mid 9/19/31 9/19/31 10/28/31 High 9/19/31 9/19/31 10/28/31 Type of Sample Line Heated Sample Line Parameter Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 28 of 56 Response Times Location: Source: Project No.: O₂ - Outlet CO₂ - Outlet NOx - Outlet Zero 45 45 60 Low NA NA NA Mid 48 50 65 High 55 55 70 Average 49.3 50.0 65.0 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 Parameter Response Times, seconds 29 of 56 Calibration Data Location: Source: Project No.: Date: O₂ - Outlet CO₂ - Outlet NOx - Outlet Expected Average Concentration 3.00 10.00 20.00 Span Between Low 3.00 10.00 20.00 High 20.00 50.00 100.00 Desired Span 10.00 23.90 50.00 Low Range Gas Low NA NA NA High NA NA NA Mid Range Gas Low 4.00 9.56 20.00 High 6.00 14.34 30.00 High Range Gas Low NA NA NA High NA NA NA Actual Concentration (% or ppm) Zero 0.00 0.00 0.00 Low NA NA NA Mid 5.00 12.00 25.00 High 10.00 23.90 50.00 Response Time (seconds)49.33 50.00 65.00 Upscale Calibration Gas (CMA)Mid Mid Mid Instrument Response (% or ppm) Zero 0.00 0.00 0.02 Low NA NA NA Mid 4.91 12.04 24.96 High 10.06 23.90 50.04 Performance (% of Span or Cal. Gas Conc.) Zero 0.00 0.00 0.04 Low NA NA NA Mid 0.90 0.17 0.08 High 0.60 0.00 0.08 Status Zero PASS PASS PASS Low NA NA NA Mid PASS PASS PASS High PASS PASS PASS Reheat Furnace #2 Nucor Steel - Plymouth, UT Parameter 8/5/24 2024-3136 30 of 56 Bias/Drift Determinations Location: Source: Project No.: O₂ - Outlet CO₂ - Outlet NOx - Outlet Pretest System Zero Response 0.09 0.04 0.01 Posttest System Zero Response 0.06 0.00 0.02 Pretest System Upscale Response 4.99 11.87 24.97 Posttest System Upscale Response 5.02 11.87 24.54 Pretest System Zero Response 0.06 0.00 0.02 Posttest System Zero Response 0.07 0.01 0.01 Pretest System Upscale Response 5.02 11.87 24.54 Posttest System Upscale Response 4.97 11.79 24.45 Pretest System Zero Response 0.07 0.01 0.01 Posttest System Zero Response 0.08 0.00 0.03 Pretest System Upscale Response 4.97 11.79 24.45 Posttest System Upscale Response 4.98 12.00 24.55 Run 2 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 Parameter Run 1 Run 3 31 of 56 Bias/Drift Determinations Location: Source: Project No.: O₂ - Outlet CO₂ - Outlet NOx - Outlet Run 1 Date 8/5/24 Span Value 10.00 23.90 50.00 Initial Instrument Zero Cal Response 0.00 0.00 0.02 Initial Instrument Upscale Cal Response 4.91 12.04 24.96 Pretest System Zero Response 0.09 0.04 0.01 Posttest System Zero Response 0.06 0.00 0.02 Pretest System Upscale Response 4.99 11.87 24.97 Posttest System Upscale Response 5.02 11.87 24.54 Bias (%) Pretest Zero 0.90 0.17 -0.02 Posttest Zero 0.60 0.00 0.00 Pretest Span 0.80 -0.71 0.02 Posttest Span 1.10 -0.71 -0.84 Drift (%) Zero -0.30 -0.17 0.02 Mid 0.30 0.00 -0.86 Run 2 Date 8/5/24 Span Value 10.00 23.90 50.00 Instrument Zero Cal Response 0.00 0.00 0.02 Instrument Upscale Cal Response 4.91 12.04 24.96 Pretest System Zero Response 0.06 0.00 0.02 Posttest System Zero Response 0.07 0.01 0.01 Pretest System Upscale Response 5.02 11.87 24.54 Posttest System Upscale Response 4.97 11.79 24.45 Bias (%) Pretest Zero 0.60 0.00 0.00 Posttest Zero 0.70 0.04 -0.02 Pretest Span 1.10 -0.71 -0.84 Posttest Span 0.60 -1.05 -1.02 Drift (%) Zero 0.10 0.04 -0.02 Mid -0.50 -0.33 -0.18 Run 3 Date 8/5/24 Span Value 10.00 23.90 50.00 Instrument Zero Cal Response 0.00 0.00 0.02 Instrument Upscale Cal Response 4.91 12.04 24.96 Pretest System Zero Response 0.07 0.01 0.01 Posttest System Zero Response 0.08 0.00 0.03 Pretest System Upscale Response 4.97 11.79 24.45 Posttest System Upscale Response 4.98 12.00 24.55 Bias (%) Pretest Zero 0.70 0.04 -0.02 Posttest Zero 0.80 0.00 0.02 Pretest Span 0.60 -1.05 -1.02 Posttest Span 0.70 -0.17 -0.82 Drift (%) Zero 0.10 -0.04 0.04 Mid 0.10 0.88 0.20 Parameter Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 32 of 56 Balance Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-551-8150 Accreditation #62754 PGVP Vendor ID # G12023 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number:CC727648 Certification Date:09/21/2023 Product ID Number:127907 Expiration Date:09/19/2031 Cylinder Pressure:1900 PSIG MFG Facility: - Shreveport - LA COA #CC727648.20230830-0 Lot Number:CC727648.20230830 Customer PO. NO.:Tracking Number:098856026 Customer:Previous Certification Dates: This calibration standard has been certified per the May 2012 EPA Traceability Protocol, Document EPA-600/R-12/531, using procedure G2. Do Not Use This Cylinder Below 100 psig (0.7 Megapascal). Certified Concentration(s) Component Concentration Uncertainty Analytical Principle Assayed On Carbon Dioxide 23.9 %±0.2 %FTIR 09/21/2023 Oxygen 24.06 %±0.04 %MPA 09/14/2023 Nitrogen Analytical Measurement Data Available Online. Reference Standard(s) Serial Number Lot Expiration Type Balance Component Concentration Uncertainty(%)NIST Reference CC737012 CC737012.20230228 07/09/2031 GMIS N2 O2 20 %0.112 SRM 2659a EB0022021 EB0022021.20180323 07/15/2026 GMIS N2 CO2 14.9 %0.777 101001 Analytical Instrumentation SMART-CERT Component Principle Make MPC Date O2 MPA Thermo 09/13/2023 CO2 FTIR MKS 09/21/2023 Serial 1162980025 017146467 This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable through National Institute of Standards and Technology (NIST) to the International System of Units (SI). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximate the 95% confidence level of the measurement, unless otherwise noted. This calibration certificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas Services. If not included, the uncertainty of calibrations are available upon request and were taken into account when determining pass or fail. Timothy Davis Analytical Chemist Assay Laboratory: Red Ball TGS Version 02-J, Revised on 2018-09-17 Model 410i MKS 2031DJG2EKVS13T 33 of 56 Balance Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-551-8150 Accreditation #62754 PGVP Vendor ID # G12023 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number:CC736761 Certification Date:10/30/2023 Product ID Number:123812 Expiration Date:10/28/2031 Cylinder Pressure:1900 PSIG MFG Facility: - Shreveport - LA COA #CC736761.20231011-0 Lot Number:CC736761.20231011 Customer PO. NO.:Tracking Number:101358901 Customer:Previous Certification Dates: This calibration standard has been certified per the May 2012 EPA Traceability Protocol, Document EPA-600/R-12/531, using procedure G1. Do Not Use This Cylinder Below 100 psig (0.7 Megapascal). Certified Concentration(s) Component Concentration Uncertainty Analytical Principle Assayed On Nitric Oxide 99.1 PPM ±0.8 PPM Chemiluminescence 10/16/2023, 10/30/2023 Total Oxides of Nitrogen 99.5 PPM Nitrogen Analytical Measurement Data Available Online. Reference Standard(s) Serial Number Lot Expiration Type Balance Component Concentration Uncertainty(%)NIST Reference ALM066143 ALM066143.20230117 08/28/2031 GMIS N2 NO 280 PPM 0.563 SRM 1687b Analytical Instrumentation SMART-CERT Component Principle Make MPC Date NO Chemiluminescence Thermo 10/02/2023 Serial 1152610017 This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable through National Institute of Standards and Technology (NIST) to the International System of Units (SI). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximate the 95% confidence level of the measurement, unless otherwise noted. This calibration certificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas Services. If not included, the uncertainty of calibrations are available upon request and were taken into account when determining pass or fail. Aaron Varelas Analytical Chemist Assay Laboratory: Red Ball TGS Version 02-J, Revised on 2018-09-17 Model 42i-HL 34 of 56 Location: Project No.: Analyzer Make THERMO Pre-Test Date 8/5/24 Time 12:07 Analyzer Model 42iQ Pre-Test Concentration, ppm 48.49 Serial Number 12327730521 Pre-Test Efficiency, %97 Cylinder ID Number CC770726 Post-Test Date Time Cylinder Exp. Date 4/23/27 Post-Test Concentration, ppm Cylinder Concentration, ppm 49.9 Post-Test Efficiency, %- *Required Efficiency is ≥ 90 %. Nucor Steel - Plymouth, UT 2024-3136 NO2 Converter Check - Outlet 35 of 56 Balance Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-551-8150 Accreditation #62754 PGVP Vendor ID # G12024 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number:CC770726 Certification Date:04/23/2024 Product ID Number:124731 Expiration Date:04/23/2027 Cylinder Pressure:1800 PSIG MFG Facility: - Shreveport - LA COA #CC770726.20240212-0 Lot Number:CC770726.20240212 Customer PO. NO.:Tracking Number:108893184 Customer:Previous Certification Dates: This calibration standard has been certified per the May 2012 EPA Traceability Protocol, Document EPA-600/R-12/531, using procedure G2. Do Not Use This Cylinder Below 100 psig (0.7 Megapascal). Certified Concentration(s) Component Concentration Uncertainty Analytical Principle Assayed On Nitrogen Dioxide 49.9 PPM ±0.5 PPM FTIR 02/16/2024, 04/16/2024, 04/23/2024 Air Analytical Measurement Data Available Online. Reference Standard(s) Serial Number Lot Expiration Type Balance Component Concentration Uncertainty(%)NIST Reference EB0055436 EB0055436.20201021 07/14/2025 GMIS AIR NO2 29.22 PPM 1.026 C2190301.02 EB0080844 EB0080844.20201020 05/04/2026 GMIS AIR NO2 94.5 PPM 1.029 C2190301.02 EB0097551 EB0097551.20201021 05/05/2025 GMIS AIR NO2 63.3 PPM 1.074 C2190301.02 Analytical Instrumentation SMART-CERT Component Principle Make MPC Date NO2 FTIR MKS 01/19/2024 NO2 FTIR MKS 04/15/2024 Serial 017146467 112428254 This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable through National Institute of Standards and Technology (NIST) to the International System of Units (SI). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximate the 95% confidence level of the measurement, unless otherwise noted. This calibration certificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas Services. If not included, the uncertainty of calibrations are available upon request and were taken into account when determining pass or fail. Aaron Varelas Analytical Chemist Assay Laboratory: Red Ball TGS Version 02-J, Revised on 2018-09-17 Model MKS 2031DJG2EKVS13T MKS 2031GPPP1A5ZK1XX 36 of 56 Location: Source: Project No.: Date EPA O2CAI 600 W12008-MZ 24.06 Cylinder Number ID Zero NA Mid RR03646 High CC727648 Cylinder Certified Values Zero 0.00 Mid 10.87 High 24.06 Instrument Response (% or ppm) Zero 0.00 Mid 10.74 High 24.05 Calibration Gas Selection (% of Span) Mid 45.2 High 100.0 Calibration Error Performance (% of Span) Zero 0.0 Mid -0.5 High 0.0 Linearity (% of Range) -0.5 (%)lpm (%)(%)(%)(%)(%)(%)(%)( ± 2 %) 10L/10L 80.0 5.0 19.2 19.2 19.23 19.19 19.25 19.22 0.02 0.1% 10L/10L 50.0 5.0 12.0 12.0 11.95 11.97 12.06 11.99 -0.01 -0.1% 10L/1L 20.0 4.0 4.8 4.8 4.78 4.77 4.78 4.78 -0.02 -0.5% 10L/1L 10.0 4.0 2.4 2.4 2.38 2.40 2.38 2.39 -0.01 -0.6% (%)( ± 2 %)( ± 2 %)( ± 2 %) 19.22 0.0%-0.2%0.1% 11.99 -0.4%-0.2%0.6% 4.78 0.1%-0.1%0.1% 2.39 -0.3%0.6%-0.3% Mid-Level Supply Gas Calibration Direct to Analyzer Calibration Injection 1 Injection 2 Injection 3 Average Gas Analyzer Analyzer Analyzer Analyzer Concentration Concentration Concentration Concentration Concentration(%)(%)(%)(%)(%)(%)( ± 2 %) 10.87 11.00 11.01 11.04 11.02 0.15 1.3% Average Analyzer Concentration Injection 1 Error Injection 2 Error Injection 3 Error Difference Average Error *Not all AST Environics Units have 2-10L Mass Flow Controllers. For these units the 90% @ 7lpm and 80% @ 7lpm injections will not be conducted. Cylinder Gas ID (Mid-Level):RR03646 Cylinder Gas Concentration (Mid-Level), %:10.87 Target Mass Flow Contollers Target Dilution Target Flow Rate Target Concentration Actual Concentration Injection 1 Analyzer Concentration Injection 2 Analyzer Concentration Injection 3 Analyzer Concentration Average Analyzer Concentration Difference Average Error Component/Balance Gas:O2/N2 Cylinder Gas ID (Dilution):CC727648 Cylinder Gas Concentration (Dilution), %:24.06 Analyzer Model:600 Analyzer SN:W12008-MZ Environics ID:8412 Analyzer Make:CAI Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 8/5/24 Parameter Make Model S/N Span Method Criteria EPA Method 205 Field Calibration of Dilution System 37 of 56 Issuing Department Dilution System Make: Dilution System Model: Dilution System S/N: Calibration Equipment Make: Calibration Equipment Model: Calibration Equipment S/N: Flow Cell S/N: Flow Cell S/N: Calibration Gas: Barometric Pressure, mmHg: Ambient Temperature, °F: Mass Flow Controller ID Size, ccm: Make: Model: S/N: Set Flow True Flow Difference Set Flow True Flow Difference Set Flow True Flow Difference cc/min cc/min cc/min cc/min cc/min cc/min 5%500 493 1.4%500 491 1.8%50 49 2.2% 10%1,000 1,008 0.8%1,000 1,013 1.3%100 99 0.9% 20%2,000 2,039 2.0%2,000 2,041 2.1%200 200 0.0% 30%3,000 3,061 2.0%3,000 3,074 2.5%300 301 0.3% 40%4,000 4,079 2.0%4,000 4,105 2.6%400 402 0.6% 50%5,000 5,093 1.9%5,000 5,127 2.5%500 503 0.6% 60%6,000 6,110 1.8%6,000 6,143 2.4%600 605 0.8% 70%7,000 7,134 1.9%7,000 7,168 2.4%700 707 1.0% 80%8,000 8,154 1.9%8,000 8,175 2.2%800 809 1.2% 90%9,000 9,183 2.0%9,000 9,190 2.1%900 914 1.5% 100%10,000 10,202 2.0%10,000 10,202 2.0%1,000 1,019 1.9% Date: Environics FFC 202 10,000 # 2 # 3 Environics 1,000 Environics FFC 202 FFC 202 #1 10,000 Environics 25.641 64.4 4040 272120 Nitrogen Calibration Performed By:JFT 2/21/2024 626687006 Note: The mass flow controller's calibration values are used by the dilution system's operating software to improve accuracy. These calibrations are not necessarily indicative of the systems overall performance. Performance is verified by conducting a Method 205 prior to each field use. 626687003 626683003 8412-02-21-2024 Alicat Scientific M-10SLPD/5MM-D/5M, M-1SLPM-D/5M 272121 272121 620.009 22.0 12/16/22 1 of 1 Mass Flow Controller Calibration Tech Services Document ID Revision Effective Date Page 38 of 56 Balance Red Ball Technical Gas Service 555 Craig Kennedy Way Shreveport, LA 71107 800-551-8150 Accreditation #62754 PGVP Vendor ID # G12024 EPA PROTOCOL GAS CERTIFICATE OF ANALYSIS Cylinder Number:RR03646 Certification Date:02/26/2024 Product ID Number:125371 Expiration Date:02/24/2032 Cylinder Pressure:1900 PSIG MFG Facility: - Shreveport - LA COA #RR03646.20240215-0 Lot Number:RR03646.20240215 Customer PO. NO.:Tracking Number:107553562 Customer:Previous Certification Dates: This calibration standard has been certified per the May 2012 EPA Traceability Protocol, Document EPA-600/R-12/531, using procedure G1. Do Not Use This Cylinder Below 100 psig (0.7 Megapascal). Certified Concentration(s) Component Concentration Uncertainty Analytical Principle Assayed On Carbon Dioxide 10.92 %±0.08 %FTIR 02/26/2024 Oxygen 10.87 %±0.04 %MPA 02/20/2024 Nitrogen Analytical Measurement Data Available Online. Reference Standard(s) Serial Number Lot Expiration Type Balance Component Concentration Uncertainty(%)NIST Reference CC520205 CC520205.20230108 07/09/2031 GMIS N2 O2 20.01 %0.112 SRM 2659a EB0003570 EB0003570.20201022 05/19/2029 GMIS N2 CO2 15.01 %0.214 C1847810.03 EB0016852 EB0016852.20210412 01/03/2032 GMIS N2 CO2 11.92 %0.235 C2190301.03 Analytical Instrumentation SMART-CERT Component Principle Make MPC Date O2 MPA Thermo 02/19/2024 CO2 FTIR MKS 01/31/2024 Serial 1162980025 017146467 This is to certify the gases referenced have been calibrated/tested, and verified to meet the defined specifications. This calibration/test was performed using Gases or Scales that are traceable through National Institute of Standards and Technology (NIST) to the International System of Units (SI). The basis of compliance stated is a comparison of the measurement parameters to the specified or required calibration/testing process. The expanded uncertainties use a coverage factor of k=2 to approximate the 95% confidence level of the measurement, unless otherwise noted. This calibration certificate applies only to the item described and shall not be reproduced other than in full, without written approval from Red Ball Technical Gas Services. If not included, the uncertainty of calibrations are available upon request and were taken into account when determining pass or fail. Timothy Davis Analytical Chemist Assay Laboratory: Red Ball TGS Version 02-J, Revised on 2018-09-17 Model 410i MKS 2031DJG2EKVS13T 39 of 56 QA Data Location Source Project No. Parameter(s) Date Pitot ID Evidence of damage? Evidence of mis-alignment? Calibration or Repair required? 8/5/24 P710-2 no no no Date Probe or Thermocouple ID Reference Temp. (°F) Indicated Temp. (°F)Difference Criteria 8/5/24 P710-2 100.0 100.0 0.0% Date 08/05/24 Balance ID:SCALE 180 Certified Weight ID:SLC-SKG-2 Certified Weight (g):1000.0 Measured Weight (g):999.6 Weight Difference (g):0.4 -------- Date Barometric Pressure Evidence of damage?Reading Verified Calibration or Repair required? 8/5/24 Weather Station NA NA NA 8/5/24 M5-26 Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 VFR ± 1.5 % (absolute) Field Balance Check Pass Weather Station Location LOGAN-CACHE AIRPORT Date Meter Box ID Positive Pressure Leak Check 40 of 56 Document ID 620.004 Revision 24.0 Effective Date 1/31/24 Issuing Department Page 1 of 1 Console ID: Meter S/N: Critical Orifice S/N: (PbI) (PbF) (Pb) (Y) SH-73 SH-73 SH-63 SH-63 SH-55 SH-55 (K') 0.7864 0.7864 0.6007 0.601 0.4524 0.452 (VP)12.0 12.0 14.0 14.0 16.5 16.5 Initial DGM Volume, ft3 (VmI)437.400 452.900 468.400 484.400 502.000 516.900 Final DGM Volume, ft3 (VmF)452.664 468.153 484.020 500.089 516.683 531.593 Total DGM Volume, ft3 (Vm) 15.264 15.253 15.620 15.689 14.683 14.693 Ambient Temperature, °F (Ta) 70 71 71 72 74 74 Initial DGM Temperature, °F (TmI)70 71 71 72 74 74 Final DGM Temperature, °F (TmF)71 71 72 72 74 75 Average DGM Temperature, °F ( Tm) 71 71 72 72 74 75 Elapsed Time (Θ)15.00 15.00 20.00 20.00 25.00 25.00 Meter Orifice Pressure, in. WC (ΔH)2.80 2.80 1.70 1.70 0.88 0.88 Standard Meter volume, ft3 (Vmstd) 13.0993 13.0776 13.3377 13.3840 12.4496 12.4464 Standard Critical Orifice Volume, ft3 (Vcr) 13.1147 13.1023 13.3445 13.3319 12.5271 12.5271 Meter Correction Factor (Y) 1.001 1.002 1.001 0.996 1.006 1.006 Tolerance -- 0.001 0.000 0.002 0.006 0.004 0.004 Orifice Calibration Value (ΔH @)1.768 1.770 1.834 1.836 1.672 1.670 Tolerance -- 0.010 0.012 0.076 0.078 0.087 0.088 Orifice Cal Check -- Meter Correction Factor (Y) Orifice Calibration Value (ΔH @) Accuracy Absolute Difference oF oR oF oR %oF 0 460 0 460 0.0 0 68 528 66 526 0.4 2 100 560 98 558 0.4 2 223 683 223 683 0.0 0 248 708 248 708 0.0 0 273 733 273 733 0.0 0 300 760 300 760 0.0 0 400 860 398 858 0.2 2 500 960 497 957 0.3 3 600 1,060 598 1,058 0.2 2 700 1,160 700 1,160 0.0 0 800 1,260 799 1,259 0.1 1 900 1,360 899 1,359 0.1 1 1,000 1,460 999 1,459 0.1 1 1,100 1,560 1,100 1,560 0.0 0 1,200 1,660 1,199 1,659 0.1 1 Calibration Date: Yes 0.48 0.80 0.81 DGM Calibration-Orifices Tech Services 25.58 25.60 25.59 K' Factor, ft3·R1/2 / in. WC·min Piecal 520B Vacuum Pressure, in. Hg Initial Barometric Pressure, in. Hg Final Barometric Pressure, in. Hg Average Barometric Pressure, in. Hg Critifcal Orifice ID Calibration Detail M5-26 16621844 SH 40-73 Positive Pressure Leak Check Equipment Detail - Dry Gas Meter 1.002 1.758 Personnel Reference Calibrator Make: Reference Calibrator Model: Reference Calibrator S/N: Calibration Detail Equipment Detail - Thermocouple Sensor Reference Temp.Display Temp. Practical Instrument Electronics 887216 Charles R HortonReviewed By: Xander G KrahnCalibration By: 5/31/2024 41 of 56 Location: Source: Project No.: Date: Time O2 CO2 NOx (%) (%) (ppm) A-1 13:09 3.9 9.6 24.1 2 13:12 3.8 9.6 23.3 3 13:15 3.6 9.7 23.8 3.8 9.6 23.7 Single Point Single Point Single Point Nucor Steel - Plymouth, UT Reheat Furnace #2 2024-3136 8/5/2024 Average Criteria Met Traverse Point 42 of 56 Appendix D 43 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID BAR_MILL_ENTER_TIME BAR_CHARGE_TIME BAR_DISCHARGE_TIME BAR_ROLLING_DURATION BAR_NUMBER BAR_STATUS BAR_BILLET_ID BAR_BILLET_WEIGHT BAR_THEO_WEIGHT 102379773 10143776 RB#460GRSLITM2 8/5/2024 1:21 PM 83 18 1 120406325387 5028 102379774 10143776 RB#460GRSLITM2 8/5/2024 1:22 PM 82 19 1 120406325386 5028 102379775 10143776 RB#460GRSLITM2 8/5/2024 1:24 PM 83 20 1 120406325385 5028 102379776 10143776 RB#460GRSLITM2 8/5/2024 1:25 PM 83 21 1 120406325384 5028 102379777 10143776 RB#460GRSLITM2 8/5/2024 1:27 PM 83 22 1 120406325383 5028 102379778 10143776 RB#460GRSLITM2 8/5/2024 1:28 PM 83 23 1 120406325382 5028 102379779 10143776 RB#460GRSLITM2 8/5/2024 1:30 PM 84 24 1 120406325381 5028 102379780 10143777 RB#460GRSLITM2 8/5/2024 1:31 PM 84 1 1 120406325380 5028 102379781 10143777 RB#460GRSLITM2 8/5/2024 1:33 PM 83 2 1 120406325379 5028 102379782 10143777 RB#460GRSLITM2 8/5/2024 1:34 PM 84 3 1 120406325378 5028 102379783 10143777 RB#460GRSLITM2 8/5/2024 1:36 PM 83 4 1 120406325377 5028 102379784 10143777 RB#460GRSLITM2 8/5/2024 1:37 PM 83 5 1 120406325376 5028 102379785 10143777 RB#460GRSLITM2 8/5/2024 1:39 PM 84 6 1 120406325375 5028 102379786 10143777 RB#460GRSLITM2 8/5/2024 1:40 PM 83 7 1 120406325374 5028 102379787 10143777 RB#460GRSLITM2 8/5/2024 1:42 PM 83 8 1 120406325373 5028 102379788 10143777 RB#460GRSLITM2 8/5/2024 1:43 PM 83 9 1 120406325372 5028 102379789 10143777 RB#460GRSLITM2 8/5/2024 1:45 PM 83 10 1 120406325371 5028 LBS 102379790 10143777 RB#460GRSLITM2 8/5/2024 1:46 PM 83 11 1 120406325370 5028 196,092 102379791 10143777 RB#460GRSLITM2 8/5/2024 1:48 PM 83 12 1 120406325369 5028 Tons 102379792 10143777 RB#460GRSLITM2 8/5/2024 1:49 PM 84 13 1 120406325368 5028 98.046 102379793 10143777 RB#460GRSLITM2 8/5/2024 1:59 PM 83 14 1 120406325367 5028 102379794 10143777 RB#460GRSLITM2 8/5/2024 2:00 PM 83 15 1 120406325366 5028 102379795 10143777 RB#460GRSLITM2 8/5/2024 2:02 PM 83 16 1 120406325365 5028 102379796 10143777 RB#460GRSLITM2 8/5/2024 2:04 PM 83 17 1 120406325364 5028 102379797 10143777 RB#460GRSLITM2 8/5/2024 2:06 PM 83 18 1 120406325363 5028 102379798 10143777 RB#460GRSLITM2 8/5/2024 2:08 PM 83 19 1 120406325362 5028 102379799 10143777 RB#460GRSLITM2 8/5/2024 2:09 PM 82 20 1 120406325361 5028 102379800 10143777 RB#460GRSLITM2 8/5/2024 2:11 PM 83 21 1 120406325360 5028 102379801 10143777 RB#460GRSLITM2 8/5/2024 2:12 PM 83 22 1 120406325359 5028 102379802 10143777 RB#460GRSLITM2 8/5/2024 2:14 PM 83 23 1 120406325358 5028 102379803 10143777 RB#460GRSLITM2 8/5/2024 2:15 PM 83 24 1 120406325357 5028 102379804 10143778 RB#460GRSLITM2 8/5/2024 2:17 PM 84 1 1 120406325356 5028 102379805 10143778 RB#460GRSLITM2 8/5/2024 2:18 PM 83 2 1 120406325355 5028 102379806 10143778 RB#460GRSLITM2 8/5/2024 2:20 PM 84 3 1 120406325354 5028 102379807 10143778 RB#460GRSLITM2 8/5/2024 2:21 PM 83 4 1 120406325353 5028 102379808 10143778 RB#460GRSLITM2 8/5/2024 2:23 PM 83 5 1 120406325352 5028 102379809 10143778 RB#460GRSLITM2 8/5/2024 2:24 PM 83 6 1 120406325351 5028 102379810 10143778 RB#460GRSLITM2 8/5/2024 2:26 PM 84 7 1 120406325350 5028 102379811 10143778 RB#460GRSLITM2 8/5/2024 2:27 PM 82 8 1 120406325349 5028 102379812 10143778 RB#460GRSLITM2 8/5/2024 2:29 PM 83 9 1 120406325348 5028 102379813 10143778 RB#460GRSLITM2 8/5/2024 2:30 PM 83 10 1 120406325347 5028 102379814 10143778 RB#460GRSLITM2 8/5/2024 2:32 PM 83 11 1 120406325346 5028 102379815 10143778 RB#460GRSLITM2 8/5/2024 2:33 PM 83 12 1 120406325345 5028 102379816 10143778 RB#460GRSLITM2 8/5/2024 2:35 PM 83 13 1 120406325344 5028 102379817 10143778 RB#460GRSLITM2 8/5/2024 2:36 PM 83 14 1 120406325343 5028 102379818 10143778 RB#460GRSLITM2 8/5/2024 2:38 PM 83 15 1 120406325342 5028 102379819 10143778 RB#460GRSLITM2 8/5/2024 2:39 PM 83 16 1 120406325341 5028 102379820 10143778 RB#460GRSLITM2 8/5/2024 2:41 PM 84 17 1 120406325340 5028 102379821 10143778 RB#460GRSLITM2 8/5/2024 2:42 PM 83 18 1 120406325339 5028 102379822 10143778 RB#460GRSLITM2 8/5/2024 2:44 PM 83 19 1 120406325338 5028 102379823 10143778 RB#460GRSLITM2 8/5/2024 2:45 PM 83 20 1 120406325337 5028 102379824 10143778 RB#460GRSLITM2 8/5/2024 2:47 PM 83 21 1 120406325336 5028 102379825 10143778 RB#460GRSLITM2 8/5/2024 2:48 PM 82 22 1 120406325335 5028 102379826 10143778 RB#460GRSLITM2 8/5/2024 2:50 PM 82 23 1 120406325334 5028 PAUSE WAS IN THIS TIME 44 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID BAR_MILL_ENTER_TIME BAR_CHARGE_TIME BAR_DISCHARGE_TIME BAR_ROLLING_DURATION BAR_NUMBER BAR_STATUS BAR_BILLET_ID BAR_BILLET_WEIGHT BAR_THEO_WEIGHT 102379827 10143778 RB#460GRSLITM2 8/5/2024 2:51 PM 83 24 1 120406325333 5028 102379828 10143779 RB#460GRSLITM2 8/5/2024 2:52 PM 83 1 1 120406325332 5028 102379829 10143779 RB#460GRSLITM2 8/5/2024 2:54 PM 83 2 1 120406325331 5028 102379830 10143779 RB#460GRSLITM2 8/5/2024 2:55 PM 83 3 1 120406325330 5028 102379831 10143779 RB#460GRSLITM2 8/5/2024 2:57 PM 83 4 1 120406325329 5028 102379832 10143779 RB#460GRSLITM2 8/5/2024 2:58 PM 84 5 1 120406325328 5028 102379833 10143779 RB#460GRSLITM2 8/5/2024 3:00 PM 84 6 1 120406325327 5028 102379834 10143779 RB#460GRSLITM2 8/5/2024 3:01 PM 84 7 1 120406325326 5028 102379835 10143779 RB#460GRSLITM2 8/5/2024 3:03 PM 82 8 1 120406325325 5028 102379836 10143779 RB#460GRSLITM2 8/5/2024 3:04 PM 83 9 1 120406325324 5028 102379837 10143779 RB#460GRSLITM2 8/5/2024 3:06 PM 82 10 1 120406325323 5028 102379838 10143779 RB#460GRSLITM2 8/5/2024 3:07 PM 83 11 1 120406325322 5028 102379839 10143779 RB#460GRSLITM2 8/5/2024 3:09 PM 83 12 1 120406325321 5028 102379840 10143779 RB#460GRSLITM2 8/5/2024 3:10 PM 83 13 1 120406325320 5028 102379841 10143779 RB#460GRSLITM2 8/5/2024 3:12 PM 83 14 1 120406325319 5028 102379842 10143779 RB#460GRSLITM2 8/5/2024 3:13 PM 83 15 1 120406325318 5028 102379843 10143779 RB#460GRSLITM2 8/5/2024 3:15 PM 82 16 1 120406325317 5028 102379844 10143779 RB#460GRSLITM2 8/5/2024 3:16 PM 83 17 1 120406325316 5028 102379845 10143779 RB#460GRSLITM2 8/5/2024 3:18 PM 83 18 1 120406325315 5028 102379846 10143779 RB#460GRSLITM2 8/5/2024 3:19 PM 83 19 1 120406325314 5028 102379847 10143779 RB#460GRSLITM2 8/5/2024 3:21 PM 83 20 1 120406325313 5028 102379848 10143779 RB#460GRSLITM2 8/5/2024 3:22 PM 83 21 1 120406325312 5028 102379849 10143779 RB#460GRSLITM2 8/5/2024 3:24 PM 82 22 1 120406325311 5028 102379850 10143779 RB#460GRSLITM2 8/5/2024 3:25 PM 83 23 1 120406325310 5028 102379851 10143779 RB#460GRSLITM2 8/5/2024 3:27 PM 82 24 1 120406325309 5028 102379852 10143780 RB#460GRSLITM2 8/5/2024 3:28 PM 83 1 1 120406325308 5028 LBS 102379853 10143780 RB#460GRSLITM2 8/5/2024 3:30 PM 83 2 1 120406325307 5028 181,008 102379854 10143780 RB#460GRSLITM2 8/5/2024 3:32 PM 83 3 1 120406325306 5028 Tons 102379855 10143780 RB#460GRSLITM2 8/5/2024 3:35 PM 82 4 1 120406325305 5028 90.504 102379856 10143780 RB#460GRSLITM2 8/5/2024 3:46 PM 83 5 1 120406325304 5028 102379857 10143780 RB#460GRSLITM2 8/5/2024 3:55 PM 82 6 1 120406325303 5028 102379858 10143780 RB#460GRSLITM2 8/5/2024 4:02 PM 82 7 1 120406325302 5028 102379859 10143780 RB#460GRSLITM2 8/5/2024 4:04 PM 82 8 1 120406325301 5028 102379860 10143780 RB#460GRSLITM2 8/5/2024 4:06 PM 83 9 1 120406325300 5028 102379861 10143780 RB#460GRSLITM2 8/5/2024 4:07 PM 82 10 1 120406325299 5028 102379862 10143780 RB#460GRSLITM2 8/5/2024 4:09 PM 82 11 1 120406325298 5028 102379863 10143780 RB#460GRSLITM2 8/5/2024 4:10 PM 82 12 1 120406325297 5028 102379864 10143780 RB#460GRSLITM2 8/5/2024 4:12 PM 83 13 1 120406325296 5028 102379865 10143780 RB#460GRSLITM2 8/5/2024 4:13 PM 83 14 1 120406325295 5028 102379866 10143780 RB#460GRSLITM2 8/5/2024 4:15 PM 83 15 1 120406325294 5028 102379867 10143780 RB#460GRSLITM2 8/5/2024 4:18 PM 83 16 1 120406325293 5028 102379868 10143780 RB#460GRSLITM2 8/5/2024 4:20 PM 83 17 1 120406325292 5028 102379869 10143780 RB#460GRSLITM2 8/5/2024 4:21 PM 82 18 1 120406325291 5028 102379870 10143780 RB#460GRSLITM2 8/5/2024 4:23 PM 83 19 1 120406325290 5028 102379871 10143780 RB#460GRSLITM2 8/5/2024 4:24 PM 83 20 1 120406325289 5028 102379872 10143780 RB#460GRSLITM2 8/5/2024 4:26 PM 82 21 1 120406325288 5028 102379873 10143780 RB#460GRSLITM2 8/5/2024 4:27 PM 82 22 1 120406325287 5028 102379874 10143780 RB#460GRSLITM2 8/5/2024 4:28 PM 83 23 1 120406325286 5028 102379875 10143780 RB#460GRSLITM2 8/5/2024 4:30 PM 83 24 1 120406325285 5028 102379876 10143781 RB#460GRSLITM2 8/5/2024 4:31 PM 83 1 1 120406325284 5028 102379877 10143781 RB#460GRSLITM2 8/5/2024 4:33 PM 84 2 1 120406325283 5028 102379878 10143781 RB#460GRSLITM2 8/5/2024 4:34 PM 84 3 1 120406325282 5028 102379879 10143781 RB#460GRSLITM2 8/5/2024 4:36 PM 83 4 1 120406325281 5028 102379880 10143781 RB#460GRSLITM2 8/5/2024 4:37 PM 83 5 1 120406325280 5028 PAUSE WAS IN THIS TIME 45 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID BAR_MILL_ENTER_TIME BAR_CHARGE_TIME BAR_DISCHARGE_TIME BAR_ROLLING_DURATION BAR_NUMBER BAR_STATUS BAR_BILLET_ID BAR_BILLET_WEIGHT BAR_THEO_WEIGHT 102379881 10143781 RB#460GRSLITM2 8/5/2024 4:39 PM 82 6 1 120406325279 5028 102379882 10143781 RB#460GRSLITM2 8/5/2024 4:40 PM 83 7 1 120406325278 5028 102379883 10143781 RB#460GRSLITM2 8/5/2024 4:42 PM 83 8 1 120406325277 5028 102379884 10143781 RB#460GRSLITM2 8/5/2024 4:43 PM 83 9 1 120406325276 5028 102379885 10143781 RB#460GRSLITM2 8/5/2024 4:45 PM 82 10 1 120406325275 5028 102379886 10143781 RB#460GRSLITM2 8/5/2024 4:46 PM 83 11 1 120406325274 5028 102379887 10143781 RB#460GRSLITM2 8/5/2024 4:48 PM 83 12 1 120406325273 5028 102379888 10143781 RB#460GRSLITM2 8/5/2024 4:49 PM 83 13 1 120406325272 5028 102379889 10143781 RB#460GRSLITM2 8/5/2024 4:51 PM 83 14 1 120406325271 5028 102379890 10143781 RB#460GRSLITM2 8/5/2024 4:52 PM 83 15 1 120406325270 5028 102379891 10143781 RB#460GRSLITM2 8/5/2024 4:54 PM 82 16 1 120406325269 5028 102379892 10143781 RB#460GRSLITM2 8/5/2024 4:55 PM 83 17 1 120406325268 5028 102379893 10143781 RB#460GRSLITM2 8/5/2024 4:57 PM 82 18 1 120406325267 5028 102379894 10143781 RB#460GRSLITM2 8/5/2024 4:58 PM 83 19 1 120406325266 5028 102379895 10143781 RB#460GRSLITM2 8/5/2024 5:00 PM 82 20 1 120406325265 5028 102379896 10143781 RB#460GRSLITM2 8/5/2024 5:01 PM 83 21 1 120406325264 5028 102379897 10143781 RB#460GRSLITM2 8/5/2024 5:03 PM 82 22 1 120406325263 5028 102379898 10143781 RB#460GRSLITM2 8/5/2024 5:04 PM 83 23 1 120406325262 5028 102379899 10143782 RB#460GRSLITM2 8/5/2024 5:06 PM 83 1 1 120406325261 5028 102379900 10143782 RB#460GRSLITM2 8/5/2024 5:07 PM 82 2 1 120406325260 5028 102379901 10143782 RB#460GRSLITM2 8/5/2024 5:09 PM 82 3 1 120406325259 5028 102379902 10143782 RB#460GRSLITM2 8/5/2024 5:10 PM 83 4 1 120406325258 5028 102379903 10143782 RB#460GRSLITM2 8/5/2024 5:13 PM 82 5 1 120406325257 5028 102379904 10143782 RB#460GRSLITM2 8/5/2024 5:15 PM 83 6 1 120406325256 5028 102379905 10143782 RB#460GRSLITM2 8/5/2024 5:16 PM 82 7 1 120406325255 5028 102379906 10143782 RB#460GRSLITM2 8/5/2024 5:18 PM 82 8 1 120406325254 5028 102379907 10143782 RB#460GRSLITM2 8/5/2024 5:19 PM 82 9 1 120406325253 5028 102379908 10143782 RB#460GRSLITM2 8/5/2024 5:20 PM 82 10 1 120406325252 5028 102379909 10143782 RB#460GRSLITM2 8/5/2024 5:22 PM 83 11 1 120406325251 5028 102379910 10143782 RB#460GRSLITM2 8/5/2024 5:23 PM 82 12 1 120406325250 5028 102379911 10143782 RB#460GRSLITM2 8/5/2024 5:25 PM 83 13 1 120406325249 5028 102379912 10143782 RB#460GRSLITM2 8/5/2024 5:26 PM 82 14 1 120406325248 5028 102379913 10143782 RB#460GRSLITM2 8/5/2024 5:28 PM 82 15 1 120406325247 5028 102379914 10143782 RB#460GRSLITM2 8/5/2024 5:29 PM 82 16 1 120406325246 5028 102379915 10143782 RB#460GRSLITM2 8/5/2024 5:31 PM 83 17 1 120406325245 5028 102379916 10143782 RB#460GRSLITM2 8/5/2024 5:32 PM 83 18 1 120406325244 5028 102379917 10143782 RB#460GRSLITM2 8/5/2024 5:34 PM 83 19 1 120406325243 5028 102379918 10143782 RB#460GRSLITM2 8/5/2024 5:35 PM 82 20 1 120406325242 5028 102379919 10143782 RB#460GRSLITM2 8/5/2024 5:37 PM 83 21 1 120406325241 5028 102379920 10143782 RB#460GRSLITM2 8/5/2024 5:40 PM 83 22 1 120406325240 5028 102379921 10143782 RB#460GRSLITM2 8/5/2024 5:41 PM 83 23 1 120406325239 5028 102379922 10143782 RB#460GRSLITM2 8/5/2024 5:43 PM 82 24 1 120406325238 5028 102379923 10143783 RB#460GRSLITM2 8/5/2024 5:46 PM 82 1 1 120406325237 5028 102379924 10143783 RB#460GRSLITM2 8/5/2024 5:47 PM 81 2 1 120406325236 5028 102379925 10143783 RB#460GRSLITM2 8/5/2024 5:49 PM 82 3 1 120406325235 5028 102379926 10143783 RB#460GRSLITM2 8/5/2024 5:50 PM 82 4 1 120406325234 5028 102379927 10143783 RB#460GRSLITM2 8/5/2024 5:51 PM 83 5 1 120406325233 5028 LBS 102379928 10143783 RB#460GRSLITM2 8/5/2024 5:53 PM 83 6 1 120406325232 5028 191,064 102379929 10143783 RB#460GRSLITM2 8/5/2024 5:54 PM 83 7 1 120406325231 5028 Tons 102379930 10143783 RB#460GRSLITM2 8/5/2024 5:56 PM 83 8 1 120406325230 5028 95.532 102379931 10143783 RB#460GRSLITM2 8/5/2024 5:57 PM 83 9 1 120406325229 5028 102379932 10143783 RB#460GRSLITM2 8/5/2024 5:59 PM 83 10 1 120406325228 5028 46 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379773 10143776 RB#460GRSLITM2 102379774 10143776 RB#460GRSLITM2 102379775 10143776 RB#460GRSLITM2 102379776 10143776 RB#460GRSLITM2 102379777 10143776 RB#460GRSLITM2 102379778 10143776 RB#460GRSLITM2 102379779 10143776 RB#460GRSLITM2 102379780 10143777 RB#460GRSLITM2 102379781 10143777 RB#460GRSLITM2 102379782 10143777 RB#460GRSLITM2 102379783 10143777 RB#460GRSLITM2 102379784 10143777 RB#460GRSLITM2 102379785 10143777 RB#460GRSLITM2 102379786 10143777 RB#460GRSLITM2 102379787 10143777 RB#460GRSLITM2 102379788 10143777 RB#460GRSLITM2 102379789 10143777 RB#460GRSLITM2 102379790 10143777 RB#460GRSLITM2 102379791 10143777 RB#460GRSLITM2 102379792 10143777 RB#460GRSLITM2 102379793 10143777 RB#460GRSLITM2 102379794 10143777 RB#460GRSLITM2 102379795 10143777 RB#460GRSLITM2 102379796 10143777 RB#460GRSLITM2 102379797 10143777 RB#460GRSLITM2 102379798 10143777 RB#460GRSLITM2 102379799 10143777 RB#460GRSLITM2 102379800 10143777 RB#460GRSLITM2 102379801 10143777 RB#460GRSLITM2 102379802 10143777 RB#460GRSLITM2 102379803 10143777 RB#460GRSLITM2 102379804 10143778 RB#460GRSLITM2 102379805 10143778 RB#460GRSLITM2 102379806 10143778 RB#460GRSLITM2 102379807 10143778 RB#460GRSLITM2 102379808 10143778 RB#460GRSLITM2 102379809 10143778 RB#460GRSLITM2 102379810 10143778 RB#460GRSLITM2 102379811 10143778 RB#460GRSLITM2 102379812 10143778 RB#460GRSLITM2 102379813 10143778 RB#460GRSLITM2 102379814 10143778 RB#460GRSLITM2 102379815 10143778 RB#460GRSLITM2 102379816 10143778 RB#460GRSLITM2 102379817 10143778 RB#460GRSLITM2 102379818 10143778 RB#460GRSLITM2 102379819 10143778 RB#460GRSLITM2 102379820 10143778 RB#460GRSLITM2 102379821 10143778 RB#460GRSLITM2 102379822 10143778 RB#460GRSLITM2 102379823 10143778 RB#460GRSLITM2 102379824 10143778 RB#460GRSLITM2 102379825 10143778 RB#460GRSLITM2 102379826 10143778 RB#460GRSLITM2 BAR_WEIGHT_FACTOR BAR_CUT_FACTOR BAR_CHARGE_TEMP BAR_DISCHARGE_TEMP BAR_INTER_TEMP BAR_FINISH_TEMP BAR_FINISH_SPEED BAR_STAND_AMP BAR_STAND_SPEED 0 1 505 1884 1828 0 1 499 1846 1814 0 1 532 2064 1823 0 1 540 1877 1834 0 1 523 1949 1818 0 1 520 1944 1837 0 1 500 1911 1805 0 1 472 1744 1472 0 1 455 1911 1827 0 1 411 1895 1825 0 1 376 1985 1841 0 1 429 2041 1828 0 1 488 1967 1830 0 1 395 2026 1828 0 1 476 1987 1827 0 1 345 2062 1818 0 1 472 1803 1825 0 1 424 1931 1818 0 1 464 1857 1819 0 1 450 2025 556 0 1 461 1828 1846 0 1 465 2048 1834 0 1 443 2055 505 0 1 441 1888 1863 0 1 407 1684 1843 0 1 429 2001 1848 0 1 443 1983 1562 0 1 407 1897 1834 0 1 422 2003 1830 0 1 373 2030 1830 0 1 446 1985 1821 0 1 507 1933 1825 0 1 511 2010 1825 0 1 493 2039 1832 0 1 506 1987 1391 0 1 506 2008 1827 0 1 489 2037 1850 0 1 535 1882 1834 0 1 519 1864 1841 0 1 469 2030 1818 0 1 522 1857 1825 0 1 507 2008 1825 0 1 503 2046 1825 0 1 497 2073 1832 0 1 474 1994 1828 0 1 531 1944 1825 0 1 500 1855 1825 0 1 475 1859 1830 0 1 462 2028 1823 0 1 445 2016 1834 0 1 529 1967 1821 0 1 518 1744 1837 0 1 516 1917 1843 0 1 463 1990 1825 47 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379827 10143778 RB#460GRSLITM2 102379828 10143779 RB#460GRSLITM2 102379829 10143779 RB#460GRSLITM2 102379830 10143779 RB#460GRSLITM2 102379831 10143779 RB#460GRSLITM2 102379832 10143779 RB#460GRSLITM2 102379833 10143779 RB#460GRSLITM2 102379834 10143779 RB#460GRSLITM2 102379835 10143779 RB#460GRSLITM2 102379836 10143779 RB#460GRSLITM2 102379837 10143779 RB#460GRSLITM2 102379838 10143779 RB#460GRSLITM2 102379839 10143779 RB#460GRSLITM2 102379840 10143779 RB#460GRSLITM2 102379841 10143779 RB#460GRSLITM2 102379842 10143779 RB#460GRSLITM2 102379843 10143779 RB#460GRSLITM2 102379844 10143779 RB#460GRSLITM2 102379845 10143779 RB#460GRSLITM2 102379846 10143779 RB#460GRSLITM2 102379847 10143779 RB#460GRSLITM2 102379848 10143779 RB#460GRSLITM2 102379849 10143779 RB#460GRSLITM2 102379850 10143779 RB#460GRSLITM2 102379851 10143779 RB#460GRSLITM2 102379852 10143780 RB#460GRSLITM2 102379853 10143780 RB#460GRSLITM2 102379854 10143780 RB#460GRSLITM2 102379855 10143780 RB#460GRSLITM2 102379856 10143780 RB#460GRSLITM2 102379857 10143780 RB#460GRSLITM2 102379858 10143780 RB#460GRSLITM2 102379859 10143780 RB#460GRSLITM2 102379860 10143780 RB#460GRSLITM2 102379861 10143780 RB#460GRSLITM2 102379862 10143780 RB#460GRSLITM2 102379863 10143780 RB#460GRSLITM2 102379864 10143780 RB#460GRSLITM2 102379865 10143780 RB#460GRSLITM2 102379866 10143780 RB#460GRSLITM2 102379867 10143780 RB#460GRSLITM2 102379868 10143780 RB#460GRSLITM2 102379869 10143780 RB#460GRSLITM2 102379870 10143780 RB#460GRSLITM2 102379871 10143780 RB#460GRSLITM2 102379872 10143780 RB#460GRSLITM2 102379873 10143780 RB#460GRSLITM2 102379874 10143780 RB#460GRSLITM2 102379875 10143780 RB#460GRSLITM2 102379876 10143781 RB#460GRSLITM2 102379877 10143781 RB#460GRSLITM2 102379878 10143781 RB#460GRSLITM2 102379879 10143781 RB#460GRSLITM2 102379880 10143781 RB#460GRSLITM2 BAR_WEIGHT_FACTOR BAR_CUT_FACTOR BAR_CHARGE_TEMP BAR_DISCHARGE_TEMP BAR_INTER_TEMP BAR_FINISH_TEMP BAR_FINISH_SPEED BAR_STAND_AMP BAR_STAND_SPEED 0 1 518 2025 1830 0 1 489 2044 1827 0 1 439 2008 1828 0 1 379 1987 1830 0 1 448 2014 1827 0 1 396 2028 1827 0 1 400 2007 1823 0 1 357 2035 1821 0 1 437 2026 1816 0 1 471 1875 1816 0 1 501 2039 1810 0 1 454 1893 1821 0 1 486 2007 1825 0 1 342 1906 1836 0 1 466 1996 1841 0 1 419 1945 1827 0 1 390 1981 1823 0 1 413 1936 1821 0 1 423 2023 1830 0 1 402 2019 1818 0 1 396 2052 1818 0 1 503 2028 1809 0 1 483 1983 1814 0 1 426 2059 1821 0 1 408 2030 1814 0 1 490 2007 1821 0 1 477 2016 1798 0 1 484 1974 507 0 1 463 2017 527 0 1 457 1990 480 0 1 469 2017 480 0 1 482 1972 480 0 1 456 2005 1398 0 1 484 2023 1852 0 1 435 2021 1463 0 1 467 1918 1841 0 1 503 1999 1859 0 1 449 1915 1337 0 1 490 1985 1855 0 1 435 1715 480 0 1 450 1960 1515 0 1 471 1926 1846 0 1 435 1875 1864 0 1 415 1996 1832 0 1 506 1972 1834 0 1 443 1843 1832 0 1 494 1765 1834 0 1 494 2032 1841 0 1 427 1999 1834 0 1 426 2046 1837 0 1 473 1674 1839 0 1 455 1861 1830 0 1 501 1987 1845 0 1 489 2032 1848 48 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379881 10143781 RB#460GRSLITM2 102379882 10143781 RB#460GRSLITM2 102379883 10143781 RB#460GRSLITM2 102379884 10143781 RB#460GRSLITM2 102379885 10143781 RB#460GRSLITM2 102379886 10143781 RB#460GRSLITM2 102379887 10143781 RB#460GRSLITM2 102379888 10143781 RB#460GRSLITM2 102379889 10143781 RB#460GRSLITM2 102379890 10143781 RB#460GRSLITM2 102379891 10143781 RB#460GRSLITM2 102379892 10143781 RB#460GRSLITM2 102379893 10143781 RB#460GRSLITM2 102379894 10143781 RB#460GRSLITM2 102379895 10143781 RB#460GRSLITM2 102379896 10143781 RB#460GRSLITM2 102379897 10143781 RB#460GRSLITM2 102379898 10143781 RB#460GRSLITM2 102379899 10143782 RB#460GRSLITM2 102379900 10143782 RB#460GRSLITM2 102379901 10143782 RB#460GRSLITM2 102379902 10143782 RB#460GRSLITM2 102379903 10143782 RB#460GRSLITM2 102379904 10143782 RB#460GRSLITM2 102379905 10143782 RB#460GRSLITM2 102379906 10143782 RB#460GRSLITM2 102379907 10143782 RB#460GRSLITM2 102379908 10143782 RB#460GRSLITM2 102379909 10143782 RB#460GRSLITM2 102379910 10143782 RB#460GRSLITM2 102379911 10143782 RB#460GRSLITM2 102379912 10143782 RB#460GRSLITM2 102379913 10143782 RB#460GRSLITM2 102379914 10143782 RB#460GRSLITM2 102379915 10143782 RB#460GRSLITM2 102379916 10143782 RB#460GRSLITM2 102379917 10143782 RB#460GRSLITM2 102379918 10143782 RB#460GRSLITM2 102379919 10143782 RB#460GRSLITM2 102379920 10143782 RB#460GRSLITM2 102379921 10143782 RB#460GRSLITM2 102379922 10143782 RB#460GRSLITM2 102379923 10143783 RB#460GRSLITM2 102379924 10143783 RB#460GRSLITM2 102379925 10143783 RB#460GRSLITM2 102379926 10143783 RB#460GRSLITM2 102379927 10143783 RB#460GRSLITM2 102379928 10143783 RB#460GRSLITM2 102379929 10143783 RB#460GRSLITM2 102379930 10143783 RB#460GRSLITM2 102379931 10143783 RB#460GRSLITM2 102379932 10143783 RB#460GRSLITM2 BAR_WEIGHT_FACTOR BAR_CUT_FACTOR BAR_CHARGE_TEMP BAR_DISCHARGE_TEMP BAR_INTER_TEMP BAR_FINISH_TEMP BAR_FINISH_SPEED BAR_STAND_AMP BAR_STAND_SPEED 0 1 521 1987 1845 0 1 494 1990 1839 0 1 497 2023 1830 0 1 384 2080 1819 0 1 480 1722 1834 0 1 461 2001 1825 0 1 480 1965 1834 0 1 489 1978 1823 0 1 505 1963 1832 0 1 457 2034 1846 0 1 492 2037 1837 0 1 510 1933 1825 0 1 479 1945 1830 0 1 444 2007 1828 0 1 510 1843 1814 0 1 410 1978 1825 0 1 467 2010 1819 0 1 452 2021 1834 0 1 432 1868 1825 0 1 447 1861 1801 0 1 407 1747 1832 0 1 432 1987 552 0 1 493 1877 1823 0 1 448 1866 1814 0 1 398 1902 1832 0 1 367 2035 1828 0 1 410 2019 1827 0 1 423 1744 1807 0 1 382 2030 1845 0 1 457 1630 1830 0 1 475 1915 1810 0 1 458 1908 1825 0 1 410 2034 1819 0 1 430 1836 1812 0 1 445 2014 1810 0 1 387 2048 1809 0 1 452 2028 1042 0 1 351 1962 1823 0 1 415 2021 531 0 1 429 2041 1823 0 1 441 2025 1812 0 1 422 2037 480 0 1 397 2028 1828 0 1 393 1965 1821 0 1 375 1965 1810 0 1 425 1884 1823 0 1 409 1936 1810 0 1 367 2010 1823 0 1 403 1967 1326 0 1 386 1990 1810 0 1 452 1976 1821 0 1 437 2007 1819 49 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379773 10143776 RB#460GRSLITM2 102379774 10143776 RB#460GRSLITM2 102379775 10143776 RB#460GRSLITM2 102379776 10143776 RB#460GRSLITM2 102379777 10143776 RB#460GRSLITM2 102379778 10143776 RB#460GRSLITM2 102379779 10143776 RB#460GRSLITM2 102379780 10143777 RB#460GRSLITM2 102379781 10143777 RB#460GRSLITM2 102379782 10143777 RB#460GRSLITM2 102379783 10143777 RB#460GRSLITM2 102379784 10143777 RB#460GRSLITM2 102379785 10143777 RB#460GRSLITM2 102379786 10143777 RB#460GRSLITM2 102379787 10143777 RB#460GRSLITM2 102379788 10143777 RB#460GRSLITM2 102379789 10143777 RB#460GRSLITM2 102379790 10143777 RB#460GRSLITM2 102379791 10143777 RB#460GRSLITM2 102379792 10143777 RB#460GRSLITM2 102379793 10143777 RB#460GRSLITM2 102379794 10143777 RB#460GRSLITM2 102379795 10143777 RB#460GRSLITM2 102379796 10143777 RB#460GRSLITM2 102379797 10143777 RB#460GRSLITM2 102379798 10143777 RB#460GRSLITM2 102379799 10143777 RB#460GRSLITM2 102379800 10143777 RB#460GRSLITM2 102379801 10143777 RB#460GRSLITM2 102379802 10143777 RB#460GRSLITM2 102379803 10143777 RB#460GRSLITM2 102379804 10143778 RB#460GRSLITM2 102379805 10143778 RB#460GRSLITM2 102379806 10143778 RB#460GRSLITM2 102379807 10143778 RB#460GRSLITM2 102379808 10143778 RB#460GRSLITM2 102379809 10143778 RB#460GRSLITM2 102379810 10143778 RB#460GRSLITM2 102379811 10143778 RB#460GRSLITM2 102379812 10143778 RB#460GRSLITM2 102379813 10143778 RB#460GRSLITM2 102379814 10143778 RB#460GRSLITM2 102379815 10143778 RB#460GRSLITM2 102379816 10143778 RB#460GRSLITM2 102379817 10143778 RB#460GRSLITM2 102379818 10143778 RB#460GRSLITM2 102379819 10143778 RB#460GRSLITM2 102379820 10143778 RB#460GRSLITM2 102379821 10143778 RB#460GRSLITM2 102379822 10143778 RB#460GRSLITM2 102379823 10143778 RB#460GRSLITM2 102379824 10143778 RB#460GRSLITM2 102379825 10143778 RB#460GRSLITM2 102379826 10143778 RB#460GRSLITM2 BAR_STRAND_NO BAR_PLC_CLOSED BAR_HOLD_CODE BAR_OPTIMIZED BAR_PRR UC DC UM DM BAR_NO_OF_STRAND BAR_DISCHARGE_HEAD_TEMP 10 00BSTARR 8/5/2024 1:21 PM BSTARR 8/5/2024 1:22 PM 1 10 00BSTARR 8/5/2024 1:22 PM BSTARR 8/5/2024 1:24 PM 1 10 00BSTARR 8/5/2024 1:24 PM BSTARR 8/5/2024 1:25 PM 1 10 00BSTARR 8/5/2024 1:25 PM BSTARR 8/5/2024 1:27 PM 1 10 00BSTARR 8/5/2024 1:27 PM BSTARR 8/5/2024 1:28 PM 1 10 00BSTARR 8/5/2024 1:28 PM BSTARR 8/5/2024 1:30 PM 1 10 00BSTARR 8/5/2024 1:30 PM BSTARR 8/5/2024 1:31 PM 1 10 00BSTARR 8/5/2024 1:31 PM BSTARR 8/5/2024 1:33 PM 1 10 00BSTARR 8/5/2024 1:33 PM BSTARR 8/5/2024 1:34 PM 1 10 00BSTARR 8/5/2024 1:34 PM BSTARR 8/5/2024 1:36 PM 1 10 00BSTARR 8/5/2024 1:36 PM BSTARR 8/5/2024 1:37 PM 1 10 00BSTARR 8/5/2024 1:37 PM BSTARR 8/5/2024 1:39 PM 1 10 00BSTARR 8/5/2024 1:39 PM BSTARR 8/5/2024 1:40 PM 1 10 00BSTARR 8/5/2024 1:40 PM BSTARR 8/5/2024 1:42 PM 1 10 00BSTARR 8/5/2024 1:42 PM BSTARR 8/5/2024 1:43 PM 1 10 00BSTARR 8/5/2024 1:43 PM BSTARR 8/5/2024 1:44 PM 1 10 00BSTARR 8/5/2024 1:45 PM BSTARR 8/5/2024 1:46 PM 1 10 00BSTARR 8/5/2024 1:46 PM BSTARR 8/5/2024 1:47 PM 1 10 00BSTARR 8/5/2024 1:48 PM BSTARR 8/5/2024 1:49 PM 1 10 00BSTARR 8/5/2024 1:49 PM BSTARR 8/5/2024 1:50 PM 1 10 00BSTARR 8/5/2024 1:59 PM BSTARR 8/5/2024 2:00 PM 1 10 00BSTARR 8/5/2024 2:00 PM BSTARR 8/5/2024 2:02 PM 1 10 00BSTARR 8/5/2024 2:02 PM BSTARR 8/5/2024 2:03 PM 1 10 00BSTARR 8/5/2024 2:04 PM BSTARR 8/5/2024 2:06 PM 1 10 00BSTARR 8/5/2024 2:06 PM BSTARR 8/5/2024 2:08 PM 1 10 00BSTARR 8/5/2024 2:08 PM BSTARR 8/5/2024 2:09 PM 1 10 00BSTARR 8/5/2024 2:09 PM BSTARR 8/5/2024 2:11 PM 1 10 00BSTARR 8/5/2024 2:11 PM BSTARR 8/5/2024 2:12 PM 1 10 00BSTARR 8/5/2024 2:12 PM BSTARR 8/5/2024 2:14 PM 1 10 00BSTARR 8/5/2024 2:14 PM BSTARR 8/5/2024 2:15 PM 1 10 00BSTARR 8/5/2024 2:15 PM BSTARR 8/5/2024 2:17 PM 1 10 00BSTARR 8/5/2024 2:17 PM BSTARR 8/5/2024 2:18 PM 1 10 00BSTARR 8/5/2024 2:18 PM BSTARR 8/5/2024 2:20 PM 1 10 00BSTARR 8/5/2024 2:20 PM BSTARR 8/5/2024 2:21 PM 1 10 00BSTARR 8/5/2024 2:21 PM BSTARR 8/5/2024 2:23 PM 1 10 00BSTARR 8/5/2024 2:23 PM BSTARR 8/5/2024 2:24 PM 1 10 00BSTARR 8/5/2024 2:24 PM BSTARR 8/5/2024 2:26 PM 1 10 00BSTARR 8/5/2024 2:26 PM BSTARR 8/5/2024 2:27 PM 1 10 00BSTARR 8/5/2024 2:27 PM BSTARR 8/5/2024 2:29 PM 1 10 00BSTARR 8/5/2024 2:29 PM BSTARR 8/5/2024 2:30 PM 1 10 00BSTARR 8/5/2024 2:30 PM BSTARR 8/5/2024 2:32 PM 1 10 00BSTARR 8/5/2024 2:32 PM BSTARR 8/5/2024 2:33 PM 1 10 00BSTARR 8/5/2024 2:33 PM BSTARR 8/5/2024 2:35 PM 1 10 00BSTARR 8/5/2024 2:35 PM BSTARR 8/5/2024 2:36 PM 1 10 00BSTARR 8/5/2024 2:36 PM BSTARR 8/5/2024 2:38 PM 1 10 00BSTARR 8/5/2024 2:38 PM BSTARR 8/5/2024 2:39 PM 1 10 00BSTARR 8/5/2024 2:39 PM BSTARR 8/5/2024 2:40 PM 1 10 00BSTARR 8/5/2024 2:41 PM BSTARR 8/5/2024 2:42 PM 1 10 00BSTARR 8/5/2024 2:42 PM BSTARR 8/5/2024 2:43 PM 1 10 00BSTARR 8/5/2024 2:44 PM BSTARR 8/5/2024 2:45 PM 1 10 00BSTARR 8/5/2024 2:45 PM BSTARR 8/5/2024 2:46 PM 1 10 00BSTARR 8/5/2024 2:47 PM BSTARR 8/5/2024 2:48 PM 1 10 00BSTARR 8/5/2024 2:48 PM BSTARR 8/5/2024 2:49 PM 1 10 00BSTARR 8/5/2024 2:50 PM BSTARR 8/5/2024 2:51 PM 1 50 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379827 10143778 RB#460GRSLITM2 102379828 10143779 RB#460GRSLITM2 102379829 10143779 RB#460GRSLITM2 102379830 10143779 RB#460GRSLITM2 102379831 10143779 RB#460GRSLITM2 102379832 10143779 RB#460GRSLITM2 102379833 10143779 RB#460GRSLITM2 102379834 10143779 RB#460GRSLITM2 102379835 10143779 RB#460GRSLITM2 102379836 10143779 RB#460GRSLITM2 102379837 10143779 RB#460GRSLITM2 102379838 10143779 RB#460GRSLITM2 102379839 10143779 RB#460GRSLITM2 102379840 10143779 RB#460GRSLITM2 102379841 10143779 RB#460GRSLITM2 102379842 10143779 RB#460GRSLITM2 102379843 10143779 RB#460GRSLITM2 102379844 10143779 RB#460GRSLITM2 102379845 10143779 RB#460GRSLITM2 102379846 10143779 RB#460GRSLITM2 102379847 10143779 RB#460GRSLITM2 102379848 10143779 RB#460GRSLITM2 102379849 10143779 RB#460GRSLITM2 102379850 10143779 RB#460GRSLITM2 102379851 10143779 RB#460GRSLITM2 102379852 10143780 RB#460GRSLITM2 102379853 10143780 RB#460GRSLITM2 102379854 10143780 RB#460GRSLITM2 102379855 10143780 RB#460GRSLITM2 102379856 10143780 RB#460GRSLITM2 102379857 10143780 RB#460GRSLITM2 102379858 10143780 RB#460GRSLITM2 102379859 10143780 RB#460GRSLITM2 102379860 10143780 RB#460GRSLITM2 102379861 10143780 RB#460GRSLITM2 102379862 10143780 RB#460GRSLITM2 102379863 10143780 RB#460GRSLITM2 102379864 10143780 RB#460GRSLITM2 102379865 10143780 RB#460GRSLITM2 102379866 10143780 RB#460GRSLITM2 102379867 10143780 RB#460GRSLITM2 102379868 10143780 RB#460GRSLITM2 102379869 10143780 RB#460GRSLITM2 102379870 10143780 RB#460GRSLITM2 102379871 10143780 RB#460GRSLITM2 102379872 10143780 RB#460GRSLITM2 102379873 10143780 RB#460GRSLITM2 102379874 10143780 RB#460GRSLITM2 102379875 10143780 RB#460GRSLITM2 102379876 10143781 RB#460GRSLITM2 102379877 10143781 RB#460GRSLITM2 102379878 10143781 RB#460GRSLITM2 102379879 10143781 RB#460GRSLITM2 102379880 10143781 RB#460GRSLITM2 BAR_STRAND_NO BAR_PLC_CLOSED BAR_HOLD_CODE BAR_OPTIMIZED BAR_PRR UC DC UM DM BAR_NO_OF_STRAND BAR_DISCHARGE_HEAD_TEMP 10 00BSTARR 8/5/2024 2:51 PM BSTARR 8/5/2024 2:52 PM 1 10 00BSTARR 8/5/2024 2:53 PM BSTARR 8/5/2024 2:54 PM 1 10 00BSTARR 8/5/2024 2:54 PM BSTARR 8/5/2024 2:55 PM 1 10 00BSTARR 8/5/2024 2:56 PM BSTARR 8/5/2024 2:57 PM 1 10 00BSTARR 8/5/2024 2:57 PM BSTARR 8/5/2024 2:58 PM 1 10 00BSTARR 8/5/2024 2:58 PM BSTARR 8/5/2024 3:00 PM 1 10 00BSTARR 8/5/2024 3:00 PM BSTARR 8/5/2024 3:01 PM 1 10 00BSTARR 8/5/2024 3:01 PM BSTARR 8/5/2024 3:03 PM 1 10 00BSTARR 8/5/2024 3:03 PM BSTARR 8/5/2024 3:04 PM 1 10 00BSTARR 8/5/2024 3:04 PM BSTARR 8/5/2024 3:06 PM 1 10 00BSTARR 8/5/2024 3:06 PM BSTARR 8/5/2024 3:07 PM 1 10 00BSTARR 8/5/2024 3:07 PM BSTARR 8/5/2024 3:09 PM 1 10 00BSTARR 8/5/2024 3:09 PM BSTARR 8/5/2024 3:10 PM 1 10 00BSTARR 8/5/2024 3:10 PM BSTARR 8/5/2024 3:12 PM 1 10 00BSTARR 8/5/2024 3:12 PM BSTARR 8/5/2024 3:13 PM 1 10 00BSTARR 8/5/2024 3:13 PM BSTARR 8/5/2024 3:15 PM 1 10 00BSTARR 8/5/2024 3:15 PM BSTARR 8/5/2024 3:16 PM 1 10 00BSTARR 8/5/2024 3:16 PM BSTARR 8/5/2024 3:18 PM 1 10 00BSTARR 8/5/2024 3:18 PM BSTARR 8/5/2024 3:19 PM 1 10 00BSTARR 8/5/2024 3:19 PM BSTARR 8/5/2024 3:21 PM 1 10 00BSTARR 8/5/2024 3:21 PM BSTARR 8/5/2024 3:22 PM 1 10 00BSTARR 8/5/2024 3:22 PM BSTARR 8/5/2024 3:24 PM 1 10 00BSTARR 8/5/2024 3:24 PM BSTARR 8/5/2024 3:25 PM 1 10 00BSTARR 8/5/2024 3:25 PM BSTARR 8/5/2024 3:27 PM 1 10 00BSTARR 8/5/2024 3:27 PM BSTARR 8/5/2024 3:28 PM 1 10 00BSTARR 8/5/2024 3:28 PM BSTARR 8/5/2024 3:30 PM 1 10 00BSTARR 8/5/2024 3:30 PM BSTARR 8/5/2024 3:31 PM 1 10 00BSTARR 8/5/2024 3:32 PM BSTARR 8/5/2024 3:33 PM 1 10 00BSTARR 8/5/2024 3:35 PM BSTARR 8/5/2024 3:36 PM 1 10 00BSTARR 8/5/2024 3:46 PM BSTARR 8/5/2024 3:47 PM 1 10 00BSTARR 8/5/2024 3:55 PM BSTARR 8/5/2024 3:57 PM 1 10 00BSTARR 8/5/2024 4:02 PM BSTARR 8/5/2024 4:03 PM 1 10 00BSTARR 8/5/2024 4:04 PM BSTARR 8/5/2024 4:06 PM 1 10 00BSTARR 8/5/2024 4:06 PM BSTARR 8/5/2024 4:07 PM 1 10 00BSTARR 8/5/2024 4:07 PM BSTARR 8/5/2024 4:09 PM 1 10 00BSTARR 8/5/2024 4:09 PM BSTARR 8/5/2024 4:10 PM 1 10 00BSTARR 8/5/2024 4:10 PM BSTARR 8/5/2024 4:12 PM 1 10 00BSTARR 8/5/2024 4:12 PM BSTARR 8/5/2024 4:13 PM 1 10 00BSTARR 8/5/2024 4:13 PM BSTARR 8/5/2024 4:15 PM 1 10 00BSTARR 8/5/2024 4:15 PM BSTARR 8/5/2024 4:16 PM 1 10 00BSTARR 8/5/2024 4:18 PM BSTARR 8/5/2024 4:20 PM 1 10 00BSTARR 8/5/2024 4:20 PM BSTARR 8/5/2024 4:21 PM 1 10 00BSTARR 8/5/2024 4:21 PM BSTARR 8/5/2024 4:22 PM 1 10 00BSTARR 8/5/2024 4:23 PM BSTARR 8/5/2024 4:24 PM 1 10 00BSTARR 8/5/2024 4:24 PM BSTARR 8/5/2024 4:25 PM 1 10 00BSTARR 8/5/2024 4:26 PM BSTARR 8/5/2024 4:27 PM 1 10 00BSTARR 8/5/2024 4:27 PM BSTARR 8/5/2024 4:28 PM 1 10 00BSTARR 8/5/2024 4:29 PM BSTARR 8/5/2024 4:30 PM 1 10 00BSTARR 8/5/2024 4:30 PM BSTARR 8/5/2024 4:31 PM 1 10 00BSTARR 8/5/2024 4:32 PM BSTARR 8/5/2024 4:33 PM 1 10 00BSTARR 8/5/2024 4:33 PM BSTARR 8/5/2024 4:34 PM 1 10 00BSTARR 8/5/2024 4:34 PM BSTARR 8/5/2024 4:36 PM 1 10 00BSTARR 8/5/2024 4:36 PM BSTARR 8/5/2024 4:37 PM 1 10 00BSTARR 8/5/2024 4:37 PM BSTARR 8/5/2024 4:39 PM 1 51 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379881 10143781 RB#460GRSLITM2 102379882 10143781 RB#460GRSLITM2 102379883 10143781 RB#460GRSLITM2 102379884 10143781 RB#460GRSLITM2 102379885 10143781 RB#460GRSLITM2 102379886 10143781 RB#460GRSLITM2 102379887 10143781 RB#460GRSLITM2 102379888 10143781 RB#460GRSLITM2 102379889 10143781 RB#460GRSLITM2 102379890 10143781 RB#460GRSLITM2 102379891 10143781 RB#460GRSLITM2 102379892 10143781 RB#460GRSLITM2 102379893 10143781 RB#460GRSLITM2 102379894 10143781 RB#460GRSLITM2 102379895 10143781 RB#460GRSLITM2 102379896 10143781 RB#460GRSLITM2 102379897 10143781 RB#460GRSLITM2 102379898 10143781 RB#460GRSLITM2 102379899 10143782 RB#460GRSLITM2 102379900 10143782 RB#460GRSLITM2 102379901 10143782 RB#460GRSLITM2 102379902 10143782 RB#460GRSLITM2 102379903 10143782 RB#460GRSLITM2 102379904 10143782 RB#460GRSLITM2 102379905 10143782 RB#460GRSLITM2 102379906 10143782 RB#460GRSLITM2 102379907 10143782 RB#460GRSLITM2 102379908 10143782 RB#460GRSLITM2 102379909 10143782 RB#460GRSLITM2 102379910 10143782 RB#460GRSLITM2 102379911 10143782 RB#460GRSLITM2 102379912 10143782 RB#460GRSLITM2 102379913 10143782 RB#460GRSLITM2 102379914 10143782 RB#460GRSLITM2 102379915 10143782 RB#460GRSLITM2 102379916 10143782 RB#460GRSLITM2 102379917 10143782 RB#460GRSLITM2 102379918 10143782 RB#460GRSLITM2 102379919 10143782 RB#460GRSLITM2 102379920 10143782 RB#460GRSLITM2 102379921 10143782 RB#460GRSLITM2 102379922 10143782 RB#460GRSLITM2 102379923 10143783 RB#460GRSLITM2 102379924 10143783 RB#460GRSLITM2 102379925 10143783 RB#460GRSLITM2 102379926 10143783 RB#460GRSLITM2 102379927 10143783 RB#460GRSLITM2 102379928 10143783 RB#460GRSLITM2 102379929 10143783 RB#460GRSLITM2 102379930 10143783 RB#460GRSLITM2 102379931 10143783 RB#460GRSLITM2 102379932 10143783 RB#460GRSLITM2 BAR_STRAND_NO BAR_PLC_CLOSED BAR_HOLD_CODE BAR_OPTIMIZED BAR_PRR UC DC UM DM BAR_NO_OF_STRAND BAR_DISCHARGE_HEAD_TEMP 10 00BSTARR 8/5/2024 4:39 PM BSTARR 8/5/2024 4:40 PM 1 10 00BSTARR 8/5/2024 4:40 PM BSTARR 8/5/2024 4:42 PM 1 10 00BSTARR 8/5/2024 4:42 PM BSTARR 8/5/2024 4:43 PM 1 10 00BSTARR 8/5/2024 4:43 PM BSTARR 8/5/2024 4:45 PM 1 10 00BSTARR 8/5/2024 4:45 PM BSTARR 8/5/2024 4:46 PM 1 10 00BSTARR 8/5/2024 4:46 PM BSTARR 8/5/2024 4:48 PM 1 10 00BSTARR 8/5/2024 4:48 PM BSTARR 8/5/2024 4:49 PM 1 10 00BSTARR 8/5/2024 4:49 PM BSTARR 8/5/2024 4:51 PM 1 10 00BSTARR 8/5/2024 4:51 PM BSTARR 8/5/2024 4:52 PM 1 10 00BSTARR 8/5/2024 4:52 PM BSTARR 8/5/2024 4:54 PM 1 10 00BSTARR 8/5/2024 4:54 PM BSTARR 8/5/2024 4:55 PM 1 10 00BSTARR 8/5/2024 4:55 PM BSTARR 8/5/2024 4:57 PM 1 10 00BSTARR 8/5/2024 4:57 PM BSTARR 8/5/2024 4:58 PM 1 10 00BSTARR 8/5/2024 4:58 PM BSTARR 8/5/2024 5:00 PM 1 10 00BSTARR 8/5/2024 5:00 PM BSTARR 8/5/2024 5:01 PM 1 10 00BSTARR 8/5/2024 5:01 PM BSTARR 8/5/2024 5:03 PM 1 10 00BSTARR 8/5/2024 5:03 PM BSTARR 8/5/2024 5:04 PM 1 10 00BSTARR 8/5/2024 5:04 PM BSTARR 8/5/2024 5:06 PM 1 10 00BSTARR 8/5/2024 5:06 PM BSTARR 8/5/2024 5:07 PM 1 10 00BSTARR 8/5/2024 5:07 PM BSTARR 8/5/2024 5:09 PM 1 10 00BSTARR 8/5/2024 5:09 PM BSTARR 8/5/2024 5:10 PM 1 10 00BSTARR 8/5/2024 5:10 PM BSTARR 8/5/2024 5:12 PM 1 10 00BSTARR 8/5/2024 5:13 PM BSTARR 8/5/2024 5:14 PM 1 10 00BSTARR 8/5/2024 5:15 PM BSTARR 8/5/2024 5:16 PM 1 10 00BSTARR 8/5/2024 5:16 PM BSTARR 8/5/2024 5:17 PM 1 10 00BSTARR 8/5/2024 5:18 PM BSTARR 8/5/2024 5:19 PM 1 10 00BSTARR 8/5/2024 5:19 PM BSTARR 8/5/2024 5:20 PM 1 10 00BSTARR 8/5/2024 5:21 PM BSTARR 8/5/2024 5:22 PM 1 10 00BSTARR 8/5/2024 5:22 PM BSTARR 8/5/2024 5:23 PM 1 10 00BSTARR 8/5/2024 5:23 PM BSTARR 8/5/2024 5:25 PM 1 10 00BSTARR 8/5/2024 5:25 PM BSTARR 8/5/2024 5:26 PM 1 10 00BSTARR 8/5/2024 5:26 PM BSTARR 8/5/2024 5:28 PM 1 10 00BSTARR 8/5/2024 5:28 PM BSTARR 8/5/2024 5:29 PM 1 10 00BSTARR 8/5/2024 5:29 PM BSTARR 8/5/2024 5:31 PM 1 10 00BSTARR 8/5/2024 5:31 PM BSTARR 8/5/2024 5:32 PM 1 10 00BSTARR 8/5/2024 5:32 PM BSTARR 8/5/2024 5:34 PM 1 10 00BSTARR 8/5/2024 5:34 PM BSTARR 8/5/2024 5:35 PM 1 10 00BSTARR 8/5/2024 5:35 PM BSTARR 8/5/2024 5:37 PM 1 10 00BSTARR 8/5/2024 5:37 PM BSTARR 8/5/2024 5:39 PM 1 10 00BSTARR 8/5/2024 5:40 PM BSTARR 8/5/2024 5:41 PM 1 10 00BSTARR 8/5/2024 5:41 PM BSTARR 8/5/2024 5:42 PM 1 10 00BSTARR 8/5/2024 5:43 PM BSTARR 8/5/2024 5:44 PM 1 10 00BSTARR 8/5/2024 5:46 PM BSTARR 8/5/2024 5:47 PM 1 10 00BSTARR 8/5/2024 5:47 PM BSTARR 8/5/2024 5:48 PM 1 10 00BSTARR 8/5/2024 5:49 PM BSTARR 8/5/2024 5:50 PM 1 10 00BSTARR 8/5/2024 5:50 PM BSTARR 8/5/2024 5:51 PM 1 10 00BSTARR 8/5/2024 5:52 PM BSTARR 8/5/2024 5:53 PM 1 10 00BSTARR 8/5/2024 5:53 PM BSTARR 8/5/2024 5:54 PM 1 10 00BSTARR 8/5/2024 5:55 PM BSTARR 8/5/2024 5:56 PM 1 10 00BSTARR 8/5/2024 5:56 PM BSTARR 8/5/2024 5:57 PM 1 10 00BSTARR 8/5/2024 5:57 PM BSTARR 8/5/2024 5:59 PM 1 10 00BSTARR 8/5/2024 5:59 PM BSTARR 8/5/2024 6:00 PM 1 52 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379773 10143776 RB#460GRSLITM2 102379774 10143776 RB#460GRSLITM2 102379775 10143776 RB#460GRSLITM2 102379776 10143776 RB#460GRSLITM2 102379777 10143776 RB#460GRSLITM2 102379778 10143776 RB#460GRSLITM2 102379779 10143776 RB#460GRSLITM2 102379780 10143777 RB#460GRSLITM2 102379781 10143777 RB#460GRSLITM2 102379782 10143777 RB#460GRSLITM2 102379783 10143777 RB#460GRSLITM2 102379784 10143777 RB#460GRSLITM2 102379785 10143777 RB#460GRSLITM2 102379786 10143777 RB#460GRSLITM2 102379787 10143777 RB#460GRSLITM2 102379788 10143777 RB#460GRSLITM2 102379789 10143777 RB#460GRSLITM2 102379790 10143777 RB#460GRSLITM2 102379791 10143777 RB#460GRSLITM2 102379792 10143777 RB#460GRSLITM2 102379793 10143777 RB#460GRSLITM2 102379794 10143777 RB#460GRSLITM2 102379795 10143777 RB#460GRSLITM2 102379796 10143777 RB#460GRSLITM2 102379797 10143777 RB#460GRSLITM2 102379798 10143777 RB#460GRSLITM2 102379799 10143777 RB#460GRSLITM2 102379800 10143777 RB#460GRSLITM2 102379801 10143777 RB#460GRSLITM2 102379802 10143777 RB#460GRSLITM2 102379803 10143777 RB#460GRSLITM2 102379804 10143778 RB#460GRSLITM2 102379805 10143778 RB#460GRSLITM2 102379806 10143778 RB#460GRSLITM2 102379807 10143778 RB#460GRSLITM2 102379808 10143778 RB#460GRSLITM2 102379809 10143778 RB#460GRSLITM2 102379810 10143778 RB#460GRSLITM2 102379811 10143778 RB#460GRSLITM2 102379812 10143778 RB#460GRSLITM2 102379813 10143778 RB#460GRSLITM2 102379814 10143778 RB#460GRSLITM2 102379815 10143778 RB#460GRSLITM2 102379816 10143778 RB#460GRSLITM2 102379817 10143778 RB#460GRSLITM2 102379818 10143778 RB#460GRSLITM2 102379819 10143778 RB#460GRSLITM2 102379820 10143778 RB#460GRSLITM2 102379821 10143778 RB#460GRSLITM2 102379822 10143778 RB#460GRSLITM2 102379823 10143778 RB#460GRSLITM2 102379824 10143778 RB#460GRSLITM2 102379825 10143778 RB#460GRSLITM2 102379826 10143778 RB#460GRSLITM2 BAR_DISCHARGE_TAIL_TEMP BAR_WELD BAR_NOTE BAR_CROP_LENGTH MLT_MILL_ENTRY_SEQ BLI_BILLET_SEQ BRT_ID RSN_REASON_SEQ NOTE_ID 0 59.37513 10127902 6392735 81635806 0 25.55436 10127902 6392734 81635819 0 55.3235 10127902 6392733 81635834 0 24.27906 10127902 6392732 81635850 0 54.72864 10127902 6392731 81635864 0 42.54673 10127902 6392730 81635914 0 69.54107 10127902 6392729 81635930 0 66.62122 10127903 6392728 81635971 0 66.95469 10127903 6392727 81635985 0 74.21993 10127903 6392726 81635994 0 80.32073 10127903 6392725 81635998 0 64.4482 10127903 6392724 81636036 0 82.59584 10127903 6392723 81636045 0 47.25522 10127903 6392722 81636053 0 82.5068 10127903 6392721 81636066 0 50.74057 10127903 6392720 81636114 0 65.28372 10127903 6392719 81636125 0 52.41983 10127903 6392718 81636164 0 53.76179 10127903 6392717 81636217 0 58.07594 10127903 6392716 81636262 0 62.50108 10127903 6392715 81636497 0 34.74871 10127903 6392714 81636505 0 68.82456 10127903 6392713 81636520 0 51.50352 10127903 6392712 81636577 0 50.41926 10127903 6392711 81636604 0 20.64028 10127903 6392710 81636656 0 58.95826 10127903 6392709 81636669 0 29.93456 10127903 6392708 81636697 0 41.37752 10127903 6392707 81636739 0 22.90065 10127903 6392706 81636754 0 44.67625 10127903 6392705 81636758 0 41.91937 10127904 6392704 81636769 0 54.58267 10127904 6392703 81636780 0 64.8577 10127904 6392702 81636785 0 72.10648 10127904 6392701 81636789 0 52.64777 10127904 6392700 81636795 0 76.48792 10127904 6392699 81636801 041.329 10127904 6392698 81637040 0 66.78011 10127904 6392697 81637095 0 27.75791 10127904 6392696 81637124 0 46.29763 10127904 6392695 81637136 0 21.96064 10127904 6392694 81637155 0 43.08942 10127904 6392693 81637170 044.386 10127904 6392692 81637183 0 41.68335 10127904 6392691 81637203 0 46.6984 10127904 6392690 81637310 0 61.84804 10127904 6392689 81637324 0 39.92188 10127904 6392688 81637334 0 61.9143 10127904 6392687 81637373 0 22.9628 10127904 6392686 81637380 0 43.68451 10127904 6392685 81637450 0 26.19348 10127904 6392684 81637456 0 30.62139 10127904 6392683 81637464 0 25.75101 10127904 6392682 81637468 53 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379827 10143778 RB#460GRSLITM2 102379828 10143779 RB#460GRSLITM2 102379829 10143779 RB#460GRSLITM2 102379830 10143779 RB#460GRSLITM2 102379831 10143779 RB#460GRSLITM2 102379832 10143779 RB#460GRSLITM2 102379833 10143779 RB#460GRSLITM2 102379834 10143779 RB#460GRSLITM2 102379835 10143779 RB#460GRSLITM2 102379836 10143779 RB#460GRSLITM2 102379837 10143779 RB#460GRSLITM2 102379838 10143779 RB#460GRSLITM2 102379839 10143779 RB#460GRSLITM2 102379840 10143779 RB#460GRSLITM2 102379841 10143779 RB#460GRSLITM2 102379842 10143779 RB#460GRSLITM2 102379843 10143779 RB#460GRSLITM2 102379844 10143779 RB#460GRSLITM2 102379845 10143779 RB#460GRSLITM2 102379846 10143779 RB#460GRSLITM2 102379847 10143779 RB#460GRSLITM2 102379848 10143779 RB#460GRSLITM2 102379849 10143779 RB#460GRSLITM2 102379850 10143779 RB#460GRSLITM2 102379851 10143779 RB#460GRSLITM2 102379852 10143780 RB#460GRSLITM2 102379853 10143780 RB#460GRSLITM2 102379854 10143780 RB#460GRSLITM2 102379855 10143780 RB#460GRSLITM2 102379856 10143780 RB#460GRSLITM2 102379857 10143780 RB#460GRSLITM2 102379858 10143780 RB#460GRSLITM2 102379859 10143780 RB#460GRSLITM2 102379860 10143780 RB#460GRSLITM2 102379861 10143780 RB#460GRSLITM2 102379862 10143780 RB#460GRSLITM2 102379863 10143780 RB#460GRSLITM2 102379864 10143780 RB#460GRSLITM2 102379865 10143780 RB#460GRSLITM2 102379866 10143780 RB#460GRSLITM2 102379867 10143780 RB#460GRSLITM2 102379868 10143780 RB#460GRSLITM2 102379869 10143780 RB#460GRSLITM2 102379870 10143780 RB#460GRSLITM2 102379871 10143780 RB#460GRSLITM2 102379872 10143780 RB#460GRSLITM2 102379873 10143780 RB#460GRSLITM2 102379874 10143780 RB#460GRSLITM2 102379875 10143780 RB#460GRSLITM2 102379876 10143781 RB#460GRSLITM2 102379877 10143781 RB#460GRSLITM2 102379878 10143781 RB#460GRSLITM2 102379879 10143781 RB#460GRSLITM2 102379880 10143781 RB#460GRSLITM2 BAR_DISCHARGE_TAIL_TEMP BAR_WELD BAR_NOTE BAR_CROP_LENGTH MLT_MILL_ENTRY_SEQ BLI_BILLET_SEQ BRT_ID RSN_REASON_SEQ NOTE_ID 0 27.86915 10127904 6392681 81637473 0 29.95281 10127905 6392680 81637519 0 36.31582 10127905 6392679 81637535 0 28.43653 10127905 6392678 81637547 0 40.27762 10127905 6392677 81637568 0 37.00706 10127905 6392676 81637588 0 49.15862 10127905 6392675 81637599 0 14.68883 10127905 6392674 81637710 0 42.40581 10127905 6392673 81637729 0 2.896085 10127905 6392672 81637737 0 32.31504 10127905 6392671 81637793 0 9.498262 10127905 6392670 81637799 0 27.92984 10127905 6392669 81637813 0 31.91068 10127905 6392668 81637890 0 15.07261 10127905 6392667 81638065 0 29.06765 10127905 6392666 81638185 0 48.73303 10127905 6392665 81638197 0 25.0285 10127905 6392664 81638201 0 32.1996 10127905 6392663 81638214 0 12.6733 10127905 6392662 81638230 0 49.23738 10127905 6392661 81638248 0 27.02136 10127905 6392660 81638293 0 25.34364 10127905 6392659 81638319 0 25.80311 10127905 6392658 81638335 0 23.6588 10127905 6392657 81638449 0 38.81234 10127906 6392656 81638467 0 26.48914 10127906 6392655 81638479 0 31.66774 10127906 6392654 81638524 0 35.75319 10127906 6392653 81638542 0 15.55436 10127906 6392652 81638667 0 21.26787 10127906 6392651 81638889 0 5.025247 10127906 6392650 81638952 0 22.47522 10127906 6392649 81638976 0 16.13673 10127906 6392648 81638990 0 15.1937 10127906 6392647 81639003 0 10.06359 10127906 6392646 81639058 0 18.91763 10127906 6392645 81639074 0 13.03229 10127906 6392644 81639091 0 27.8002 10127906 6392643 81639109 0 15.56792 10127906 6392642 81639190 0 31.17095 10127906 6392641 81639271 0 9.610452 10127906 6392640 81639280 0 40.53183 10127906 6392639 81639294 0 10127906 6392638 81639300 0 31.76099 10127906 6392637 81639307 0 7.189525 10127906 6392636 81639313 0 26.30672 10127906 6392635 81639361 0 3.250902 10127906 6392634 81639377 0 21.86882 10127906 6392633 81639388 0 18.67044 10127907 6392632 81639416 0 47.04581 10127907 6392631 81639463 0 46.41545 10127907 6392630 81639481 0 43.52024 10127907 6392629 81639487 0 46.82192 10127907 6392628 81639509 54 of 56 BAR_SEQUENCE FRP_ID PRD_PRODUCT_ID 102379881 10143781 RB#460GRSLITM2 102379882 10143781 RB#460GRSLITM2 102379883 10143781 RB#460GRSLITM2 102379884 10143781 RB#460GRSLITM2 102379885 10143781 RB#460GRSLITM2 102379886 10143781 RB#460GRSLITM2 102379887 10143781 RB#460GRSLITM2 102379888 10143781 RB#460GRSLITM2 102379889 10143781 RB#460GRSLITM2 102379890 10143781 RB#460GRSLITM2 102379891 10143781 RB#460GRSLITM2 102379892 10143781 RB#460GRSLITM2 102379893 10143781 RB#460GRSLITM2 102379894 10143781 RB#460GRSLITM2 102379895 10143781 RB#460GRSLITM2 102379896 10143781 RB#460GRSLITM2 102379897 10143781 RB#460GRSLITM2 102379898 10143781 RB#460GRSLITM2 102379899 10143782 RB#460GRSLITM2 102379900 10143782 RB#460GRSLITM2 102379901 10143782 RB#460GRSLITM2 102379902 10143782 RB#460GRSLITM2 102379903 10143782 RB#460GRSLITM2 102379904 10143782 RB#460GRSLITM2 102379905 10143782 RB#460GRSLITM2 102379906 10143782 RB#460GRSLITM2 102379907 10143782 RB#460GRSLITM2 102379908 10143782 RB#460GRSLITM2 102379909 10143782 RB#460GRSLITM2 102379910 10143782 RB#460GRSLITM2 102379911 10143782 RB#460GRSLITM2 102379912 10143782 RB#460GRSLITM2 102379913 10143782 RB#460GRSLITM2 102379914 10143782 RB#460GRSLITM2 102379915 10143782 RB#460GRSLITM2 102379916 10143782 RB#460GRSLITM2 102379917 10143782 RB#460GRSLITM2 102379918 10143782 RB#460GRSLITM2 102379919 10143782 RB#460GRSLITM2 102379920 10143782 RB#460GRSLITM2 102379921 10143782 RB#460GRSLITM2 102379922 10143782 RB#460GRSLITM2 102379923 10143783 RB#460GRSLITM2 102379924 10143783 RB#460GRSLITM2 102379925 10143783 RB#460GRSLITM2 102379926 10143783 RB#460GRSLITM2 102379927 10143783 RB#460GRSLITM2 102379928 10143783 RB#460GRSLITM2 102379929 10143783 RB#460GRSLITM2 102379930 10143783 RB#460GRSLITM2 102379931 10143783 RB#460GRSLITM2 102379932 10143783 RB#460GRSLITM2 BAR_DISCHARGE_TAIL_TEMP BAR_WELD BAR_NOTE BAR_CROP_LENGTH MLT_MILL_ENTRY_SEQ BLI_BILLET_SEQ BRT_ID RSN_REASON_SEQ NOTE_ID 0 40.37517 10127907 6392627 81639550 0 3.241009 10127907 6392626 81639561 0 47.03727 10127907 6392625 81639573 0 14.25233 10127907 6392624 81639581 0 31.59559 10127907 6392623 81639620 0 3.481304 10127907 6392622 81639666 0 37.58756 10127907 6392621 81639685 0 30.47865 10127907 6392620 81639702 0 19.57185 10127907 6392619 81639749 0 24.06001 10127907 6392618 81639798 0 32.25112 10127907 6392617 81639814 0 25.42779 10127907 6392616 81639829 0 29.90199 10127907 6392615 81639844 0 4.631931 10127907 6392614 81639850 0 37.63326 10127907 6392613 81639855 0 .534495 10127907 6392612 81639902 0 17.64923 10127907 6392611 81639971 0 13.13897 10127907 6392610 81639993 0 15.77102 10127908 6392609 81640003 0 17.77854 10127908 6392608 81640011 0 20.96469 10127908 6392607 81640022 0 9.775647 10127908 6392606 81640034 0 30.5916 10127908 6392605 81640100 0 8.751102 10127908 6392604 81640129 0 16.19269 10127908 6392603 81640156 0 1.082088 10127908 6392602 81640178 0 13.10473 10127908 6392601 81640200 0 12.42613 10127908 6392600 81640271 0 28.82879 10127908 6392599 81640284 0 12.69621 10127908 6392598 81640290 0 29.76368 10127908 6392597 81640298 0 27.19255 10127908 6392596 81640310 0 1.380695 10127908 6392595 81640322 0 25.83075 10127908 6392594 81640332 0 12.2098 10127908 6392593 81640337 0 23.2621 10127908 6392592 81640345 0 19.25566 10127908 6392591 81640361 0 33.30014 10127908 6392590 81640378 0 9.948686 10127908 6392589 81640438 0 3.913196 10127908 6392588 81640512 0 4.17369 10127908 6392587 81640535 0 14.66164 10127908 6392586 81640614 0 5.712045 10127909 6392585 81640676 0 6.849651 10127909 6392584 81640712 0 5.955493 10127909 6392583 81640750 0 23.38475 10127909 6392582 81640756 0 14.48109 10127909 6392581 81640765 0 23.53798 10127909 6392580 81640777 0 4.482986 10127909 6392579 81640789 0 23.46152 10127909 6392578 81640825 0 19.19363 10127909 6392577 81640831 0 19.32956 10127909 6392576 81640845 55 of 56 Last Page of Report 56 of 56 Nucor Reheat 2 Nox 2024 Reference Methods 2, 3A, 6C, 7E, 10, & 19 Source Information Company Name Nucor Steel Company Contact:Doug Jones Contact Phone No.(435) 458-2415 Stack Designation:Reheat Furnace #2 Test & Review Dates Test Date:8/5/2024 & Review Date:10/2/2024 Observer:Unobserved Reviewer:Paul Morris Emission Limits Emission Rates SO2 NOX CO SO2 NOX CO lbs./MMBtu lbs./hr.8.0 3.205 ppm Percent %O2 Correction as a whole # Test Information Heat Input Stack I.D. inches As ft^2 Y Dl H @ Cp Pbar Pq (static) fuel flow rate (Btu/hr.) Heat Input (Btu/hr.) 85.00 39.406 1.0020 1.758 0.84 25.62 1.1 Contractor Information Contact:Charles Horton Contracting Company:Alliance Technical Group, LLC Address:3683 W 2270 S, Suite E West Valley City, UT 84120 Phone No.:(464) 352-7568 Project No.: Division of Air Quality Instrumental Reference Methods - Gaseous Measurements Round Method 19 - F factors for Coal, Oil, and Gas Fd Fw Fc scf/MMBtu scf/MMBtu scf/MMBtu Diluent F factor used O2 CO2 Anthrocite 2 Bituminous 2 Lignite Natural Propane Butane 10100 COAL OIL GAS 9780 9860 9190 8710 8710 8710 10540 10640 11950 320 10610 10200 10390 1970 1800 1910 1420 1040 1190 1250 Wet CEM Correct For O2 CO2 Interference w/CO Yes Yes Yes Nucor Reheat 2 Nox 2024 Division of Air Quality NSPS Relative Accuracy Performance Specification Test - CEMS Certification Nucor Steel Reheat Furnace #2 Average Emission Dry SO2 NOX CO lbs./MMbtu Average % concentration lbs./hr.3.20 CO2 O2 ppm or %23.36 9.46 3.90 Run 1 Enter O2 or CO2 Dry SO2 NOX CO CO2 O2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 2.791E-06 lbs./hr.3.12 10.26 3.77 ppm or %23.37 10.15 3.79 Run 2 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 2.786E-06 lbs./hr.3.32 9.52 4.02 ppm or %23.32 10.15 4.03 Raw Value Run 3 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft 2.792E-06 lbs./hr.3.17 8.59 3.90 ppm or %23.38 8.52 3.90 Raw Value Run 4 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm or %Raw Value Run 5 Dry SO2 NOX CO CO2 O2 Atomic Weight 64 46 28 lbs./MMBtu (O2)E=Cd x Fd x (20.9/(20.9-%O2d)) lbs./MMBtu (CO2)E=Cd x Fc x (100 / % CO2d) lbs./cu.ft lbs./hr. ppm or %Raw Value C For Cal Drift Raw Value C For Cal Drift C For Cal Drift C For Cal Drift C For Cal Drift O2 CO2 Clear lbs./MMBTU Nucor Reheat 2 Nox 2024 Calibration Error Test Test Date August 5, 2024 O2 CS - Cal. Span 10.00 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.00% Passed Cal. CC727648 09/19/31 Mid-level 5.00 4.91 0.09 0.90% Passed Cal. High-level 10.00 10.06 0.06 0.60% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of CS - Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 50.00% 100% of Cal. Span High-level 100.00% Test Date August 5, 2024 CO2 CS - Cal. Span 23.90 Units % Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.00 0.00 0.000% Passed Cal. CC727648 09/19/31 Mid-level 12.00 12.04 0.04 0.167% Passed Cal. High-level 23.90 23.90 0.00 0.000% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 50.21% 100% of Cal. Span High-level 100.00% Test Date SO2 CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Test Date August 5, 2024 NOx CS - Cal. Span 50.00 Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level 0.00 0.02 0.02 0.040% Passed Cal. CC736761 10/28/31 Mid-level 25.00 24.96 0.04 0.080% Passed Cal. High-level 50.00 50.04 0.04 0.080% Passed Cal. % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 0.00% 40 to 60% of Cal. Span Mid-level 50.00% 100% of Cal. Span High-level 100.00% Test Date CO CS - Cal. Span Units ppm Cylinder No. Expiration Date Cal. Gas CV- Certified Concentration CDir or CS - Measured Concentration Difference ACE Eq. 7E-1 Analyzer Cal. Error Status Low-level Mid-level High-level % of Span Sec. 8.2.1 Cal Gas Verification 0 to 20% of Cal. Span Low-Level 40 to 60% of Cal. Span Mid-level 100% of Cal. Span High-level Valid Cal Gas Valid Cal Gas Valid Cal Gas Nucor Reheat 2 Nox 2024 Division of Air Quality Stack Test Review ofNucor Steel SO2 NOX CO CO2 O2 Reheat Furnace #2 CS Calibration Span 50.00 23.90 10.00 Units ppm ppm ppm %%Unprotected CV - Cylinder Value:SO2 NOX CO CO2 O2Low-Level 0.00 0.00 0.00 Mid-Level 25.00 12.00 5.00 High-Level 50.00 23.90 10.00 0 to 20% of Cal. Span 0.00%0.00% 0.00% 40 to 60% of Cal. Span 50.0%50.2% 50.0% 100% of Cal. Span 100.0%100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CDir CMA 25.00 12.00 5.00 Calibration Error Test Cs - Measured Concentration SO2 NOX CO CO2 O2 Low-Level 0.02 0.00 0.00 Mid-Level 24.96 12.04 4.91High-Level 50.04 23.90 10.06 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 24.96 12.04 4.91 Low-Level 0.04%0.00% 0.00% ppmdv Difference 0.02 0 0 Status Passed Cal.Passed Cal.Passed Cal. Mid-Level 0.08%0.17% 0.90% ppmdv Difference 0.04 0.04 0.09 Status Passed Cal.Passed Cal.Passed Cal. High-Level 0.08%0.00% 0.60% ppmdv Difference 0.04 0 0.06 Status Passed Cal.Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values SO2 NOX CO CO2 O2 CO - Low-Level 0.01 0.04 0.09 System Bias. SBi - Zero Bias TRUE 0.02% TRUE 0.17% 0.90%± 5% of Span Difference TRUE 0.01 TRUE 0.04 0.09 Pass or Failed Invalid Run Passed Cal.Passed Cal. Passed Cal. CM - Up-scale Gas 24.97 11.87 4.99 SBi - Up-Scale Bias TRUE 0.02% TRUE 0.71% 0.80% Difference TRUE 0.01 TRUE 0.17 0.08 Pass or Failed Invalid Run Passed Cal.Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:8/5/2024 SO2 SO2 NOX CO CO2 O2 NOX23.1 10.2 3.8 CO 0.0% 46.3% 0.0% 42.5% 37.9% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values SO2 NOX CO CO2 O2 CO - Low-Level 0.02 0.00 0.06 System Bias. SBi - Zero Bias TRUE 0.00% TRUE 0.00% 0.60%± 5% of Span Difference TRUE 0.0 TRUE 0.0 0.1 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. CM - Up-scale Gas 24.54 11.87 5.02 SBi - Up-Scale Bias TRUE 0.84% TRUE 0.71% 1.10% Difference TRUE 0.4 TRUE 0.2 0.1 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.02% TRUE 0.17% 0.30%Drift Difference TRUE 0.0 TRUE 0.0 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.82% TRUE 0.00% 0.30% Difference TRUE 0.4 TRUE 0.0 0.0 Pass or Re-Calibrate Pass Pass Pass Reheat Furnace #2 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 39.406 25.62 1.10 25.70 952 10.26 3.77 85.97 29.79 28.01 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 871.2131 1.0020 0.84 42.080 136.70 65 36.296 6.434 0.1506 0.9990 0.999 Load - Megawatts Avg. √∆P's Vs (ft/sec.)Qsw scfh wet Qa acfm Qsd dscfh Heat InputBtu/hr Low Mid High 0.2874 28.900 1,316,890 68,330 1,118,588.85 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 0.05 0.224 956 64 883 732 150.820.12 0.346 956 64 697 733 -35.7 3 0.09 0.300 955 66 653 645 8.1 4 0.10 0.316 954 67 931 917 13.5 5 0.08 0.283 952 66 6 0.09 0.300 950 63 7 0.07 0.265 948 61 8 0.06 0.245 946 62 9 0.05 0.224 955 65 10 0.10 0.316 955 66 11 0.08 0.283 954 66 12 0.07 0.265 952 66 13 0.08 0.283 952 67 14 0.09 0.300 950 15 0.10 0.316 949 16 0.11 0.332 948 17 18 1920 21 22 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog CO Calibration Gas Failed Bias Dialog Nucor Reheat 2 Nox 2024 Division of Air Quality Stack Test Review ofNucor Steel SO2 NOX CO CO2 O2 Reheat Furnace #2 CS Calibration Span 50.00 23.90 10.00 Units ppm ppm ppm %% CV - Cylinder Value:SO2 NOX CO CO2 O2Low-Level 0.00 0.00 0.00Mid-Level 25.00 12.00 5.00 High-Level 50.00 23.90 10.00 0 to 20% of Cal. Span 0.00%0.00% 0.00% 40 to 60% of Cal. Span 50.0%50.2% 50.0%100% of Cal. Span 100.0%100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 25.00 12.00 5.00 Calibration Error Test Measured Concentration SO2 NOX CO CO2 O2Low-Level 0.02 0.00 0.00 Mid-Level 24.96 12.04 4.91 High-Level 50.04 23.90 10.06 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 24.96 12.04 4.91 Low-Level 0.04%0.00% 0.00% ppmdv Difference 0.02 0 0 Status Passed Cal.Passed Cal.Passed Cal. Mid-Level 0.08%0.17% 0.90% ppmdv Difference 0.04 0.04 0.09 Status Passed Cal.Passed Cal.Passed Cal. High-Level 0.08%0.00% 0.60% ppmdv Difference 0.04 0 0.06 Status Passed Cal.Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values SO2 NOX CO CO2 O2 CO - Low-Level 0.02 0.00 0.06 System Bias. SBi - Zero Bias TRUE 0.00% TRUE 0.00% 0.60%± 5% of Span Difference TRUE 0 TRUE 0 0.06 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. CM - Up-scale Gas 24.54 11.87 5.02 SBi - Up-Scale Bias TRUE 0.84% TRUE 0.71% 1.10% Difference TRUE 0.42 TRUE 0.17 0.11 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:8/5/2024 SO2 SO2 NOX CO CO2 O2 NOX 22.9 9.4 4.0 CO 0.0% 45.7% 0.0% 39.3% 40.3% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values SO2 NOX CO CO2 O2 CO - Low-Level 0.01 0.01 0.07 System Bias. SBi - Zero Bias TRUE 0.02% TRUE 0.04% 0.70%± 5% of Span Difference TRUE 0.0 TRUE 0.0 0.1 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. CM - Up-scale Gas 24.45 11.79 4.97 SBi - Up-Scale Bias TRUE 1.02% TRUE 1.05% 0.60% Difference TRUE 0.5 TRUE 0.3 0.1 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.02% TRUE 0.04% 0.10%Response Spec. Difference TRUE 0.0 TRUE 0.0 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.18% TRUE 0.33% 0.50% Difference TRUE 0.1 TRUE 0.1 0.0 Pass or Re-Calibrate Pass Pass Pass Reheat Furnace #2 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 39.41 25.62 1.10 25.70 960 9.52 4.02 86.45 29.68 27.97 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 900.8089 1.0020 0.84 41.680 130.90 67 35.841 6.161 0.1467 0.9990 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High 0.3055 30.84 1,397,004 72,917 1,192,073.25 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 0.08 0.283 965 68 915 883 32.5 2 0.13 0.361 965 66 770 697 72.9 3 0.12 0.346 967 68 664 653 10.240.11 0.332 970 68 946 930 15.3 5 0.10 0.316 968 66 6 0.09 0.300 962 67 7 0.08 0.283 960 67 8 0.09 0.300 958 66 9 0.06 0.245 964 66 10 0.09 0.300 962 67 11 0.11 0.332 960 67 12 0.13 0.361 958 65 13 0.10 0.316 955 65 14 0.08 0.283 952 15 0.07 0.265 952 16 0.07 0.265 948 17 1819 20 21 22 23 24 Failed Bias Dialog Failed Drift Dialog Failed Cal Error Dialog Failed Bias Dialog Nucor Reheat 2 Nox 2024 Division of Air Quality Stack Test Review ofNucor Steel SO2 NOX CO CO2 O2 Reheat Furnace #2 CS Calibration Span 50.00 23.90 10.00 Units ppm ppm ppm %% CV - Cylinder Value:SO2 NOX CO CO2 O2Low-Level 0.00 0.00 0.00Mid-Level 25.00 12.00 5.00 High-Level 50.00 23.90 10.00 0 to 20% of Cal. Span 0.00%0.00% 0.00% 40 to 60% of Cal. Span 50.0%50.2% 50.0%100% of Cal. Span 100.0%100.0% 100.0% Cdir - Enter Actual Up-scale Cylinder Value Used To Correct Emission Concentration. CMA 25.00 12.00 5.00 Calibration Error Test Measured Concentration SO2 NOX CO CO2 O2Low-Level 0.02 0.00 0.00 Mid-Level 24.96 12.04 4.91 High-Level 50.04 23.90 10.06 Enter Up-scale Analyzer Response to be used during testing. ACE Eq. 7E-1 24.96 12.04 4.91 Low-Level 0.04%0.00% 0.00% ppmv Difference 0.02 0 0 Status Passed Cal.Passed Cal.Passed Cal. Mid-Level 0.08%0.17% 0.90% ppmv Difference 0.04 0.04 0.09 Status Passed Cal.Passed Cal.Passed Cal. High-Level 0.08%0.00% 0.60% ppmv Difference 0.04 0 0.06 Status Passed Cal.Passed Cal.Passed Cal. Pre-Test Sampling System Bias Initial Values SO2 NOX CO CO2 O2 CO - Low-Level 0.01 0.01 0.07 System Bias. SBi - Zero Bias TRUE 0.02% TRUE 0.04% 0.70%± 5% of Span Difference TRUE 0.01 TRUE 0.01 0.07 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. CM - Up-scale Gas 24.45 11.79 4.97 SBi - Up-Scale Bias TRUE 1.02% TRUE 1.05% 0.60% Difference TRUE 0.51 TRUE 0.25 0.06 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. Raw Test Data Time Start Stop Test Date:8/5/2024 SO2 SO2 NOX CO CO2 O2 NOX 22.9 8.5 3.9 CO 0.0% 45.8% 0.0% 35.6% 39.0% CO2/O2 Post-Test System Bias 7E-2 SB=(Cs - Cdir)/CS x 100 Final Values SO2 NOX CO CO2 O2 CO - Low-Level 0.03 0.00 0.08 System Bias. SBi - Zero Bias TRUE 0.02% TRUE 0.00% 0.80%± 5% of Span Difference TRUE 0.0 TRUE 0.0 0.1 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. CM - Up-scale Gas 24.55 12.00 4.98 SBi - Up-Scale Bias TRUE 0.82% TRUE 0.17% 0.70% Difference TRUE 0.4 TRUE 0.0 0.1 Pass or Invalid Run Passed Cal.Passed Cal. Passed Cal. Calibration Drift % of Span - D=ABS(SBf - SBi) Low-Level Drift TRUE 0.00% TRUE 0.04% 0.10%Response Spec. Difference TRUE 0.0 TRUE 0.0 0.0 3% of Span Pass or Re-Calibrate Pass Pass Pass Up-scale Gas Drift TRUE 0.20% TRUE 0.88% 0.10% Difference TRUE 0.1 TRUE 0.2 0.0 Pass or Re-Calibrate Pass Pass Pass Reheat Furnace #2 Flow & Moisture As ft^2 Pbar Pq (static) Ps Avg Ts F CO2 - FCO2 O2 N2+C Md Ms 39.41 25.62 1.10 25.70 958 8.59 3.90 87.50 29.53 27.63 Y Cp Vm cf Vlc AVG Tm F Vm std Vw std Bws S Bws 890.8008 1.0020 0.84 43.260 155.50 67 37.200 7.319 0.1644 0.9990 0.999 Load - Megawatts Avg. √∆P's Vs Qsw scfh wet Qa acfm Qsd dscfh Heat Input Btu/hr Low Mid High 0.2951 29.94 1,358,926 70,789 1,135,506.43 Enert > #1 - Times Date Point No.∆P √∆P ts F tm F (in) tm F (out) Final Vf Initial Vi 1 0.06 0.245 958 68 868 740 127.2 2 0.11 0.332 960 66 777 770 7.5 3 0.09 0.300 961 66 667 664 340.12 0.346 959 65 963 946 17.8 5 0.13 0.361 957 65 6 0.09 0.300 955 66 7 0.08 0.283 954 67 8 0.07 0.265 954 67 9 0.08 0.283 962 68 10 0.06 0.245 961 68 11 0.07 0.265 961 67 12 0.10 0.316 959 67 13 0.11 0.332 957 66 14 0.09 0.300 955 15 0.08 0.283 955 16 0.07 0.265 953 17 1819 20 21 22 23 24 Failed Bias Dialog Failed Cal Error Dialog Failed Drift Dialog Failed Bias Dialog