Text

Attachment 2: Calculation No. PNPS-EC-81416-M1418, Adiabatic Heatup Analysis for Drained Spent Fuel Pool
	ML19056A192
Person / Time
Site:	Pilgrim
Issue date:	02/18/2019
From:	; Entergy Nuclear Operations
To:	; Office of Nuclear Reactor Regulation
References
	2.19.011 PNPS-EC-81416-M1418, Rev 1
	Download: ML19056A192 (43)
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Attachment 2 2.19.011 Calculation No. PNPS-EC-81416-M1418, Adiabatic Heatup Analysis for Drained Spent Fuel Pool (72 pages follow)

DAN0-1 DAN0-2 0GGNS DIP-2 0 IP-3 DPLP 0BRP IZ] PNPS ORBS DVY 0W3 0 NP-GGNS-3 0 NP-RBS-3 CALCULATION COVER EC# 81416 Page 1 of 17 PAGE Design Basis Cale. D YES IZ] NO IZ] CALCULATION DEC Markup I

Calculation No: M1418 Revision: 1

Title:

Adiabatic Heatup Analysis for Drained Spent Fuel Pool Editorial DYES IZ] NO System(s): 19 Review Org (Department): Nuclear Analysis Safety Class: Component/Equipment/Structure Type/Number:

D Safety/ Quality Related Spent Fuel SFP D Augmented Quality Program IZ1 Non-Safety Related Document Type: CALC Keywords (Description/Topical Codes):

Decommissioning, SFP, zirconium fire REVIEWS Name/Signature/Date Name/Signature/Date Name/Signature/Date Preparer, Reviewer and Approver by ENERCON / See Dominick Fucito John Tucker Page 1A (See AS for Signature and Date) (See AS for Signature and Date)

Owner's Review Responsible Engineer D Design Verifier Supervisor/Approval IZ1 Reviewer D Comments Attached D Comments Attached EN-DC-126 REV 8

ENERC ON Page 1A of 17 EC 81416 Calculation M1418, Rev. 1 Preparation, Review, and Approval Signatures Preparation Name Signature / Date Responsible Engineer Dwayne Blaylock V?_,.--- //"31 / lj Review Name

/',/ Signature/ Date Reviewer Approval John Wright Ll-~ i/3t/t1 Name Signature / Date Supervisor Approval Guy Spikes EN-DC-126 REV 8

CALCULATION REFERENCE CALCULATION NO: M1418 SHEET REVISION: 1 PAGE: 2 I. EC Markups Incorporated (N/A to NP calculations)

II. Relationships: Sht Rev Input Output Impact Tracking Doc Doc Y/N No.

1.M1417 000

D

2. S&SA201 000

D

3. MDBR11 002

D

4. S&SA202 000

D 5.N143 000

D Ill. CROSS

REFERENCES:

1. NSIR/DPR-ISG-02, "Emergency Planning Exemption Requests for Decommissioning Nuclear Power Plants", May 11, 2015 (ML14106A057).

2. NUREG-0586, Supplement 1, Volume 1, Generic Environmental Impact Statement on Decommissioning of Nuclear Facilities.

3. Special Metals data sheet on lnconel alloy X-750:

httg://www.sgecialmetals.com/assets/smc/documents/allols/inconel/inconel-allol-X-750.gdf, accessed 1/28/19 (Attachment 5).

4. NUREG-1738, "Technical Study of Spent Fuel Pool Accident Risk at Decommissioning Nuclear Power Plants", February 2001 (ML010430066).

5. SECY-99-168, "Improving Decommissioning Regulations for Nuclear Power Plants",

June 30, 1999 (ML992800087).

6. NUREG/CR-6451, "A Safety and Regulatory Assessment of Generic BWR and PWR Permanently Shutdown Nuclear Power Plants", August 1997 (ML082260098).

7. lncropera & DeWitt, "Fundamentals of Heat and Mass Transfer", Third Edition, John Wiley & Sons, Inc., 1990.

8. Nuclear Fuel Data Design Input Record, 6/13/17 (Attachment 2).

9. NUREG/CR-6150, Vol.4, Rev 2, "SCDAP/RELAP/MOD3.3 Code Manual: MATPRO-A Library of Materials Properties for Light-Water-Reactor Accident Analysis", January 2001 (ML010330363, ML010330400 and ML010330422).

10. NUREG/CR-7024, "Material Property Correlations: Comparisons between FRAPCON-3.4, FRAPTRAN 1.4 and MATPRO" March 2011 (ML11101A012).

11. DB-0011.03, Rev. 10, "GNF2 Design Basis", May 2017 (Proprietary).

12. ORF Section 63-0199, Rev. 1, "Calculation of GNF2 Defender Fuel Bundle and Fuel assembly weights" (Proprietarv).

IV. SOFTWARE USED:

Title:

N/A Version/Release: - -Disk/CD No.

V. DISK/CDS INCLUDED:

Title:

Version/Release Disk/CD No.

VI. OTHER CHANGES EN-DC-126 REV 8

RECORD OF REVISION CALCULATION NO: _....:.:Mc.:.....:.1_,_41=-=8_ __

REVISION: 1 PAGE:_3

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Revision 1 removes the credit of the upper and lower tie plate masses from the analysis in response to a RAI. Additionally, the calculation is updated to determine the temperature of the limiting PNPS spent fuel bundle with 10 months of decay at a 1

time of 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months after becoming uncovered with a starting temperature of 125°F.

Material specific heat properties are updated from Ref. 111.9 and 111.10. Due to the substantial cham:1es in the calculation rev bars are not included.

EN-DC-126 REV 8

TABLE OF CONTENTS CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 4 OF 17 Table of Contents 1 Purpose and Background ......................................................................................................... 5 2 Conclusion ................................................................................................................................ 6 3 Input and Design Criteria .......................................................................................................... 7 4 Assumptions ........................................................................................................................... 10 5 Method of Analysis ................................................................................................................. 12 6 Calculation .............................................................................................................................. 15 7 Attachments ............................................................................................................................ 17 Attachment 1: Excel spreadsheet determining cladding temperature at 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months with a starting temperature of 125°F. (24 pages)

Attachment 2: Nuclear Fuel Data Design Input Record (3 pages)

Attachment 3: Estimate of Initial Temperature Difference Between Cladding and Surrounding Air (1 page)

Attachment 4: Sensitivity analysis, Excel spreadsheet determining cladding temperature at 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months with a starting temperature of 140°F. (24 pages)

Attachment 5: Select page from Special Materials lnconel alloy X-750 material data sheet (2 pages).

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 5 OF 17 1 Purpose and Background The purpose of this calculation is to conservatively evaluate the length of time required for a bounding uncovered spent fuel bundle in the spent fuel pool with 10 months of decay to reach the temperature where the zirconium cladding would fail. This analysis conservatively assumes that there is no air cooling of the assemblies and supports decommissioning of Pilgrim Nuclear Power Station (PNPS). Specifically, this analysis will be used to support a License Amendment Request submittal to reduce Emergency Planning (EP) staffing once the hottest fuel bundle decay time is sufficient to demonstrate a heat-up time o~ 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months to reach 900°C which supports the requirements of ISG--02, Section 5.0 (Reference 111.1 ).

The temperature over time is determined from a starting temperature of 125°F with the heat load from a the limiting GNF2 bundle as determined in Attachment 7 of Reference 11.1.

NUREG-0586 Supplement 1, Section 4.3.9, identifies that a spent fuel pool (SFP) drain down event is beyond design basis (Reference 111.2). This calculation is non-safety related as it is beyond design basis in support of decommissioning.

"Radiological accidents considered in licensing nuclear power plants are classified as design basis accidents (DBAs) and severe (beyond design basis) accidents.

DBAs are those accidents that both the licensee and the NRC staff evaluate to ensure that the plant can withstand normal and abnormal transients and a broad spectrum of postulated accidents without undue hazard to the health and safety of the public. Severe accidents are those that are beyond the design basis of the plant. They are more severe than DBAs because they may result in substantial damage to the fuel, whether or not there are serious offsite consequences. For the most part, DBAs focus on reactor operation and are not applicable to plants undergoing decommissioning. The only DBAs or severe accidents (beyond design basis) applicable to a decommissioning plant are those involving the spent fuel pool. These postulated accidents are not expected to occur during the life of the plant, but are evaluated to establish the design basis for the preventive and mitigative safety systems of the spent fuel storage facility."

There are no specific acceptance criteria for this analysis; however, SECY-99-168 (Reference 111.5) reports that a plant specific EP exemption determined "10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months will be sufficient time to take mitigative action".

NUREG/CR-6451 (Reference 111.6) presents several studies discussing the maximum allowable temperature of zirconium cladding that will ensure that failure of the zirconium cladding will not occur. NUREG/CR-6451 states 565°C (1049°F) as the lowest temperature where incipient cladding failure might occur. Per NUREG-1738 (Reference 111.4, page 3-7), 900°C (1652 °F) is the temperature where "runaway oxidation" (zirconium fire) is expected to occur. These two temperatures are the failure temperatures of interest for this calculation.

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 6 OF 17 2 Conclusion With the decay heat from the limiting 10-month decay spent fuel bundle, the temperature after 1O hours was calculated to be 890.45°C, which is less than the 900°C requirement in ISG-02 (Reference 111.1 ). Therefore, the 10-hour heat-up time from the normal operations maximum SFP temperature of 125°F to a "runaway oxidation" (zirconium fire) temperature of 900°C (1652°F) occurs at a decay time less than 1O months after shutdown. Based on the results of this analysis, Emergency Planning (EP) staffing could potentially be reduced 10 months after shutdown.

While the final calculated temperature is close to the 900°C requirement in ISG-02 (Reference 111.1 ), the following conservatisms remain. The largest conservatisms are the adiabatic assumption (Assumption 4.5) and the start of the heat up after the bundle has become fully uncovered (Assumption 4.1 ). Both of the assumptions eliminate other mechanisms in which decay heat would be transferred away from the fuel bundle either by convective heat transfer or by the boiling of spent fuel pool water.

The analysis also does not credit the full mass of material found in the bundle as the thicker corners of the fuel channel are not included in the calculation of the channel mass. Also, the mass of the upper and lower stainless-steel tie plates are not included, but would provide a conductive heat pathway for some of the decay heat.

For a sensitivity analysis an assumed higher initial temperature of 140°F, based on the initial difference between air and cladding conservatively estimated to be -15°F from Attachment 3, was performed in Attachment 4. The resulting calculated 10-hour temperature was 895.05°C which is still under the 900°C requirement.

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 7 OF 17 3 Input and Design Criteria 3.1 Zircaloy-2 Properties The cladding, water rods and channel for the GNF2 fuel bundle are zircaloy-2 (Reference 11.2 and 11.4).

The density of zircaloy-2 is 6.56 g/cm 3 (409.53 lbm/ft3) (Reference 11.1 ).

The specific heat capacity at various temperatures of zircaloy-2 is from Table 4.2 of Reference 111.9 and Table 3.1-1 of Reference 111.10 Table 1 contains the specific heat capacity of zircaloy-2 in both J/kg-K and BTU/lbm-°F. The specific heat capacity unit conversion is a 1 joule/kilogram/K (J/kg*K) = 0.238845896627E-03 Btu/poundl°F (Btu/lbm*°F).

Table 1: Zircaloy-2 Specific Heat Capacity Temperature Specific Heat Capacity (K) (OF) J/kg-K BTU/lbm-°F 300 80.33 281 0.0671 400 260.33 .302 0.0721 640 692.33 331 0.0791 1090 1502.33 375 0.0896 1093 1507.73 502 0.1199 1113 1543.73 590 0.1409 1133 1579.73 615 0.1469 1153 1615.73 719 0.1717 1173 1651.73 816 r 0.1949 1193 1687.73 770 0.1839 1213 1723.73 619 0.1478 1233 1759.73 469 0.1120 1248 1786.73 356 0.0850 3.2 Uranium Properties The density of uranium dioxide is 10.41 g/cm 3 (649.88 lbm/ft3) (Reference 11.1 ).

The specific heat capacity at various temperatures is calculated by the following empirical formula from Equation 2-5 of Reference 111.9 and Equation 2.2-1 of Reference 111.10.

Equation 3-1 Where:

FCP = Specific heat capacity (J/kg-K)

T = Temperature (K) y = Oxygen-to-metal ratio = 2 (Assumption 4.9)

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 8 OF 17 R = Universal gas constant= 8.3143 (J/mol-K) (Reference 111.9) e = the Einstein temperature= 535.285 (K) (Reference 111.9)

K1 = 296.7 (J/kg-K) (Reference 111.9)

~ = 2.43 x 10-2 (J/kg-K2 ) (Reference 111.9)

KJ = 8.745 x 107 '(J/kg) (Reference 111.9)

Eo = 1.577 x 105 (J/mol) (Reference 111.9) 3.3 Properties for Limiting Bundle The table below shows the geometry inputs for the GNF2 fuel bundles evaluated in this analysis.

The final cycle 22 core prior to decommissioning contains all GNF2 fuel (Ref 111.8), therefore the analysis herein will only evaluate the heat up of a GNF2 fuel bundle and not any other types in the SFP because the offload fuel directly after a cycle bounds all other fuel bundles in the pool. Table 2 contains fuel bundle input data used in this analysis for a GNF2 fuel bundle.

Table 2: Fuel Bundle Inputs for GNF2 Fuel Number of Heated Rods 92 rods 11.2 & 11.4 Number of Water Rods 2 rods 11.2 & 11.4 Number of Full Length Rods 78 rods 11.2 & 11.4 Number of 2/3 Length Partial Rods 8 rods 11.2 Number of 3/8 Length Partial Rods 6 rods 11.2 Active Length of Rods 145.24 in 111.8, 11.2, & 11.4 Length of 2/3 Length Partial Rod 102in 11.5 Length of 3/8 Length Partial Rod 54in 11.5 Uranium Pellet Diameter 0.3496 in 111.8, 11.2, & 11.4 Fuel Rod Outer Diameter 0.404 in 111.8, 11.2, & 11.4 Fuel Clad Thickness 0.0236 in 111.8 Fuel Rod Inner Diameter 0.3568 in Calculated Fuel Rod Pitch 0.510 in 111.8 Water Rod Outer Diameter 0.98 in 11.2 & 11.4 Water Rod Thickness 0.03 in 11.2 & 11.4 Water Rod Inner Diameter 0.92 in Calculated Channel Inside Width 5.283 in 11.2 Channel Groove Thickness 0.05 in 11.2 Channel Groove Width 0.798 in 111.11 Groove Ramp Width 0.027 in 111.11 Channel Sidewall Thickness 0.065 in 111.11 Spacer Weight 0.26626 lbm/spacer 111.12 Number of Spacers in Active 8 111.11 & 111.12 Lenoth of Rods Spacer Material Type lnconel Alloy X-750 111.11 EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 9 OF 17 3.4 Heat Load Attachment 7 of Reference 11.1 determines the maximum heat load from a single fuel bundle. To bound any bundle in the Cycle 22 core the lowest enrichment bundle, the highest burnup bundle, and the greatest mass of uranium (MTU) from Reference 11.1 were used. Specifically, these values were:

- 3.716% enrichment

-50,434 MWd/MTU

- 0.1814 MTU The bundle with the highest heat load will have the shortest heat-up time. The table showing the maximum fuel bundle heat generation rates for several decay times is located in Attachment 7 of Reference 11.1.

The worst-case (hottest) bundle is one that was discharged at the date of plant shutdown and has been cooling for 10 months. From Reference 11.1 the heat load of this bundle is 1.04E+04 W/MTU, which is converted to BTU/hr:

W 3.412BTU Worst - case bundle heat load= 1.04E + 04 MTU x W hr x 0.1814 MTU BTU/hr

= 6,4 36 "94 Bundle EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 10 OF 17 4 Assumptions 4.1 The heat-up time is conservatively assumed to start when the spent fuel pool has been completely drained. This is conservative as the drain down time (boil-off) would increase the time to cladding failure.

4.2 A starting temperature of 125°F is assumed for the heat-up analysis. The temperature of 125°F is the maximum initial pool temperature (Reference 11.3) during normal operations. This temperature is conservative as a temperature of 90°F is a realistic long-term pool temperature Additionally, SECY-99-168 (Reference 111.5) and NUREG-1738 (Reference 111.4) both set the starting water temperature at 30°C (86°F) so the analyzed initial temperature is conservative because a lower staring temperature would equate to a lower 10 hour1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months temperature.

4.3 The final core bundles are limiting in terms of heat load (Reference 11.1 ), therefore, the analysis herein will only evaluate the heat up of the final offload (referred to as the hottest fuel bundle herein).

4.4 The specific heat capacity for uranium dioxide and the zircaloy-2 cladding are determined at the initial temperature of each time step. Both the empirical formula and the specific heat capacity values in Table 1 are increasing with temperature from the range of 300K (80°F) to 1, 173K (900°C). With an increasing temperature in each time step it is conservative to use the initial temperature resulting in a lower specific heat capacity than the average value for the time step.

4.5 This analysis conservatively assumes that there is no air cooling of the assemblies (i.e.,

adiabatic conditions): the flow paths that would provide natural circulation cooling are assumed to be blocked.

4.6 The spacers are assumed to be zircaloy-2. Per Design Input 3.3, the spacers are composed of lnconel Alloy X-750, but tie into to other structures that are made of zircaloy-2 (fuel and water rods). This assumption is conservative since the specific heat capacity of zircaloy-2 is less than that of lnconel X-750 (Reference 111.3) and a lower specific heat capacity results in a longer heat-up time.

4.7 Initial temperatures within the fuel bundle are assumed to be uniform at the starting temperature in Assumption 4.2. Under adiabatic conditions (Assumption 4.5) any initial temperature gradients present between regions (fuel rods, water rods, structural elements and water/air region) approach zero on a shorter time scale than the calculated heat-up times due to the lack of cooling. This assumption is reasonable as slight variations are bounded by the overall conservatisms in Assumption 4.5 (adiabatic conditions) and Assumption 4.1 (no credit assumed for drain down/boil-off time). An approximation of the initial difference between the cladding temperature and the temperature of the surrounding air was calculated to be

-15°F (Attachment 3). Use of a 140°F instead of 125°F in the Attachment 4 spreadsheet results in a 10 hour1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months temperature of 895.05°C, confirming that the effect is minimal.

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 11 OF 17 4.8 Radiative heat transfer to the active fuel length of the channel box is credited after the bulk temperature exceeds 580°F. This assumption is conservative as radiative heat transfer between the fuel rods and the channel is a function of the temperature difference ((T:ads -

T:hannel). With an adequate view factor between the fuel rods and the channel, and typical emissivity values for zircaloy-2, the entire decay heat in the bundle can be transferred to the channel when the bulk temperature of the fuel region is iess than 580°F. Therefore, the chann.el and the active fuel region are considered thermally connected at temperatures greater than 580°F. Additionally, some conductive heat transfer occurs to the channel box via the connection to the upper and lower tie plate which in turn are connected to the fuel rods.

Therefore, the assumption that the channel and the active fuel region are thermally connected at temperatures greater than 580°F is conservative.

4.9 The oxygen to metal ratio in the equation to determine the specific heat capacity of U02 is assumed to be 2.00. This assumption is conservative since in fresh fuel there exists a 2 to 1 ratio of oxygen to uranium atoms in the fuel. As the fuel is burnt some uranium atoms fission and this ratio increases slightly. As demonstrated by Figure 2-1 of Reference 111.9, the specific heat capacity of U02 increases with an increasing oxygen to metal ratio.

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 12 OF 17 5 Method of Analysis This analysis determines the heat-up time of the fuel bundle using the specific heat capacity of materials.

Equation 5-1 (Reference 111.7, Ch. 8):

tlT q=mXCpX-t Where:

q is the heat generation rate in BTU/hr m is the mass of material in lbm cP is the specific heat in BTU/lbm-°F IJ.T is the temperature increase in °F t is the heat-up time in hr p is density in lbm/ft3 V is volume in ft3 For this analysis, there are two materials that are considered: the uranium dioxide fuel pellets and the zircaloy-2. The zircaloy-2 is in the cladding, water rods, spacers (Assumption 4.6), and channel.

Under adiabatic conditions, zircaloy-2 and the uranium dioxide heat up at the same rate, so the AT/flt will be the same for both materials.

Equation 5-2:

tlT CJ = IJ.t X ( mu X Cp,u + mz X Cp,z)

Where:

Xu signifies the property is for uranium dioxide Xz signifies the property is for zircaloy-2 This calculation seeks to determine the increase in temperature over sequential time steps of 0.025 hours2.893519e-4 days 0.00694 hours 4.133598e-5 weeks 9.5125e-6 months (flt), so Equation 7-2 is solved for tlT.

Equation 5-3:

tlT = --=--_ _ _iJ_x_lJ._t__~

(mu X Cp,u + mz X Cp,z)

The volume of uranium is given below.

Equation 5-4:

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 13 OF 17 Where:

Dp is the diameter of the uranium pellet in ft NFL is the number of full length heated rods LFL is the heated length of the full length rods in ft Nm is the number of 2/3 length heated rods Lm is the heated length of 2/3 length rods in ft Nm is the number of 3/8 length heated rods Lf-) is the heated length of 3/8 length rods in ft B

The mass of uranium is calculated as follows Equation 5-5 Mu= Vu Xpu Where:

Mu is the mass of the uranium fuel in lbm Pu is the density of uranium in lbm/ft3 The volume of zircaloy-2 in the active fuel region the volume of the heated rods and water rods is summed as determined below. The length of the cladding is the length of the active fuel region of the rods. Water rods are credited for the length of the active fuel region of a full-length fuel rod.

Equation 5-6:

Where:

Vz,cl is the volume of zircaloy-2 in the cladding of heated fuel rods in ft3

Dc,o is the outer diameter of the cladding in ft Dc,i is the inner diameter of the cladding in ft Equation 5-7:

Where:

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 14 OF 17 l'z,w is the volume of zircaloy-2 in the water rods in ft3 Dw,o is the outer diameter of the water rods in ft Dw,i is the inner diameter of the water rods in ft Nw is the number of water rods For time steps when the initial temperature is above 580°F, the volume of the channel box is determined by the inside width, a weighted average thickness based on the grove and sidewall thickness, and the active length of the rods. In reality, the channel box is slightly thicker due to the thick corners and longer than the active length.

Equation 5-8 Vz,eb =0 : T < 580°F T9 x2*(Wg+2Wgr)+Twx[W eb-2*(Wg+2Wgr))) *.T~SBOoF V.z,eb = 4 XL TL X w:eb X

[

Web Web Where:

Vz,eb is the volume of zircaloy-2 in the channel box in ft3 Web is the inside width of the channel box in ft

~ is the width of the groove in ft

~r is the width of the groove ramp in ft

'lg is the groove thickness of the channel box in ft Tw is the side wall thickness of the channel box in ft Equation 5-9:

l1z = Vz,cl + l'z,w + Vz,eb Where:

Vz is the total zircaloy-2 volume in ft3 The mass of zircaloy-2 is calculated as follows:

Equation 5-10 Mz = (Vz X pz) + 8Ms Where:

Mz is the mass of the zircaloy-2 fuel in lbm pz is the density of zircaloy-2 in lbm/ft3 Ms is the mass of the spacer in lbm For each time step Equation 5-3 is solved to determine the change in temperature starting with the initial temperature of 125°F, the specific heat capacity of uranium is determined using equation 3-1 EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 15 OF 17 at the initial temperature. The specific heat capacity of zircaloy-2 at the initial temperature is determined by interpolating between the various data points in Table 1. Using the mass of uranium calculated by Equation 5-5 and the mass of zircaloy-2 calculated by Equation 5-1 O the change in temperature (LlT) of the time step is calculated. For the next time step the initial temperature is determined by adding the initial temperature and LlT from the previous time step.

The hottest bundle source term methodology is described in Attachment 7 of Reference 11.1.

6 Calculation The volume of Uranium Dioxide in the hottest fuel bundle is determined below using Equation 5-4:

Yu = ( ( rr x (~~i~);l') 78 rods x ~:s;!; f~) + ( ( rr x (~~1~)~') 8 rods x 1

~

0 i~~;,)

+ ( ( rr x (~~i~)~') 6 rods x 1:::;ft) = 0.693 ft' The resulting mass of Uranium Dioxide using the density from Input 3.2 is:

lbm 11lu = 0.693 f t 3 X 649.88 f t 3 = 450.136 lbm The volume of zircaloy-2 in the cladding is determined below using Equation 5-6:

0.404 in) 2 (0.3568 in) 2 )

( 12 )

_ in/ft - 12 in/ft 145.24 in Vz cl

- n X 4

78 rods X . /f

(( 1 2m t 0.404 in) 2 (12in/ft (0.3568 in) 2 ) )

- 12in/ft 102in

+ ((n x 4 8rods x 12 in/ft 0.404 in) 2 0.3568 in 2 ) )

C12 in/ft - ( 12 in/ft) 54 in

+ nx 4 6 rods x 12 in/ft = 0.204ft 3

((

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 16 OF 17 The volume of zircaloy-2 in the water rods is determined below using Equation 5-7:

0.98 in ) 2

( 12 0.92 in ) 2 )

in t - C12 in t 145.24 in l'z,w = nx If /f 2 water rods x in/ft = 0.0151 ft 3

( 4 12 The total zircaloy-2 volume of the channel box is determined below from Equation 5-8:

Vz,cb =0 : T < 580°F 145.24 in 5.283 in Vz,cb =4 X 12 inf ft X

12 inf ft X

[

0.05 inX2*(0.798 in+2(0.027in)) + 0.065 inx[5.283 in-2*(0.798 in+2(0.027 in)] 1v 5.283 in 5.203 in .

12m/ft

= o*107 ft3 : r > 580oF The total zircaloy-2 volume is then determined below from Equation 5-9:

11z = 0.204 ft 3 + 0.0151 ft 3 + 0 ft 3 = 0.2191 ft 3 : T < 580°F 11z = 0.204 ft 3 + 0.0151 ft 3 + 0.107 ft 3 = 0.3261 ft 3 : T ~ 580°F The resulting total mass of zircaloy-2 is calculated using Equation 5-10 with the volume above and the density from Input 3.1 along with the mass of the spacers from Input 3.3:

lbm) lbm mz = ( 0.2191 ft 3 X 409.53 f 3 t

+8 X 0.26625 .

spacer

= 91.858 lbm : T < 580°F lbm) mz = ( 0.3261 ft 3 X 409.53 f 3 + 8 X 0.26625 lbm = 135.678 lbm : T ~ 580°F t spacer For each time step Equation 5-3 is solved in an Excel spreadsheet with an initial temperature of 125°F to determine the change in temperature {AT) over the time step. For each time step, the 10-month decay heat from the limiting bundle of 6,436.94 BTU/hr, the mass of U02 of 450.136 lbm and the mass of zircaloy-2 of 91.858 lbm {T< 580°F) or 135.678 lbm {T ~ 580°F) are used. Specific heat capacity is determined at the initial temperature of the time step by Equation 3-1 for U02 and by interpolation of the data in Table 1 for zircaloy-2.

For the subsequent time steps the initial temperature is determined by adding the initial temperature and AT from the previous time step. See Attachment 1 for calculation up to 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months . At 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months the final temperature is conservatively calculated to be 890.45°C, below the limit of 900°C.

Attachment 3 estimated that the initial temperature difference between the cladding and surrounding air of -14.1 °F. Therefore, a sensitivity analysis was performed with a conservative starting temperature of 140°F in Attachment 4. With this higher starting temperature the 10 hour1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months temperature is conservatively calculated to be 895.05°C, below the limit of 900°C.

EN-DC-126 REV 8

CALCULATION CALCULATION NO.: M1418 REVISION NO.: 1 ECNO.: 0000081416 PAGE 17 OF 17 7 Attachments Attachment 1: Excel spreadsheet determining cladding temperature at 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months with a starting temperature of 125°F. (24 pages)

Attachment 2: Nuclear Fuel Data Design Input Record (3 pages)

Attachment 3: Estimate of Initial Temperature Difference Between Cladding and Surrounding Air (1 page)

Attachment 4: Sensitivity analysis, Excel spreadsheet determining cladding temperature at 10 hours1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months with a starting temperature of 140°F. (24 pages)

Attachment 5: Select page from Special Materials lnconel alloy X-750 material data sheet (2 pages).

EN-DC-126 REV 8

Attachment 1 M1418, Rev. 1 Page 1 of 24 Parameter Value Unit Reference Decay Heat 6.44E+03 BTU/Hr Design Input 3.4 Mass U02 450.136 lbm Section 6.0 Mass Zirc (Fuel) 91.858 lbm Section 6.0 Mass Zirc 135.678 lbm Section 6.0 (Fuel+Channel)

Starting Temp 125 "F Assumption 4.2 Credit Temp 580 "F Assumption 4.8 10 hour1.157407e-4 days 0.00278 hours 1.653439e-5 weeks 3.805e-6 months Temp 890.45 *c Calculated Initial Elapsed Time Time Step Decay Heat Mass U0 2 Cp U02 Mass Zirc Cp Zirc 4T Ending Temp Temp hr hr "F BTU/hr lbm BTU/lbm-°F lbm BTU/lbm-°F "F "F oc 0 0.025 125 6.44E+03 450.136 0.0587 91.858 0.0684 4.92 129.92 54.40 0.025 0.025 129.92 6.44E+03 450.136 0.0589 91.858 0.0685 4.91 134.83 57.13 0.05 0.025 134.83 6.44E+03 450.136 0.0591 91.858 0.0686 4.89 139.72 59.84 0.075 0.025 139.72 6.44E+03 450.136 0.0593 91.858 0.0688 4.87 144.59 62.55 0.1 0.025 144.59 6.44E+03 450.136 0.0595 91.858 0.0689 4.86 149.45 65.25 0.125 0.025 149.45 6.44E+03 450.136 0.0597 91.858 0.0690 4.84 154.29 67.94 0.15 0.025 154.29 6.44E+03 450.136 0.0599 91.858 0.0692 4.83 159.12 70.62 0.175 0.025 159.12 6.44E+03 450.136 0.0601 91.858 0.0693 4.81 163.93 73.30 0.2 0.025 163.93 6.44E+03 450.136 0.0603 91.858 0.0694 4.80 168.73 75.96 0.225 0.025 168.73 6.44E+03 450.136 0.0605 91.858 0.0696 4.79 173.52 78.62 0.25 0.025 173.52 6.44E+03 450.136 0.0607 91.858 0.0697 4.77 178.29 81.27 0.275 0.025 178.29 6.44E+03 450.136 0.0609 91.858 0.0698 4.76 183.05 83.92

Attachment 1 M1418, Rev. 1 Page 2 of 24 0.3 0.025 183.05 6.44E+03 450.136 0.0610 91.858 0.0700 4.75 187.80 86.55 0.325 0.025 187.80 6.44E+03 450.136 0.0612 91.858 0.0701 4.73 192.53 89.18 0.35 0.025 192.53 6.44E+03 450.136 0.0614 91.858 0.0702 4.72 197.25 91.81 0.375 0.025 197.25 6.44E+03 450.136 0.0615 91.858 0.0704 4.71 201.96 94.42 0.4 0.025 201.96 6.44E+03 450.136 0.0617 91.858 0.0705 4.70 206.66 97.03 0.425 0.025 206.66 6.44E+03 450.136 0.0619 91.858 0.0706 4.69 211.35 99.64 0.45 0.025 211.35 6.44E+03 450.136 0.0620 91.858 0.0708 4.68 216.03 102.24 0.475 0.025 216.03 6.44E+03 450.136 0.0622 91.858 0.0709 4.67 220.69 104.83 0.5 0.025 220.69 6.44E+03 450.136 0.0623 91.858 0.0710 4.65 225.34 107.41 0.525 0.025 225.34 6.44E+03 450.136 0.0625 91.858 0.0712 4.64 229.99 109.99 0.55 0.025 229.99 6.44E+03 450.136 0.0626 91.858 0.0713 4.63 234.62 112.57 0.575 0.025 234.62 6.44E+03 450.136 0.0627 91.858 0.0714 4.62 239.25 115.14 0.6 0.025 239.25 6.44E+03 450.136 0.0629 91.858 0.0715 4.61 243.86 117.70 0.625 0.025 243.86 6.44E+03 450.136 0.0630 91.858 0.0717 4.60 248.46 120.26 0.65 0.025 248.46 6.44E+03 450.136 0.0632 91.858 0.0718 4.59 253.06 122.81 0.675 0.025 253.06 6.44E+03 450.136 0.0633 91.858 0.0719 4.59 257.64 125.36 0.7 0.025 257.64 6.44E+03 450.136 0.0634 91.858 0.0721 4.58 262.22 127.90 0.725 0.025 262.22 6.44E+03 450.136 0.0635 91.858 0.0722 4.57 266.79 130.44 0.75 0.025 266.79 6.44E+03 450.136 0.0637 91.858 0.0722 4.56 271.35 132.97 0.775 0.025 271.35 6.44E+03 450.136 0.0638 91.858 0.0723 4.55 275.90 135.50 0.8 0.025 275.90 6.44E+03 450.136 0.0639 91.858 0.0724 4.54 280.44 138.02 0.825 0.025 280.44 6.44E+03 450.136 0.0640 91.858 0.0725 4.54 284.98 140.54 0.85 0.025 284.98 6.44E+03 450.136 0.0642 91.858 0.0725 4.53 289.50 143.06 0.875 0.025 289.50 6.44E+03 450.136 0.0643 91.858 0.0726 4.52 294.02 145.57 0.9 0.025 294.02 6.44E+03 450.136 0.0644 91.858 0.0727 4.51 298.54 148.08 0.925 0.025 298.54 6.44E+03 450.136 0.0645 91.858 0.0727 4.51 303.04 150.58 0.95 0.025 303.04 6.44E+03 450.136 0.0646 91.858 0.0728 4.50 307.54 153.08 0.975 0.025 307.54 6.44E+03 450.136 0.0647 91.858 0.0729 4.49 312.03 155.57 1 0.025 312.03 6.44E+03 450.136 0.0648 91.858 0.0730 4.48 316.52 158.07 1.025 0.025 316.52 6.44E+03 450.136 0.0649 91.858 0.0730 4.48 321.00 160.55 1.05 0.025 321.00 6.44E+03 450.136 0.0650 91.858 0.0731 4.47 325.47 163.04 1.075 0.025 325.47 6.44E+03 450.136 0.0651 91.858 0.0732 4.46 329.93 165.52 1.1 0.025 329.93 6.44E+03 450.136 0.0652 91.858 0.0732 4.46 334.39 168.00 1.125 0.025 334.39 6.44E+03 450.136 0.0653 91.858 0.0733 4.45 338.84 170.47 1.15 0.025 338.84 6.44E+03 450.136 0.0654 91.858 0.0734 4.45 343.29 172.94 1.175 0.025 343.29 6.44E+03 450.136 0.0655 91.858 0.0735 4.44 347.73 175.41

Attachment 1 M1418, Rev. 1 Page 3 of 24 1.2 0.025 347.73 6.44E+03 450.136 0.0656 91.858 0.0735 4.43 352.16 177.87 1.225 0.025 352.16 6.44E+03 450.136 0.0657 91.858 0.0736 4.43 356.59 180.33 1.25 0.025 356.59 6.44E+03 450.136 0.0658 91.858 0.0737 4.42 361.01 182.78 1.275 0.025 361.01 6.44E+03 450.136 0.0659 91.858 0.0737 4.42 365.43 185.24 1.3 0.025 365.43 6.44E+03 450.136 0.0660 91.858 0.0738 4.41 369.84 187.69 1.325 0.025 369.84 6.44E+03 450.136 0.0661 91.858 0.0739 4.40 374.24 190.14 1.35 0.025 374.24 6.44E+03 450.136 0.0662 91.858 0.0740 4.40 378.64 192.58 1.375 0.025 378.64 6.44E+03 450.136 0.0663 91.858 0.0740 4.39 383.04 195.02 1.4 0.025 383.04 6.44E+03 450.136 0.0663 91.858 0.0741 4.39 387.43 197.46 1.425 0.025 387.43 6.44E+03 450.136 0.0664 91.858 0.0742 4.38 391.81 199.89 1.45 0.025 391.81 6.44E+03 450.136 0.0665 91.858 0.0742 4.38 396.19 202.33 1.475 0.025 396.19 6.44E+03 450.136 0.0666 91.858 0.0743 4.37 400.56 204.76 1.5 0.025 400.56 6.44E+03 450.136 0.0667 91.858 0.0744 4.37 404.93 207.18 1.525 0.025 404.93 6.44E+03 450.136 0.0668 91.858 0.0744 4.36 409.29 209.61 1.55 0.025 409.29 6.44E+03 450.136 0.0668 91.858 0.0745 4.36 413.65 212.03 1.575 0.025 413.65 6.44E+03 450.136 0.0669 91.858 0.0746 4.35 418.00 214.44 1.6 0.025 418.00 6.44E+03 450.136 0.0670 91.858 0.0747 4.35 422.35 216.86 1.625 0.025 422.35 6.44E+03 450.136 0.0671 91.858 0.0747 4.34 426.69 219.27 1.65 0.025 426.69 6.44E+03 450.136 0.0671 91.858 0.0748 4.34 431.03 221.68 1.675 0.025 431.03 6.44E+03 450.136 0.0672 91.858 0.0749 4.33 435.36 224.09 1.7 0.025 435.36 6.44E+03 450.136 0.0673 91.858 0.0749 4.33 439.69 226.50 1.725 0.025 439.69 6.44E+03 450.136 0.0674 91.858 0.0750 4.32 444.02 228.90 1.75 0.025 444.02 6.44E+03 450.136 0.0674 91.858 0.0751 4.32 448.34 231.30 1.775 0.025 448.34 6.44E+03 450.136 0.0675 91.858 0.0751 4.32 452.65 233.70 1.8 0.025 452.65 6.44E+03 450.136 0.0676 91.858 0.0752 4.31 456.96 236.09 1.825 0.025 456.96 6.44E+03 450.136 0.0676 91.858 0.0753 4.31 461.27 238.48 1.85 0.025 461.27 6.44E+03 450.136 0.0677 91.858 0.0754 4.30 465.57 240.87 1.875 0.025 465.57 6.44E+03 450.136 0.0678 91.858 0.0754 4.30 469.87 243.26 1.9 0.025 469.87 6.44E+03 450.136 0.0678 91.858 0.0755 4.29 474.17 245.65 1.925 0.025 474.17 6.44E+03 450.136 0.0679 91.858 0.0756 4.29 478.46 248.03 1.95 0.025 478.46 6.44E+03 450.136 0.0680 91.858 0.0756 4.29 482.74 250.41 1.975 0.025 482.74 6.44E+03 450.136 0.0680 91.858 0.0757 4.28 487.03 252.79 2 0.025 487.03 6.44E+03 450.136 0.0681 91.858 0.0758 4.28 491.30 255.17 2.025 0.025 491.30 6.44E+03 450.136 0.0682 91.858 0.0758 4.27 495.58 257.54 2.05 0.025 495.58 6.44E+03 450.136 0.0682 91.858 0.0759 4.27 499.85 259.92 2.075 0.025 499.85 6.44E+03 450.136 0.0683 91.858 0.0760 4.27 504.11 262.29

Attachment 1 M1418, Rev. 1 Page 4 of 24 2.1 0.025 504.11 6.44E+03 450.136 0.0684 91.858 0.0760 4.26 508.38 264.65 2.125 0.025 508.38 6.44E+03 450.136 0.0684 91.858 0.0761 4.26 512.63 267.02 2.15 0.025 512.63 6.44E+03 450.136 0.0685 91.858 0.0762 4.25 516.89 269.38 2.175 0.025 516.89 6.44E+03 450.136 0.0685 91.858 0.0762 4.25 521.14 271.74 2.2 0.025 521.14 6.44E+03 450.136 0.0686 91.858 0.0763 4.25 525.39 274.10 2.225 0.025 525.39 6.44E+03 450.136 0.0687 91.858 0.0764 4.24 529.63 276.46 2.25 0.025 529.63 6.44E+03 450.136 0.0687 91.858 0.0764 4.24 533.87 278.82 2.275 0.025 533.87 6.44E+03 450.136 0.0688 91.858 0.0765 4.24

538.11 281.17 2.3 0.025 538.11 6.44E+03 450.136 0.0688 91.858 0.0766 4.23 542.34 283.52 2.325 0.025 542.34 6.44E+03 450.136 0.0689 91.858 0.0767 4.23 546.57 285.87 2.35 0.025 546.57 , 6.44E+03 450.136 0.0689 91.858 0.0767 4.23 550.80 288.22 2.375 0.025 550.80 6.44E+03 450.136 0.0690 91.858 0.0768 4.22 555.02 290.57 2.4 0.025 555.02 6.44E+03 450.136 0.0690 91.858 0.0769 4.22 559.24 292.91 2.425 0.025 559.24 6.44E+03 450.136 0.0691 91.858 0.0769 4.22 563.46 295.25 2.45 0.025 563.46 6.44E+03 450.136 0.0692 91.858 0.0770 4.21 567.67 297.59 2.475 0.025 567.67 6.44E+03 450.136 0.0692 91.858 0.0771 4.21 571.88 299.93 2.5 0.025 571.88 6.44E+03 450.136 0.0693 91.858 0.0771 4.21 576.08 302.27 2.525 0.025 576.08 6.44E+03 450.136 0.0693 91.858 0.0772 4.20 580.29 304.60 2.55 0.025 580.29 6.44E+03 450.136 0.0694 135.678 0.0773 3.86 584.15 306.75 2.575 0.025 584.15 6.44E+03 450.136 0.0694 135.678 0.0773 3.86 588.00 308.89 2.6 0.025 588.00 6.44E+03 450.136 0.0695 135.678 0.0774 3.85 591.86 311.03 2.625 0.025 591.86 6.44E+03 450.136 0.0695 135.678 0.0774 3.85 595.71 313.17 2.65 0.025 595.71 6.44E+03 450.136 0.0695 135.678 0.0775 3.85 599.55 315.31 2.675 0.025 599.55 6.44E+03 450.136 0.0696 135.678 0.0776 3.85 603.40 317.44 2.7 0.025 603.40 6.44E+03 450.136 0.0696 135.678 0.0776 3.84 607.24 319.58 2.725 0.025 607.24 6.44E+03 450.136 0.0697 135.678 0.0777 3.84 611.08 321.71 2.75 0.025 611.08 6.44E+03 450.136 0.0697 135.678 0.0778 3.84 614.92 323.84 2.775 0.025 614.92 6.44E+03 450.136 0.0698 135.678 0.0778 3.83 618.75 325.97 2.8 0.025 618.75 6.44E+03 450.136 0.0698 135.678 0.0779 3.83 622.59 328.10 2.825 0.025 622.59 6.44E+03 450.136 0.0699 135.678 0.0779 3.83 626.42 330.23 2.85 0.025 626.42 6.44E+03 450.136 0.0699 135.678 0.0780 3.83 630.24 332.36 2.875 0.025 630.24 6.44E+03 450.136 0.0699 135.678 0.0781 3.82 634.07 334.48 2.9 0.025 634.07 6.44E+03 450.136 0.0700 135.678 0.0781 3.82 637.89 336.61 2.925 0.025 637.89 6.44E+03 450.136 0.0700 135.678 0.0782 3.82 641.71 338.73 2.95 0.025 641.71 6.44E+03 450.136 0.0701 135.678 0.0782 3.82 645.53 340.85 2.975 0.025 645.53 6.44E+03 450.136 0.0701 135.678 0.0783 3.81 649.34 342.97

Attachment 1 M1418, Rev. 1 Page 5 of 24 3 0.025 649.34 6.44E+03 450.136 0.0701 135.678 0.0784 3.81 653.16 345.09 3.025 0.025 653.16 6.44E+03 450.136 0.0702 135.678 0.0784 3.81 656.97 347.20 3.05 0.025 656.97 6.44E+03 450.136 0.0702 135.678 0.0785 3.81 660.77 349.32 3.075 0.025 660.77 6.44E+03 450.136 0.0703 135.678 0.0786 3.81 664.58 351.43 3.1 0.025 664.58 6.44E+03 450.136 0.0703 135.678 0.0786 3.80 668.38 353.55 3.125 0.025 668.38 6.44E+03 450.136 0.0703 135.678 0.0787 3.80 672.18 355.66 3.15 0.025 672.18 6.44E+03 450.136 0.0704 135.678 0.0787 3.80 675.98 357.77 3.175 0.025 675.98 6.44E+03 450.136 0.0704 135.678 0.0788 3.80 679.78 359.88 3.2 0.025 679.78 6.44E+03 450.136 0.0705 135.678 0.0789 3.79 683.57 361.98 3.225 0.025 683.57 6.44E+03 450.136 0.0705 135.678 0.0789 3.79 687.36 364.09 3.25 0.025 687.36 6.44E+03 450.136 0.0705 135.678 0.0790 3.79 691.15 366.20 3.275 0.025 691.15 6.44E+03 450.136 0.0706 135.678 0.0790 3.79 694.94 368.30 3.3 0.025 694.94 6.44E+03 450.136 0.0706 135.678 0.0791 3.78 698.72 370.40 3.325 0.025 698.72 6.44E+03 450.136 0.0707 135.678 0.0791 3.78 702.51 372.50 3.35 0.025 702.51 6.44E+03 450.136 0.0707 135.678 0.0792 3.78 706.29 374.60 3.375 0.025 706.29 6.44E+03 450.136 0.0707 135.678 0.0792 3.78 710.07 376.70 3.4 0.025 710.07 6.44E+03 450.136 0.0708 135.678 0.0793 3.78 713.84 378.80 3.425 0.025 713.84 6.44E+03 450.136 0.0708 135.678 0.0793 3.77 717.62 380.90 3.45 0.025 717.62 6.44E+03 450.136 0.0708 135.678 0.0794 3.77 721.39 382.99 3.475 0.025 721.39 6.44E+03 450.136 0.0709 135.678 0.0794 3.77 725.16 385.09 3.5 0.025 725.16 6.44E+03 450.136 0.0709 135.678 0.0795 3.77 728.93 387.18 3.525 0.025 728.93 6.44E+03 450.136 0.0709 135.678 0.0795 3.77 732.70 389.28 3.55 0.025 732.70 6.44E+03 450.136 0.0710 135.678 0.0796 3.76 736.46 391.37 3.575 0.025 736.46 6.44E+03 450.136 0.0710 135.678 0.0796 3.76 740.22 393.46 3.6 0.025 740.22 6.44E+03 450.136 0.0710 135.678 0.0797 3.76 743.98 395.55 3.625 0.025 743.98 6.44E+03 450.136 0.0711 135.678 0.0797 3.76 747.74 397.63 3.65 0.025 747.74 6.44E+03 450.136 0.0711 135.678 0.0798 3.76 751.50 399.72 3.675 0.025 751.50 6.44E+03 450.136 0.0711 135.678 0.0798 3.75 755.25 401.81 3.7 0.025 755.25 6.44E+03 450.136 0.0712 135.678 0.0799 3.75 759.01 403.89 3.725 0.025 759.01 6.44E+03 450.136 0.0712 135.678 0.0799 3.75 762.76 405.98 3.75 0.025 762.76 6.44E+03 450.136 0.0712 135.678 0.0800 3.75 766.51 408.06 3.775 0.025 766.51 6.44E+03 450.136 0.0713 135.678 0.0800 3.75 770.25 410.14 3.8 0.025 770.25 6.44E+03 450.136 0.0713 135.678 0.0801 3.75 774.00 412.22 3.825 0.025 774.00 6.44E+03 450.136 0.0713 135.678 0.0801 3.74 777.74 414.30 3.85 0.025 777.74 6.44E+03 450.136 0.0714 135.678 0.0802 3.74 781.48 416.38 3.875 0.025 781.48 6.44E+03 450.136 0.0714 135.678 0.0802 3.74 785.22 418.46

Attachment 1 M1418, Rev. 1 Page 6 of 24 3.9 0.025 785.22 6.44E+03 450.136 0.0714 135.678 0.0803 3.74 788.96 420.53 3.925 0.025 788.96 6.44E+03 450.136 0.0715 135.678 0.0803 3.74 792.70 422.61 3.95 0.025 792.70 6.44E+03 450.136 0.0715 135.678 0.0804 3.73 796.43 424.69 3.975 0.025 796.43 6.44E+03 450.136 0.0715 135.678 0.0804 3.73 800.17 426.76 4 0.025 800.17 6.44E+03 450.136 0.0716 135.678 0.0805 3.73 803.90 428.83 4.025 0.025 803.90 6.44E+03 450.136 0.0716 135.678 0.0805 3.73 807.63 430.90 4.05 0.025 807.63 6.44E+03 450.136 0.0716 135.678 0.0806 3.73 811.35 432.97 4.075 0.025 811.35 6.44E+03 450.136 0.0717 135.678 0.0806 3.73 815.08 435.04 4.1 0.025 815.08 6.44E+03 450.136 0.0717 135.678 0.0807 3.72 818.80 437.11 4.125 0.025 818.80 6.44E+03 450.136 0.0717 135.678 0.0807 3.72 822.52 . 439.18 4.15 0.025 822.52 6.44E+03 450.136 0.0718 135.678 0.0807 3.72 826.24 441.25 4.175 0.025 826.24 6.44E+03 450.136 0.0718 135.678 0.0808 3.72 829.96 443.31 4.2 0.025 829.96 6.44E+03 450.136 0.0718 135.678 0.0808 3.72 833.68 445.38 4.225 0.025 833.68 6.44E+03 450.136 0.0718 135.678 0.0809 3.72 837.39 447.44 4.25 0.025 837.39 6.44E+03 450.136 0.0719 135.678 0.0809 3.71 841.11 449.50 4.275 0.025 841.11 6.44E+03 450.136 0.0719 135.678 0.0810 3.71 844.82 451.57 4.3 0.025 844.82 6.44E+03 450.136 0.0719 135.678 0.0810 3.71 848.53 453.63 4.325 0.025 848.53 6.44E+03 450.136 0.0720 135.678 0.0811 3.71 852.24 455.69 4.35 0.025 852.24 6.44E+03 450.136 0.0720 135.678 0.0811 3.71 855.94 457.75 4.375 0.025 855.94 6.44E+03 450.136 0.0720 135.678 0.0812 3.70 859.65 459.81 4.4 0.025 859.65 6.44E+03 450.136 0.0721 135.678 0.0812 3.70 863.35 461.86 4.425 0.025 863.35 6.44E+03 450.136 0.0721 135.678 0.0813 3.70 867.05 463.92 4.45 0.025 867.05 6.44E+03 450.136 0.0721 135.678 0.0813 3.70 870.75 465.97 4.475 0.025 870.75 6.44E+03 450.136 0.0721 135.678 0.0814 3.70 874.45 468.03 4.5 0.025 874.45 6.44E+03 450.136 0.0722 135.678 0.0814 3.70 878.15 470.08 4.525 0.025 878.15 6.44E+03 450.136 0.0722 135.678 0.0815 3.70 881.84 472.14 4.55 0.025 881.84 6.44E+03 450.136 0.0722 135.678 0.0815 3.69 885.54 474.19 4.575 0.025 885.54 6.44E+03 450.136 0.0722 135.678 0.0816 3.69 889.23 476.24 4.6 0.025 889.23 6.44E+03 450.136 0.0723 135.678 0.0816 3.69 892.92 478.29 4.625 0.025 892.92 6.44E+03 450.136 0.0723 135.678 0.0817 3.69 896.61 480.34 4.65 0.025 896.61 6.44E+03 450.136 0.0723 135.678 0.0817 3.69 900.30 482.39 4.675 0.025 900.30 6.44E+03 450.136 0.0724 135.678 0.0818 3.69 903.98 484.43 4.7 0.025 903.98 6.44E+03 450.136 0.0724 135.678 0.0818 3.68 907.67 486.48 4.725 0.025 907.67 6.44E+03 450.136 0.0724 135.678 0.0819 3.68 911.35 488.53 4.75 0.025 911.35 6.44E+03 450.136 0.0724 135.678 0.0819 3.68 915.03 490.57 4.775 0.025 915.03 6.44E+03 450.136 0.0725 135.678 0.0819 3.68 918.71 492.62

Attachment 1 M1418, Rev. 1 Page 7 of 24, 4.8 0.025 918.71 6.44E+03 450.136 0.0725 135.678 0.0820 3.68 922.39 494.66 4.825 0.025 922.39 6.44E+03 450.136 0.0725 135.678 0.0820 3.68 926.06 496.70 4.85 0.025 926.06 6.44E+03 450.136 0.0725 135.678 0.0821 3.67 929.74 498.74 4.875 0.025 929.74 6.44E+03 450.136 0.0726 135.678 0.0821 3.67 933.41 500.78 4.9 0.025 933.41 6.44E+03 450.136 0.0726 135.678 0.0822 3.67 937.08 502.82 4.925 0.025 937.08 6.44E+03 450.136 0.0726 135.678 0.0822 3.67 940.75 504.86 4.95 0.025 940.75 6.44E+03 450.136 0.0727 135.678 0.0823 3.67 944.42 506.90 4.975 0.025 944.42 6.44E+03 450.136 0.0727 135.678 0.0823 3.67 948.09 508.94 5 0.025 948.09 6.44E+03 450.136 0.0727 135.678 0.0824 3.67 951.75 510.97 5.025 0.025 951.75 6.44E+03 450.136 0.0727 135.678 0.0824 3.66 955.42 513.01 5.05 0.025 955.42 6.44E+03 450.136 0.0728 135.678 0.0825 3.66 959.08 515.04 5.075 0.025 959.08 6.44E+03 450.136 0.0728 135.678 0.0825 3.66 962.74 517.08 5.1 0.025 962.74 6.44E+03 450.136 0.0728 135.678 0.0826 3.66 966.40 519.11 5.125 0.025 966.40 6.44E+03 450.136 0.0728 135.678 0.0826 3.66 970.06 521.14 5.15 0.025 970.06 6.44E+03 450.136 0.0729 135.678 0.0827 3.66 973.71 523.17 5.175 0.025 973.71 6.44E+03 450.136 0.0729 135.678 0.0827 3.66 977.37 525.20 5.2 0.025 977.37 6.44E+03 450.136 0.0729 135.678 0.0828 3.65 981.02 527.23 5.225 0.025 981.02 6.44E+03 450.136 0.0729 135.678 0.0828 3.65 984.67 529.26 5.25 0.025 984.67 6.44E+03 450.136 0.0730 135.678 0.0829 3.65 988.32 531.29 5.275 0.025 988.32 6.44E+03 450.136 0.0730 135.678 0.0829 3.65 991.97 533.32 5.3 0.025 991.97 6.44E+03 450.136 0.0730 135.678 0.0829 3.65 995.62 535.35 5.325 0.025 995.62, 6.44E+03 450.136 0.0730 135.678 0.0830 3.65 999.27 537.37 5.35 0.025 999.27 6.44E+03 450.136 0.0730 135.678 0.0830 3.65 1002.91 539.40 5.375 0.025 1002.91 6.44E+03 450.136 0.0731 135.678 0.0831 3.64 1006.56 541.42 5.4 0.025 1006.56 6.44E+03 450.136 0.0731 135.678 0.0831 3.64 1010.20 543.44 5.425 0.025 1010.20 6.44E+03 450.136 0.0731 135.678 0.0832 3.64 1013.84 545.47 5.45 0.025 1013.84 6.44E+03 450.136 0.0731 135.678 0.0832 3.64 1017.48 547.49 5.475 0.025 1017.48 6.44E+03 450.136 0.0732 135.678 0.0833 3.64 1021.12 549.51 5.5 0.025 1021.12 6.44E+03 450.136 0.0732 135.678 0.0833 3.64 1024.75 551.53 5.525 0.025 1024.75 6.44E+03 450.136 0.0732 135.678 0.0834 3.64 1028.39 553.55 5.55 0.025 1028.39 6.44E+03 450.136 0.0732 135.678 0.0834 3.63 1032.02 555.57 5.575 0.025 1032.02 6.44E+03 450.136 0.0733 135.678 0.0835 3.63 1035.66 557.59 5.6 0.025 1035.66 6.44E+03 450.136 0.0733 135.678 0.0835 3.63 1039.29 559.60 5.625 0.025 1039.29 6.44E+03 450.136 0.0733 135.678 0.0836 3.63 1042.92 561.62 5.65 0.025 1042.92 6.44E+03 450.136 0.0733 135.678 0.0836 3.63 1046.54 563.64 5.675 0.025 1046.54 6.44E+03 450.136 0.0734 135.678 0.0837 3.63 1050.17 565.65

Attachment 1 M1418, Rev. 1 Page 8 of 24 5.7 0.025 1050.17 6.44E+03 450.136 0.0734 135.678 0.0837 3.63 1053.80 567.66 5.725 0.025 1053.80 6.44E+03 450.136 0.0734 135.678 0.0837 3.62 1057.42 569.68 5.75 0.025 1057.42 6.44E+03 450.136 0.0734 135.678 0.0838 3.62 1061.04 571.69 5.775 0.025 1061.04 6.44E+03 450.136 0.0734 135.678 0.0838 3.62 1064.67 573.70 5.8 0.025 1064.67 6.44E+03 450.136 0.0735 135.678 0.0839 3.62 1068.29 575.71 5.825 0.025 1068.29 6.44E+03 450.136 0.0735 135.678 0.0839 3.62 1071.90 577.72 5.85 0.025 1071.90 6.44E+03 450.136 0.0735 135.678 0.0840 3.62 1075.52 579.73 5.875 0.025 1075.52 6.44E+03 450.136 0.0735 135.678 0.0840 3.62 1079.14 581.74 5.9 0.025 1079.14 6.44E+03 450.136 0.0736 135.678 0.0841 3.61 1082.75 583.75 5.925 0.025 1082.75 6.44E+03 450.136 0.0736 135.678 0.0841 3.61 1086.37 585.76 5.95 0.025 1086.37 6.44E+03 450.136 0.0736 135.678 0.0842 3.61 1089.98 587.77 5.975 0.025 1089.98 6.44E+03 450.136 0.0736 135.678 0.0842 3.61 1093.59 589.77 6 0.025 1093.59 6.44E+03 450.136 0.0736 135.678 0.0843 3.61 1097.20 591.78 6.025 0.025 1097.20 6.44E+03 450.136 0.0737 135.678 0.0843 3.61 1100.81 593.78 6.05 0.025 1100.81 6.44E+03 450.136 0.0737 135.678 0.0844 3.61 1104.41 595.79 6.075 0.025 1104.41 6.44E+03 450.136 0.0737 135.678 0.0844 3.61 1108.02 597.79 6.1 0.025 1108.02 6.44E+03 450.136 0.0737 135.678 0.0845 3.60 1111.62 599.79 6.125 0.025 1111.62 6.44E+03 450.136 0.0738 135.678 0.0845 3.60 1115.23 601.79 6.15 0.025 1115.23 6.44E+03 450.136 0.0738 135.678 0.0845 3.60 1118.83 603.79 6.175 0.025 1118.83 6.44E+03 450.136 0.0738 135.678 0.0846 3.60 1122.43 605.79 6.2 0.025 1122.43 6.44E+03 450.136 0.0738 135.678 0.0846 3.60 1126.03 607.79 6.225 0.025 1126.03 6.44E+03 450.136 0.0738 135.678 0.0847 3.60 1129.63 609.79 6.25 0.025 1129.63 6.44E+03 450.136 0.0739 135.678 0.0847 3.60 1133.22 611.79 6.275 0.025 1133.22 6.44E+03 450.136 0.0739 135.678 0.0848 3.60 1136.82 613.79 6.3 0.025 1136.82 6.44E+03 450.136 0.0739 135.678 0.0848 3.59 1140.41 615.78 6.325 0.025 1140.41 6.44E+03 450.136 0.0739 135.678 0.0849 3.59 1144.00 617.78 6.35 0.025 1144.00 6.44E+03 450.136 0.0739 135.678 0.0849 3.59 1147.60 619.78 6.375 0.025 1147.60 6.44E+03 450.136 0.0740 135.678 0.0850 3.59 1151.19 621.77 6.4 0.025 1151.19 6.44E+03 450.136 0.0740 135.678 0.0850 3.59 1154.78 623.76 6.425 0.025 1154.78 6.44E+03 450.136 0.0740 135.678 0.0851 3.59 1158.36 625.76 6.45 0.025 1158.36 6.44E+03 450.136 0.0740 135.678 0.0851 3.59 1161.95 627.75 6.475 0.025 1161.95 6.44E+03 450.136 0.0740 135.678 0.0852 3.59 1165.54 629.74 6.5 0.025 1165.54 6.44E+03 450.136 0.0741 135.678 0.0852 3.58 1169.12 631.73 6.525 0.025 1169.12 6.44E+03 450.136 0.0741 135.678 0.0852 3.58 1172.70 633.72 6.55 0.025 1172.70 6.44E+03 450.136 0.0741 135.678 0.0853 3.58 1176.28 635.71 6.575 0.025 1176.28 6.44E+03 450.136 0.0741 135.678 0.0853 3.58 1179.86 637.70

Attachment 1 M1418, Rev. 1 Page 9 of 24 6.6 0.025 1179.86 6.44E+03 450.136 0.0741 135.678 0.0854 3.58 1183.44 639.69 6.625 0.025 1183.44 6.44E+03 450.136 0.0742 135.678 0.0854 3.58 1187.02 641.68 6.65 0.025 1187.02 6.44E+03 450.136 0.0742 135.678 0.0855 3.58 1190.60 643.67 6.675 0.025 1190.60 6.44E+03 450.136 0.0742 135.678 0.0855 3.58 1194.17 645.65 6.7 0.025 1194.17 6.44E+03 450.136 0.0742 135.678 0.0856 3.57 1197.75 647.64 6.725 0.025 1197.75 6.44E+03 450.136 0.0742 135.678 0.0856 3.57 1201.32 649.62 6.75 0.025 1201.32 6.44E+03 450.136 0.0743 135.678 0.0857 3.57 1204.89 651.61 6.775 0.025 1204.89 6.44E+03 450.136 0.0743 135.678 0.0857 3.57 1208.46 653.59 6.8 0.025 1208.46 6.44E+03 450.136 0.0743 135.678 0.0858 3.57 1212.03 655.57 6.825 0.025 1212.03 6.44E+03 450.136 0.0743 135.678 0.0858 3.57 1215.60 657.56 6.85 0.025 1215.60 6.44E+03 450.136 0.0743 135.678 0.0858 3.57 1219.17 659.54 6.875 0.025 1219.17 6.44E+03 450.136 0.0744 135.678 0.0859 3.57 1222.73 661.52 6.9 0.025 1222.73 6.44E+03 450.1_36 0.0744 135.678 0.0859 3.56 1226.30 663.50 6.925 0.025 1226.30 6.44E+03 450.136 0.0744 135.678 0.0860 3.56 1229.86 665.48 6.95 0.025 1229.86 6.44E+03 450.136 0.0744 135.678 0.0860 3.56 1233.42 667.46 6.975 0.025 1233.42 6.44E+03 450.136 0.0744 135.678 0.0861 3.56 1236.99 669.44 7 0.025 1236.99 6.44E+03 450.136 0.0745 135.678 0.0861 3.56 1240.55 671.41 7.025 0.025 1240.55 6.44E+03 450.136 0.0745 135.678 0.0862 3.56 1244.10 673.39 7.05 0.025 1244.10 6.44E+03 450.136 0.0745 135.678 0.0862 3.56 1247.66 675.37 7.075 0.025 1247.66 6.44E+03 450.136 0.0745 135.678 0.0863 3.56 1251.22 677.34 7.1 0.025 1251.22 6.44E+03 450.136 0.0745 135.678 0.0863 3.56 1254.77 679.32 7.125 0.025 1254.77 6.44E+03 450.136 0.0746 135.678 0.0864 3.55 1258.33 681.29 7.15 0.025 1258.33 6.44E+03 450.136 0.0746 135.678 0.0864 3.55 1261.88 683.27 7.175 0.025 1261.88 6.44E+03 450.136 0.0746 135.678 0.0864 3.55 1265.43 685.24 7.2 0.025 1265.43 6.44E+03 450.136 0.0746 135.678 0.0865 3.55 1268.98 687.21 7.225 0.025 1268.98 6.44E+03 450.136 0.0746 135.678 0.0865 3.55 1272.53 689.19 7.25 0.025 1272.53 6.44E+03 450.136 0.0747 135.678 0.0866 3.55 1276.08 691.16 7.275 0.025 1276.08 6.44E+03 450.136 0.0747 135.678 0.0866 3.55 1279.63 693.13 7.3 0.025 1279.63 6.44E+03 450.136 0.0747 135.678 0.0867 3.55 1283.17 695.10 7.325 0.025 1283.17 6.44E+03 450.136 0.0747 135.678 0.0867 3.54 1286.72 697.07 7.35 0.025 1286.72 6.44E+03 450.136 0.0747 135.678 0.0868 3.54 1290.26 699.04 7.375 0.025 1290.26 6.44E+03 450.136 0.0747 135.678 0.0868 3.54 1293.81 701.00 7.4 0.025 1293.81 6.44E+03 450.136 0.0748 135.678 0.0869 3.54 1297.35 702.97 7.425 0.025 1297.35 6.44E+03 450.136 0.0748 135.678 0.0869 3.54 1300.89 704.94 7.45 0.025 1300.89 6.44E+03 450.136 0.0748 135.678 0.0870 3.54 1304.43 706.90 7.475 0.025 1304.43 6.44E+03 450.136 0.0748 135.678 0.0870 3.54 1307.97 708.87

Attachment 1 M1418, Rev. 1 Page 10 of 24 7.5 0.025 1307.97 6.44E+03 450.136 0.0748 135.678 0.0870 3.54 1311.50 710.83 7.525 0.025 1311.50 6.44E+03 450.136 0.0749 135.678 0.0871 3.54 1315.04 712.80 7.55 0.025 1315.04 6.44E+03 450.136 0.0749 135.678 0.0871 3.53 1318.57 714.76 7.575 0.025 1318.57 6.44E+03 450.136 0.0749 135.678 0.0872 3.53 1322.11 716.73 7.6 0.025 1322.11 6.446+03 450.136 0.0749 135.678 0.0872 3.53 1325.64 718.69 7.625 0.025 1325.64 6.44E+03 450.136 0.0749 135.678 0.0873 3.53 1329.17 720.65 7.65 0.025 1329.17 6.44E+03 450.136 0.0749 135.678 0.0873 3.53 1332.70 722.61 7.675 0.025 1332.70 6.44E+03 450.136 0.0750 135.678 0.0874 3.53 1336.23 724.57 7.7 0.025 1336.23 6.44E+03 450.136 0.0750 135.678 0.0874 3.53 1339.76 726.53 7.725 0.025 1339.76 6.44E+03 450.136 0.0750 135.678 0.0875 3.53 1343.28 728.49 7.75 0.025 1343.28 6.44E+03 450.136 0.0750 135.678 0.0875 3.53 1346.81 730.45 7.775 0.025 1346.81 6.44E+03 450.136 0.0750 135.678 0.0875 3.52 1350.34 732.41 7.8 0.025 1350.34 6.44E+03 450.136 0.0751 135.678 0.0876 3.52 1353.86 734.37 7.825 0.025 1353.86 6.44E+03 450.136 0.0751 135.678 0.0876 3.52 1357.38 736.32 7.85 0.025 1357.38 6.44E+03 450.136 0.0751 135.678 0.0877 3.52 1360.90 738.28 7.875 0.025 1360.90 6.44E+03 450.136 0.0751 135.678 0.0877 3.52 1364.42 740.24 7.9 0.025 1364.42 6.44E+03 450.136 0.0751 135.678 0.0878 3.52 1367.94 742.19 7.925 0.025 1367.94 6.44E+03 450.136 0.0751 135.678 0.0878 3.52 1371.46 744.14 7.95 0.025 1371.46 6.44E+03 450.136 0.0752 135.678 0.0879 3.52 1374.98 746.10 7.975 0.025 1374.98 6.44E+03 450.136 0.0752 135.678 0.0879 3.52 1378.49 748.05 8 0.025 1378.49 6.44E+03 450.136 0.0752 135.678 0.0880 3.51 1382.01 750.01 8.025 0.025 1382.01 6.44E+03 450.136 0.0752 135.678 0.0880 3.51 1385.52 751.96 8.05 0.025 1385.52 6.44E+03 450.136 0.0752 135.678 0.0881 3.51 1389.04 753.91 8.075 0.025 1389.04 6.44E+03 450.136 0.0752 135.678 0.0881 3.51 1392.55 755.86 8.1 0.025 1392.55 6.44E+03 450.136 0.0753 135.678 0.0881 3.51 1396.06 757.81 8.125 0.025 1396.06 6.44E+03 450.136 0.0753 135.678 0.0882 3.51 1399.57 759.76 8.15 0.025 1399.57 6.44E+03 450.136 0.0753 135.678 0.0882 3.51 1403.08 761.71 8.175 0.025 1403.08 6.44E+03 450.136 0.0753 135.678 0.0883 3.51 1406.58 763.66 8.2 0.025 1406.58 6.44E+03 450.136 0.0753 135.678 0.0883 3.51 1410.09 765.61 8.225 0.025 1410.09 6.44E+03 450.136 0.0754 135.678 0.0884 3.51 1413.60 767.55 8.25 0.025 1413.60 6.44E+03 450.136 0.0754 135.678 0.0884 3.50 1417.10 769.50 8.275 0.025 1417.10 6.44E+03 450.136 0.0754 135.678 0.0885 3.50 1420.60 771.45 8.3 0.025 1420.60 6.44E+03 450.136 0.0754 135.678 0.0885 3.50 1424.11 773.39 8.325 0.025 1424.11 6.44E+03 450.136 0.0754 135.678 0.0886 3.50 1427.61 775.34 8.35 0.025 1427.61 6.44E+03 450.136 0.0754 135.678 0.0886 3.50 1431.11 777.28 8.375 0.025 1431.11 6.44E+03 450.136 0.0755 135.678 0.0886 3.50 1434.61 779.23

Attachment 1 M1418, Rev. 1 Page 11 of 24 8.4 0.025 1434.61 6.44E+03 450.136 0.0755 135.678 0.0887 3.50 1438.10 781.17 8.425 0.025 1438.10 6.44E+03 450.136 0.0755 135.678 0.0887 3.50 1441.60 783.11 8.45 0.025 1441.60 6.44E+03 450.136 0.0755 135.678 0.0888 3.50 1445.10 785.05 8.475 0.025 1445.10 6.44E+03 450.136 0.0755 135.678 0.0888 3.49 1448.59 786.99 8.5 0.025 1448.59 6.44E+03 450.136 0.0755 135.678 0.0889 3.49 1452.08 788.94 8.525 0.025 1452.08 6.44E+03 450.136 0.0756 135.678 0.0889 3.49 1455.58 790.88 8.55 0.025 1455.58 6.44E+03 450.136 0.0756 135.678 0.0890 3.49 1459.07 792.82 8.575 0.025 1459.07 6.44E+03 450.136 0.0756 135.678 0.0890 3.49 1462.56 794.76 8.6 0.025 1462.56 6.44E+03 450.136 0.0756 135.678 0.0891 3.49 1466.05 796.69 8.625 0.025 1466.05 6.44E+03 450.136 0.0756 135.678 0.0891 3.49 1469.54 798.63 8.65 0.025 1469.54 6.44E+03 450.136 0.0756 135.678 0.0891 3.49 1473.03 800.57 8.675 0.025 1473.03 6.44E+03 450.136 0.0757 135.678 0.0892 3.49 1476.51 802.51 8.7 0.025 1476.51 6.44E+03 450.136 0.0757 135.678 0.0892 3.49 1480.00 804.44 8.725 0.025 1480.00 6.44E+03 450.136 0.0757 135.678 0.0893 3.48 1483.48 806.38 8.75 0.025 1483.48 6.44E+03 450.136 0.0757 135.678 0.0893 3.48 1486.97 808.31 8.775 0.025 1486.97 6.44E+03 450.136 0.0757 135.678 0.0894 3.48 1490.45 810.25 8.8 0.025 1490.45 6.44E+03 450.136 0.0757 135.678 0.0894 3.48 1493.93 812.18 8.825 0.025 1493.93 6.44E+03 450.136 0.0758 135.678 0.0895 3.48 1497.41 814.12 8.85 0.025 1497.41 6.44E+03 450.136 0.0758 135.678 0.0895 3.48 1500.89 816.05 8.875 0.025 1500.89 6.44E+03 450.136 0.0758 135.678 0.0895 3.48 1504.37 817.98 8.9 0.025 1504.37 6.44E+03 450.136 0.0758 135.678 0.1010 3.36 1507.73 819.85 8.925 0.025 1507.73 6.44E+03 450.136 0.0758 135.678 0.1199 3.19 1510.93 821.63 8.95 0.025 1510.93 6.44E+03 450.136 0.0758 135.678 0.1218 3.18 1514.10 823.39 8.975 0.025 1514.10 6.44E+03 450.136 0.0758 135.678 0.1236 3.16 1517.26 825.15 9 0.025 1517.26 6.44E+03 450.136 0.0759 135.678 0.1255 3.14 1520.41 826.89 9.025 0.025 1520.41 6.44E+03 450.136 0.0759 135.678 0.1273 3.13 1523.54 828.63 9.05 0.025 1523.54 6.44E+03 450.136 0.0759 135.678 0.1291 3.11 1526.65 830.36 9.075 0.025 1526.65 6.44E+03 450.136 0.0759 135.678 0.1309 3.10 1529.75 832.08 9.1 0.025 1529.75 6.44E+03 450.136 0.0759 135.678 0.1328 3.08 1532.83 833.80 9.125 0.025 1532.83 6.44E+03 450.136 0.0759 135.678 0.1346 3.07 1535.90 835.50 9.15 0.025 1535.90 6.44E+03 450.136 0.0760 135.678 0.1363 3.05 1538.96 837.20 9.175 0.025 1538.96 6.44E+03 450.136 0.0760 135.678 0.1381 3.04 1542.00 838.89 9.2 0.025 1542.00 6.44E+03 450.136 0.0760 135.678 0.1399 3.03 1545.02 840.57 9.225 0.025 1545.02 6.44E+03 450.136 0.0760 135.678 0.1411 3.02 1548.04 842.24 9.25 0.025 1548.04 6.44E+03 450.136 0.0760 135.678 0.1416 3.01 1551.05 843.92 9.275 0.025 1551.05 6.44E+03 450.136 0.0760 135.678 0.1421 3.01 1554.06 845.59

Attachment 1 M1418, Rev. 1 Page 12 of 24 9.3 0.025 1554.06 6.44E+03 450.136 0.0760 135.678 0.1426 3.00 1557.06 847.26 9.325 0.025 1557.06 6.44E+03 450.136 0.0760 135.678 0.1431 3.00 1560.06 848.92 9.35 0.025 1560.06 6.44E+03 450.136 0.0761 135.678 0.1436 3.00 1563.05 850.59 9.375 0.025 1563.05 6.44E+03 450.136 0.0761 135.678 0.1441 2.99 1566.05 852.25 9.4 0.025 1566.05 6.44E+03 450.136 0.0761 135.678 0.1446 2.99 1569.03 853.91 9.425 0.025 1569.03 6.44E+03 450.136 0.0761 135.678 0.1451 2.98 1572.02 855.56 9.45 0.025 1572.02 6.44E+03 450.136 0.0761 135.678 0.1456 2.98 1574.99 857.22 9.475 0.025 1574.99 6.44E+03 450.136 0.0761 135.678 0.1461 2.97 1577.97 858.87 9.5 0.025 1577.97 6.44E+03 450.136 0.0761 135.678 0.1466 2.97 1580.94 860.52 9.525 0.025 1580.94 6.44E+03 450.136 0.0762 135.678 0.1477 2.96 1583.90 862.17 9.55 0.025 1583.90 6.44E+03 450.136 0.0762 135.678 0.1498 2.95 1586.85 863.81 9.575 0.025 1586.85 6.44E+03 450.136 0.0762 135.678 0.1518 2.93 1589.78 865.43 9.6 0.025 1589.78 6.44E+03 450.136 0.0762 135.678 0.1538 2.92 1592.70 867.05 9.625 0.025 1592.70 6.44E+03 450.136 0.0762 135.678 0.1558 2.90 1595.60 868.67 9.65 0.025

1595.60 6.44E+03 450.136 0.0762 135.678 0.1578 2.89 1598.49 870.27 9.675 0.025 1598.49 6.44E+03 450.136 0.0762 135.678 0.1598 2.87 1601.36 871.87 9.7 0.025 1601.36 6.44E+03 450.136 0.0763 135.678 0.1618 2.86 1604.22 873.46 9.725 0.025 1604.22 6.44E+03 450.136 0.0763 135.678 0.1638 2.85 1607.07 875.04 9.75 0.025 1607.07 6.44E+03 450.136 0.0763 135.678 0.1658 2.83 1609.90 876.61 9.775 0.025 1609.90 6.44E+03 450.136 0.0763 135.678 0.1677 2.82 1612.72 878.18 9.8 0.025 1612.72 6.44E+03 450.136 0.0763 135.678 0.1697 2.81 1615.52 879.73 9.825 0.025 1615.52 6.44E+03 450.136 0.0763 135.678 0.1716 2.79 1618.31 881.29 9.85 0.025 1618.31 6.44E+03 450.136 0.0763 135.678 0.1734 2.78 1621.09 882.83 9.875 0.025 1621.09 6.44E+03 450.136 0.0763 135.678 0.1752 2.77 1623.86 884.37 9.9 0.025 1623.86 6.44E+03 450.136 0.0764 135.678 0.1770 2.76 1626.62 885.90 9.925 0.025 1626.62 6.44E+03 450.136 0.0764 135.678 0.1787 2.74 1629.36 887.42 9.95 0.025 1629.36 6.44E+03 450.136 0.0764 135.678 0.1805 2.73 1632.10 888.94 9.975 0.025 1632.10 6.44E+03 450.136 0.0764 135.678 0.1823 2.72 1634.82 890.45 10 0.025 1634.82 6.44E+03 450.136 0.0764 135.678 0.1840 2.71 1637.53 891.96 10.025 0.025 1637.53 6.44E+03 450.136 0.0764 135.678 0.1858 2.70 1640.23 893.46 10.05 0.025 1640.23 6.44E+03 450.136 0.0764 135.678 0.1875 2.69 1642.92 894.95 10.075 0.025 1642.92 6.44E+03 450.136 0.0764 135.678 0.1892 2.68 1645.60 896.44 10.1 0.025 1645.60 6.44E+03 450.136 0.0765 135.678 0.1910 2.67 1648.26 897.92

Attachment 1 M1418, Rev. 1 Page 13 of 24 U02 Specific Heat Constants Zircaloy Specific Heat Capacity Interpolation (Design Input 3.2) (Design Input 3.1) y 2 Temperature Specific Heat Capicity R 8.3143 j/mol-K K OF J/kg-K BTU/lbm-°F 8 535.285 K 300 80.33 281 0.0671 K1 296.7 J/kg-K 400 260.33 302 0.0721 K2 2.430E-02 J/kQ*K2 640 692.33 331 0.0791 K3 8.745E+07 J/kg 1090 1502.33 375 0.0896 Ed 1.577E+05 J/mol*-K 1093 1507.73 502 0.1199 1113 1543.73 590 0.1409 1133 1579.73 615 0.1469 1153 1615.73 719 0.1717 1173 1651.73 816 0.1949 1193 1687.73 770 0.1839 1213 1723.73 619 0.1478 1233 1759.73 469 0.1120 1248 1786.73 356 0.0850 U0 2 Cp Calculation Zirc Cp Interpolation Elapsed Cp Initial Temp Part 1 Part 2 Part 3 Cp Cp Time hr OF K - - - j/kg-K BTU/lbm-°F Table Match BTU/lbm-°F 0 125.00 324.82 2.378E+02 7.893E+OO 6.860E-19 245.67 0.0587 1 0.0684 0.025 129.92 327.55 2.386E+02 7.959E+OO 1.098E-18 246.59 0.0589 1 0.0685 0.05 134.83 330.28 2.395E+02 8.026E+OO 1.742E-18 247.50 0.0591 1 0.0686 0.075 139.72 332.99 2.403E+02 8.092E+OO 2.738E-18 248.38 0.0593 1 0.0688 0.1 144.59 335.70 2.411E+02 8.158E+OO 4.265E-18 249.25 0.0595 1 0.0689 0.125 149.45 338.40 2.419E+02 8.223E+OO 6.586E-18 250.09 0.0597 1 0.0690 0.15 154.29 341.09 2.426E+02 8.288E+OO 1.009E-17 250.92 0.0599 1 0.0692 0.175 159.12 343.77 2.434E+02 8.354E+OO 1.532E-17 251.73 0.0601 1 0.0693 0.2 163.93 346.45 2.441E+02 8.419E+OO 2.310E-17 252.52 0.0603 1 0.0694 0.225 168.73 349.11 2.448E+02 8.483E+OO 3.456E-17 253.30 0.0605 1 0.0696 0.25 173.52 351.77 2.455E+02 8.548E+OO 5.132E-17 254.06 0.0607 1 0.0697 0.275 178.29 354.42 2.462E+02- 8.612E+OO 7.568E-17 254.81 0.0609 1 0.0698

Attachment 1 M1418, Rev. 1 Page 14 of 24 0.3 183.05 357.07 2.469E+02 8.677E+OO 1.108E-16 255.54 0.0610 1 0.0700 0.325 187.80 359.70 2.475E+02 8.741E+OO 1.612E-16 256.26 0.0612 1 0.0701 0.35 192.53 362.33 2.482E+02 8.805E+OO 2.330E-16 256.96 0.0614 1 0.0702 0.375 197.25 364.96 2.488E+02 8.868E+OO 3.345E-16 257.65 0.0615 1 0.0704 0.4 201.96 367.57 2.494E+02 8.932E+OO 4.774E-16 258.32 0.0617 1 0.0705 0.425 206.66 370.18 2.500E+02 8.995E+OO 6.773E-16 258.98 0.0619 1 0.0706 0.45 211.35 372.79 2.506E+02 9.059E+OO 9.553E-16 259.64 0.0620 1 0.0708 0.475 216.03 375.39 2.512E+02 9.122E+OO 1.340E-15 260.27 0.0622 1 0.0709 0.5 220.69 377.98 2.517E+02 9.185E+OO 1.869E-15 260.90 0.0623 1 0.0710 0.525 225.34 380.56 2.523E+02 9.248E+OO 2.592E-15 261.52 0.0625 1 0.0712 0.55 229.99 383.14 2.528E+02 9.310E+OO 3.577E-15 262.12 0.0626 1 0.0713 0.575 234.62 385.72 2.533E+02 9.373E+OO 4.911E-15 262.71 0.0627 1 0.0714 0.6 239.25 388.29 2.539E+02 9.435E+OO 6.710E-15 263.30 0.0629 1 0.0715 0.625 243.86 390.85 2.544E+02 9.498E+OO 9.123E-15 263.87 0.0630 1 0.0717 0.65 248.46 393.41 2.549E+02 9.560E+OO 1.234E-14 264.43 0.0632 1 0.0718 0.675 253.06 395.96 2.554E+02 9.622E+OO 1.663E-14 264.98 0.0633 1 0.0719 0.7 257.64 398.51 2.558E+02 9.684E+OO 2.230E-14 265.53 0.0634 1 0.0721 0.725 262.22 401.05 2.563E+02 9.746E+OO 2.977E-14 266.06 0.0635 2 0.0722 0.75 266.79 403.59 2.568E+02 9.807E+OO 3.957E-14 266.59 0.0637 2 0.0722 0.775 271.35 406.12 2.572E+02 9.869E+OO 5.239E-14 267.10 0.0638 2 0.0723 0.8 275.90 408.65 2.577E+02 9.930E+OO 6.908E-14 267.61 0.0639 2 0.0724 0.825 280.44 411.17 2.581E+02 9.991 E+OO 9.073E-14 268.11 0.0640 2 0.0725 0.85 284.98 413.69 2.586E+02 1.005E+01 1.187E-13 268.61 0.0642 2 0.0725 0.875 289.50 416.21 2.590E+02 1.011 E+01 1.547E-13 269.09 0.0643 2 0.0726 0.9 294.02 418.72 2.594E+02 1.017E+01 2.009E-13 269.57 0.0644 2 0.0727 0.925 298.54 421.23 2.598E+02 1.024E+01 2.600E-13 270.04 0.0645 2 0.0727 0.95 303.04 423.73 2.602E+02 1.030E+01 3.352E-13 270.50 0.0646 2 0.0728 0.975 307.54 426.23 2.606E+02 1.036E+01 4.307E-13 270.95 0.0647 2 0.0729 1 312.03 428.72 2.610E+02 1.042E+01 5.516E-13 271.40 0.0648 2 0.0730 1.025 316.52 431.22 2.614E+02 1.048E+01 7.041 E-13 271.84 0.0649 2 0.0730 1.05 321.00 433.70 2.617E+02 1.054E+01 8.958E-13 272.28 0.0650 2 0.0731 1.075 325.47 436.19 2.621E+02 1.060E+01 1.136E-12 272.71 0.0651 2 0.0732 1.1 329.93 438.67 2.625E+02 1.066E+01 1.436E-12 273.13 0.0652 2 0.0732 1.125 334.39 441.15 2.628E+02 1.072E+01 1.811E-12 273.55 0.0653 2 0.0733 1.15 338.84 443.62 2.632E+02 1.078E+01 2.276E-12 273.96 0.0654 2 0.0734 1.175 343.29 446.09 2.635E+02 1.084E+01 2.851 E-12 274.36 0.0655 2 0.0735

Attachment 1 M1418, Rev. 1 Page 15 of 24 1.2 347.73 448.56 2.639E+02 1.090E+01 3.563E-12 274.76 0.0656 2 0.0735 1.225 352.16 451.02 2.642E+02 1.096E+01 4.440E-12 275.15 0.0657 2 0.0736 1.25 356.59 453.48 2.645E+02 1.102E+01 5.517E-12 275.54 0.0658 2 0.0737 1.275 361.01 455.93 2.648E+02 1.108E+01 6.837E-12 275.93 0.0659 2 0.0737 1.3 365.43 458.39 2.652E+02 1.114E+01 8.451 E-12 276.30 0.0660 2 0.0738 1.325 369.84 460.84 2.655E+02 1.120E+01 1.042E-11 276.68 0.0661 2 0.0739 1.35 374.24 . 463.29 2.658E+02 1.126E+01 1.281 E-11 277.04 0.0662 2 0.0740 1.375 378.64 465.73 2.661E+02 1.132E+01 1.572E-11 277.40 0.0663 2 0.0740 1.4 383.04 468.17 2.664E+02 1.138E+01 1.923E-11 277.76 0.0663 2 0.0741 1.425 387.43 470.61 2.667E+02 1.144E+01 2.348E-11 278.12 0.0664 2 0.0742 1.45 391.81 473.04 2.670E+02 1.149E+01 2.860E-11 278.46 0.0665 2 0.0742 1.475 396.19 475.48 2.673E+02 1.155E+01 3.475E-11 278.81 0.0666 2 0.0743 1.5 400.56 477.91 2.675E+02 1.161E+01 4.213E-11 279.15 0.0667 2 0.0744 1.525 404.93 480.33 2.678E+02. 1.167E+01 5.097E-11 279.48 0.0668 2 0.0744 1.55 409.29 482.76 2.681E+02 1.173E+01 6.152E-11 279.81 0.0668 2 0.0745 1.575 413.65 485.18 2.684E+02 1.179E+01 7.410E-11 280.14 0.0669 2 0.0746 1.6 418.00 487.59 2.686E+02 1.185E+01 8.906E-11 280.46 0.0670 2 0.0747 1.625 422.35 490.01 2.689E+02 1.191 E+01 1.068E-10 280.78 0.0671 2 0.0747 1.65 426.69 492.42 2.691E+02 1.197E+01 1.279E-10 281.10 0.0671 2 0.0748 1.675 431.03 494.83 2.694E+02 1.202E+01 1.528E-10 281.41 0.0672 2 0.0749 1.7 435.36 497.24 2.696E+02 1.208E+01 1.821 E-10 281.72 0.0673 2 0.0749 1.725 439.69 499.65 2.699E+02 1.214E+01 2.167E-10 282.02 0.0674 2 0.0750 1.75 444.02 502.05 2.701E+02 1.220E+01 2.574E-10 282.32 0.0674 2 0.0751 1.775 448.34 504.45 2.704E+02 1.226E+01 3.052E-10 282.62 0.0675 2 0.0751 1.8 452.65 506.85 2.706E+02 1.232E+01 3.612E-10 282.91 0.0676 2 0.0752 1.825 456.96 509.24 2.708E+02 1.237E+01 4.267E-10 283.20 0.0676 2 0.0753 1.85 461.27 511.63 2.711 E+02 1.243E+01 5.031E-10 283.49 0.0677 2 0.0754 1.875 465.57 514.02 2.713E+02 1.249E+01 5.922E-10 283.77 0.0678 2 0.0754 1.9 469.87 516.41 2.715E+02 1.255E+01 6.959E-10 284.05 0.0678 2 0.0755 1.925 474.17 518.80 2.717E+02 1.261 E+01 8.164E-1 O 284.33 0.0679 2 0.0756 1.95 478.46 521.18 2.719E+02 1.266E+01 9.562E-10 284.60 0.0680 2 0.0756 1.975 482.74 523.56 2.722E+02 1.272E+01 1.118E-09 284.87 0.0680 2 0.0757 2 487.03 525.94 2.724E+02 1.278E+01 1.305E-09 285.14 0.0681 2 0.0758 2.025 491.30 528.32 2.726E+02 1.284E+01 1.521 E-09 285.41 0.0682 2 0.0758 2.05 495.58 530.69 2.728E+02 1.290E+01 1.771 E-09 285.67 0.0682 2 0.0759 2.075 499.85 533.07 2.730E+02 1.295E+01 2.057E-09 285.93 0.0683 2 0.0760

Attachment 1 M1418, Rev. 1 Page 16 of 24 2.1 504.11 535.44 2.732E+02 1.301 E+01 2.387E-09 286.19 0.0684 2 0.0760 2.125 508.38 537.80 2.734E+02 1.307E+01 2.765E-09 286.44 0.0684 2 0.0761 2.15 512.63 540.17 2.736E+02 1.313E+01 3.199E-09 286.69 0.0685 2 0.0762 .

2.175 516.89 542.53 2.738E+02 1.318E+01 3.696E-09 286.94 0.0685 2 0.0762 2.2 521.14 544.89 2.739E+02 1.324E+01 4.263E-09 287.19 0.0686 2 0.0763 2.225 525.39 547.25 2.741E+02 1.330E+01 4.911 E-09 287.43 0.0687 2 0.0764 2.25 529.63 549.61 2.743E+02 1.336E+01 5.649E-09 287.67 0.0687 2 0.0764 2.275 533.87 551.97 2.745E+02 1.341 E+01 6.490E-09 287.91 0.0688 2 0.0765 2.3 538.11 554.32 2.747E+02 1.347E+01 7.446E-09 288.15 0.0688 2 0.0766 2.325 542.34 556.67 2.749E+02 1.353E+01 8.531E-09 288.38 0.0689 2 0.0767 2.35 546.57 559.02 2.750E+02 1.358E+01 9.762E-09 288.62 0.0689 2 0.0767 2.375 550.80 561.37 2.752E+02 1.364E+01 1.116E-08 288.85 0.0690 2 0.0768 2.4 555.02 563.72 2.754E+02 1.370E+01 1.273E-08 289.07 0.0690 2 0.0769 2.425 559.24 566.06 2.755E+02 1.376E+01 1.452E-08 289.30 0.0691 2 0.0769 2.45 563.46 568.40 2.757E+02 1.381 E+01 1.653E-08 289.52 0.0692 2 0.0770 2.475 567.67 570.74 2.759E+02 1.387E+01 1.880E-08 289.74 0.0692 2 0.0771 2.5 571.88 573.08 2.760E+02 1.393E+01 2.135E-08 289.96 0.0693 2 0.0771 2.525 576.08 575.42 2.762E+02 1.398E+01 2.423E-08 290.18 0.0693 2 0.0772 2.55 580.29 577.75 2.764E+02 1.404E+01 2.746E-08 290.40 0.0694 2 0.0773 2.575 584.15 579.90 2.765E+02 1.409E+01 3.077E-08 290.59 0.0694 2 0.0773 2.6 588.00 582.04 2.766E+02 1.414E+01 3.445E-08 290.79 0.0695 2 0.0774 2.625 591.86 584.18 2.768E+02 1.420E+01 3.854E-08 290.98 0.0695 2 0.0774 2.65 595.71 586.32 2.769E+02 1.425E+01 4.307E-08 291.17 0.0695 2 0.0775 2.675 599.55 588.46 2.771E+02 1.430E+01 4.809E-08 291.36 0.0696 2 0.0776 2.7 603.40 590.59 2.772E+02 1.435E+01 5.364E-08 291.55 0.0696 2 0.0776 2.725 607.24 592.73 2.773E+02 1.440E+01 5.979E-08 291.73 0.0697 2 0.0777 2.75 611.08 594.86 2.775E+02 1.446E+01 6.658E-08 291.92 0.0697 2 0.0778 2.775 614.92 596.99 2.776E+02 1.451 E+01 7.408E-08 292.10 0.0698 2 0.0778 2.8 618.75 599.12 2.777E+02 1.456E+01 8.235E-08 292.29 0.0698 2 0.0779 2.825 622.59 601.25 2.779E+02 1.461 E+01 9.147E-08 292.47 0.0699 2 0.0779 2.85 626.42 603.38 2.780E+02* 1.466E+01 1.015E-07 292.65 0.0699 2 0.0780 2.875 630.24 605.51 2.781E+02 1.471 E+01 1.126E-07 292.82 0.0699 2 0.0781 2.9 634.07 607.63 2.782E+02 1.477E+01 1.247E-07 293.00 0.0700 2 0.0781 2.925 637.89 609.76 2.784E+02 1.482E+01 1.381 E-07 293.18 0.0700 2 0.0782 2.95 641.71 611.88 2.785E+02 1.487E+01 1.527E-07 293.35 0.0701 2 0.0782 2.975 645.53 614.00 2.786E+02 1.492E+01 1.688E-07 293.52 0.0701 2 0.0783

Attachment 1 M1418, Rev. 1 Page 17 of 24 3 649.34 616.12 2.787E+02 1.497E+01 1.865E-07 293.69 0.0701 2 0.0784 3.025 653.16 618.24 2.788E+02 1.502E+01 2.058E-07 293.86 0.0702 2 0.0784 3.05 656.97 620.35 2.790E+02 1.507E+01 2.269E-07 294.03 0.0702 2 0.0785 3.075 660.77 622.47 2.791E+02 1.513E+01 2.501E-07 294.20 0.0703 2 0.0786 3.1 664.58 624.58 2.792E+02 1.518E+01 2.754E-07 294.36 0.0703 2 0.0786 3.125 668.38 626.70 2.793E+02 1.523E+01 3.030E-07 294.53 0.0703 2 0.0787 3.15 672.18 628.81 2.794E+02 1.528E+01 3.332E-07 294.69 0.0704 2 0.0787 3.175 675.98 630.92 2.795E+02 1.533E+01 3.661E-07 294.86 0.0704 2 0.0788 3.2 679.78 633.03 2.796E+02 1.538E+01 4.020E-07 295.02 0.0705 2 0.0789 3.225 683.57 635.13 2.797E+02 1.543E+01 4.410E-07 295.18 0.0705 2 0.0789 3.25 687.36 637.24 2.799E+02 1.548E+01 4.836E-07 295.34 0.0705 2 0.0790 3.275 691.15 639.35 2.800E+02 1.554E+01 5.299E-07 295.50 0.0706 2 0.0790 3.3 694.94 641.45 2.801E+02 1.559E+01 5.802E-07 295.65 0.0706 3 0.0791 3.325 698.72 643.55 2.802E+02 1.564E+01 6.349E-07 295.81 0.0707 3 0.0791 3.35 702.51 645.65 2.803E+02 1.569E+01 6.943E-07 295.96 0.0707 3 0.0792 3.375 706.29 647.75 2.804E+02 1.574E+01 7.587E-07 296.12 0.0707 3 0.0792 3.4 710.07 649.85 2.805E+02 1.579E+01 8.286E-07 296.27 0.0708 3 0.0793 3.425 713.84 651.95 2.806E+02 1.584E+01 9.044E-07 296.42 0.0708 3 0.0793 3.45 717.62 654.05 2.807E+02 1.589E+01 9.864E-07 296.57 0.0708 3 0.0794 3.475 721.39 656.14 2.808E+02 1.594E+01 1.075E-06 296.72 0.0709 3 0.0794 3.5 725.16 658.24 2.809E+02 1.600E+01 1.171E-06 296.87 0.0709 3 0.0795 3.525 728.93 660.33 2.810E+02 1.605E+01 1.275E-06 297.02 0.0709 3 0.0795 3.55 732.70 662.43 2.811 E+02 1.610E+01 1.388E-06 297.17 0.0710 3 0.0796 3.575 736.46 664.52 2.812E+02 1.615E+01 1.509E-06 297.31 0.0710 3 0.0796 3.6 , 740.22 666.61 2.813E+02 1.620E+01 1.640E-06 297.46 0.0710 3 0.0797 3.625 743.98 668.70 2.814E+02 1.625E+01 1.781 E-06 297.60 0.0711 3 0.0797 3.65 747.74 670.78 2.814E+02 1.630E+01 1.933E-06 297.74 0.0711 3 0.0798 3.675 751.50 672.87 2.815E+02 1.635E+01 2.098E-06 297.89 0.0711 3 0.0798 3.7 755.25 674.96 2.816E+02 1.640E+01 2.274E-06 298.03 0.0712 3 0.0799 3.725 759.01 677.04 2.817E+02 1.645E+01 2.465E-06 298.17 0.0712 3 0.0799 3.75 762.76 679.13 2.818E+02 1.650E+01 2.670E-06 298.31 0.0712 3 0.0800 3.775 766.51 681.21 2.819E+02 1.655E+01 2.890E-06 298.45 0.0713 3 0.0800 3.8 770.25 683.29 2.820E+02 1.660E+01 3.127E-06 298.58 0.0713 3 0.0801 3.825 774.00 685.37 2.821E+02 1.665E+01 3.381 E-06 298.72 0.0713 3 0.0801 3.85 777.74 687.45 2.822E+02 1.671 E+01 3.654E-06 298.86 0.0714 3 0.0802 3.875 781.48 689.53 2.822E+02 1.676E+01 3.947E-06 298.99 0.0714 3 0.0802

Attachment 1 M1418, Rev. 1 Page 18 of 24 3.9 785.22 691.61 2.823E+02 1.681 E+01 4.261E-06 299.13 0.0714 3 0.0803 3.925 788.96 693.68 2.824E+02 1.686E+01 4.598E-06 299.26 0.0715 3 0.0803 3.95 792.70 695.76 2.825E+02 1.691 E+01 4.959E-06 299.40 0.0715 3 0.0804 3.975 796.43 697.84 2.826E+02 1.696E+01 5.346E-06 299.53 0.0715 3 0.0804 4 800.17 699.91 2.827E+02 1.701 E+01 5.760E-06 299.66 0.0716 3 0.0805 4.025 803.90 701.98 2.827E+02 1.706E+01 6.203E-06 299.79 0.0716 3 0.0805 4.05 807.63 704.05 2.828E+02 1.711 E+01 6.677E-06 299.92 0.0716 3 0.0806 4.075 811.35 706.12 2.829E+02 1.716E+01 7.184E-06 300.05 0.0717 3 0.0806 4.1 815.08 708.19 2.830E+02 1.721 E+01 7.725E-06 300.18 0.0717 3 0.0807 4.125 818.80 710.26 2.830E+02 1.726E+01 8.303E-06 300.31 0.0717 3 0.0807 4.15 822.52 712.33 2.831E+02 1.731 E+01 8.920E-06 300.43 0.0718 3 0.0807 4.175 826.24 714.40 2.832E+02 1.736E+01 9.579E-06 300.56 0.0718 3 0.0808 4.2 829.96 716.46 2.833E+02 1.741E+01 1.028E-05 300.69 0.0718 3 0.0808 4.225 833.68 718.53 2.834E+02 1.746E+01 1.103E-05 300.81 0.0718 3 0.0809 4.25 837.39 720.59 2.834E+02 1.751E+01 1.183E-05 300.94 0.0719 3 0.0809 4.275 841.11 722.65 2.835E+02 1.756E+01 1.268E-05 301.06 0.0719 3 0.0810 4.3 844.82 724.72 2.836E+02 1.761 E+01 1.358E-05 301.18 0.0719 3 0.0810 4.325 848.53 726.78 2.836E+02 1.766E+01 1.455E-05 301.30 0.0720 3 0.0811 4.35 852.24 728.84 2.837E+02 1.771 E+01 1.557E-05 301.43 0.0720 3 0.0811 4.375 855.94 730.90 2.838E+02 1.776E+01 1.666E-05 301.55 0.0720 3 0.0812 4.4 859.65 732.96 2.839E+02 1.781 E+01 1.782E-05 301.67 0.0721 3 0.0812 4.425 863.35 735.01 2.839E+02 1.786E+01 1.906E-05 301.79 0.0721 3 0.0813 4.45 867.05 737.07 2.840E+02 1.791 E+01 2.036E-05 301.91 0.0721 3 0.0813 4.475 870.75 739.12 2.841E+02 1.796E+01 2.175E-05 302.03 0.0721 3 0.0814 4.5 874.45 741.18 2.841E+02 1.801 E+01 2.323E-05 302.14 0.0722 3 0.0814

4.525 878.15 743.23 2.842E+02 1.806E+01 2.479E-05 302.26 0.0722 3 0.0815 4.55 881.84 745.29 2.843E+02 1.811 E+01 2.645E-05 302.38 0.0722 3 0.0815 4.575 885.54 747.34 2.843E+02 1.816E+01 2.821E-05 302.49 0.0722 3 0.0816 4.6 889.23 749.39 2.844E+02 1.821 E+01 3.007E-05 302.61 0.0723 3 0.0816 4.625 892.92 751.44 2.845E+02 1.826E+01 3.205E-05 302.73 0.0723 3 0.0817 4.65 896.61 753.49 2.845E+02 1.831 E+01 3.414E-05 302.84 0.0723 3 0.0817 4.675 900.30 755.54 2.846E+02 1.836E+01 3.635E-05 302.95 0.0724 3 0.0818 4.7 903.98 757.58 2.847E+02 1.841 E+01 3.869E-05 303.07 0.0724 3 0.0818 4.725 907.67 759.63 2.847E+02 1.846E+01 4.117E-05 303.18 0.0724 3 0.0819 4.75 911.35 761.68 2.848E+02 1.851 E+01 4.379E-05 303.29 0.0724 3 0.0819 4.775 915.03 763.72 2.848E+02 1.856E+01 4.656E-05 303.41 0.0725 3 0.0819

Attachment 1 M1418, Rev. 1 Page 19 of 24 4.8 918.71 765.77 2.849E+02 1.861 E+01 4.949E-05 303.52 0.0725 3 0.0820 4.825 922.39 767.81 2.850E+02 1.866E+01 5.258E-05 303.63 0.0725 3 0.0820 4.85 926.06 769.85 2.850E+02 1.871 E+01 5.584E-05 303.74 0.0725 3 0.0821 4.875 929.74 771.89 2.851E+02 1.876E+01 5.929E-05 303.85 0.0726 3 0.0821 4.9 933.41 773.93 2.851E+02 1.881 E+01 6.292E-05 303.96 0.0726 3 0.0822 4.925 937.08 775.97 2.852E+02 1.886E+01 6.676E-05 304.07 0.0726 3 0.0822 4.95 940.75 778.01 2.853E+02 1.891 E+01 7.080E-05 304.17 0.0727 3 0.0823 4.975 944.42 780.05 2.853E+02 1.896E+01 7.506E-05 304.28 0.0727 3 0.0823 5 948.09 782.09 2.854E+02 1.900E+01 7.955E-05 304.39 0.0727 3 0.0824 5.025 951.75 784.12 2.854E+02 1.905E+01 8.429E-05 304.50 0.0727 3 0.0824 5.05 955.42 786.16 2.855E+02 1.910E+01 8.927E-05 304.60 0.0728 3 0.0825 5.075 959.08 788.19 2.856E+02 1.915E+01 9.452E-05 304.71 0.0728 3 0.0825 5.1 962.74 790.23 2.856E+02 1.920E+01 1.000E-04 304.81 0.0728 3 0.0826 5.125 966.40 792.26 2.857E+02 1.925E+01 1.058E-04 304.92 0.0728 3 0.0826 5.15 970.06 794.29 2.857E+02 1.930E+01 1.120E-04 305.02 0.0729 3 0.0827 5.175 973.71 796.32 2.858E+02 1.935E+01 1.184E-04 305.13 0.0729 3 0.0827 5.2 977.37 798.35 2.858E+02 1.940E+01 1.251 E-04 305.23 0.0729 3 0.0828 5.225 981.02 800.38 2.859E+02 1.945E+01 1.322E-04 305.33 0.0729 3 0.0828 5.25 984.67 802.41 2.859E+02 1.950E+01 1.397E-04 305.44 0.0730 3 0.0829 5.275 988.32 804.44 2.860E+02 1.955E+01 1.475E-04 305.54 0.0730 3 0.0829 5.3 991.97 806.47 2.860E+02 1.960E+01 1.558E-04 305.64 0.0730 3 0.0829 5.325

995.62 808.50 2.861E+02 1.965E+01 1.644E-04 305.74 0.0730 3 0.0830 5.35 999.27 810.52 2.861E+02 1.970E+01 1.734E-04 305.84 0.0730 3 0.0830 5.375 1002.91 812.55 2.862E+02 1.974E+01 1.829E-04 305.94 0.0731 3 0.0831 5.4 1006.56 814.57 2.862E+02 1.979E+01 1.929E-04 306.04 0.0731 3 0.0831 5.425 1010.20 816.59 2.863E+02 1.984E+01 2.033E-04 306.14 0.0731 3 0.0832 5.45 1013.84 818.62 2.864E+02 1.989E+01 2.143E-04 306.24 0.0731 3 0.0832 5.475 1017.48 820.64 2.864E+02 1.994E+01 2.258E-04 306.34 0.0732 3 0.0833 5.5 1021.12 822.66 2.864E+02 1.999E+01 2.378E-04 306.44 0.0732 3 0.0833 5.525 1024.75 824.68 2.865E+02 2.004E+01 2.504E-04 306.54 0.0732 3 0.0834 5.55 1028.39 826.70 2.865E+02 2.009E+01 2.636E-04 306.64 0.0732 3 0.0834 5.575 1032.02 828.72 2.866E+02 2.014E+01 2.773E-04 306.73 0.0733 3 0.0835 5.6 1035.66 830.74 2.866E+02 2.019E+01 2.918E-04 306.83 0.0733 3 0.0835 5.625 1039.29 832.75 2.867E+02 2.024E+01 3.069E-04 306.93 0.0733 3 0.0836 5.65 1042.92 834.77 2.8676+02 2.028E+01 3.227E-04 307.02 0.0733 3 0.0836 5.675 1046.54 836.79 2.868E+02 2.033E+01 3.392E-04 307.12 0.0734 3 0.0837

Attachment 1 M1418, Rev. 1 Page 20 of 24 5.7 1050.17 838.80 2.868E+02 2.038E+01 3.564E-04 307.22 0.0734 3 0.0837 5.725 1053.80 840.81 2.869E+02 2.043E+01 3.745E-04 307.31 0.0734 3 0.0837 5.75 1057.42 842.83 2.869E+02 2.048E+01 3.933E-04 307.41 0.0734 3 0.0838 5.775 1061.04 844.84 2.870E+02 2.053E+01 4.130E-04 307.50 0.0734 3 0.0838 5.8 1064.67 846.85 2.870E+02 2.058E+01 4.336E-04 307.59 0.0735 3 0.0839 5.825 1068.29 848.86 2.871E+02 2.063E+01 4.550E-04 307.69 0.0735 3 0.0839 5.85 1071.90 850.87 2.871E+02 2.068E+01 4.775E-04 307.78 0.0735 3 0.0840 5.875 1075.52 852.88 2.871E+02 2.073E+01 5.008E-04 307.88 0.0735 3 0.0840 5.9 1079.14 854.89 2.872E+02 2.077E+01 5.252E-04 307.97 0.0736 3 0.0841 5.925 1082.75 856.90 2.872E+02 2.082E+01 5.507E-04 308.06 0.0736 3 0.0841 5.95 1086.37 858.91 2.873E+02 2.087E+01 5.772E-04 308.15 0.0736 3 0.0842 5.975 1089.98 860.92 2.873E+02 2.092E+01 6.049E-04 308.24 0.0736 3 0.0842 6 1093.59 862.92 2.874E+02 2.097E+01 6.337E-04 308.34 0.0736 3 0.0843 6.025 1097.20 864.93 2.874E+02 2.102E+01 6.637E-04 308.43 0.0737 3 0.0843 6.05 1100.81 866.93 2.875E+02 2.107E+01 6.950E-04 308.52 0.0737 3 0.0844 6.075 1104.41 868.94 2.875E+02 2.112E+01 7.276E-04 308.61 0.0737 3 0.0844 6.1 1108.02 870.94 2.875E+02 2.116E+01 7.616E-04 308.70 0.0737 3 0.0845 6.125 1111.62 872.94 2.876E+02 2.121E+01 7.969E-04 308.79 0.0738 3 0.0845 6.15 1115.23 874.94 2.876E+02 2.126E+01 8.337E-04 308.88 0.0738 3 0.0845 6.175 1118.83 876.94 2.877E+02 2.131E+01 8.720E-04 308.97 0.0738 3 0.0846 6.2 1122.43 878.94 2.877E+02 2.136E+01 9.118E-04 309.06 0.0738 3 0.0846 6.225 1126.03 880.94 2.877E+02 2.141 E+01 9.533E-04 309.15 0.0738 3 0.0847 6.25 1129.63 882.94 2.878E+02 2.146E+01 9.963E-04 309.23 0.0739 3 0.0847 6.275 1133.22 884.94 2.878E+02 2.150E+01 1.041 E-03 309.32 0.0739 3 0.0848 6.3 1136.82 886.94 2.879E+02 2.155E+01 1.088E-03 309.41 0.0739 3 0.0848 6.325 1140.41 888.93 2.879E+02 2.160E+01 1.136E-03 309.50 0.0739 3 0.0849 6.35 1144.00 890.93 2.879E+02 2.165E+01 1.186E-03 309.58 0.0739 3 0.0849 6.375 1147.60 892.93 2.880E+02 2.170E+01 1.239E-03 309.67 0.0740 3 0.0850 6.4 1151.19 894.92 2.880E+02 2.175E+01 1.293E-03 309.76 0.0740 3 0.0850 6.425 1154.78 896.91 2.880E+02 2.180E+01 1.349E-03 309.84 0.0740 3 0.0851 6.45 1158.36 898.91 2.881E+02 2.184E+01 1.408E-03 309.93 0.0740 3 0.0851 6.475 1161.95 900.90 2.881E+02 2.189E+01 1.469E-03 310.02 0.0740 3 0.0852 6.5 1165.54 902.89 2.882E+02 2.194E+01 1.532E-03 310.10 0.0741 3 0.0852 6.525 1169.12 904.88 2.882E+02 2.199E+01 1.597E-03 310.19 0.0741 3 0.0852 6.55 1172.70 906.87 2.882E+02 2.204E+01 1.665E-03 310.27 0.0741 3 0.0853 6.575 1176.28 908.86 2.883E+02 2.209E+01 1.735E-03 310.36 0.0741 3 0.0853

Attachment 1 M1418, Rev. 1 Page 21 of 24 6.6 1179.86 910.85 2.883E+02 2.213E+01 1.808E-03 310.44 0.0741 3 0.0854 6.625 1183.44 912.84 2.883E+02 2.218E+01 1.884E-03 310.53 0.0742 3 0.0854 6.65 1187.02 914.83 2.884E+02 2.223E+01 1.962E-03 310.61 0.0742 3 0.0855 6.675 1190.60 916.82 2.884E+02 2.228E+01 2.044E-03 310.69 0.0742 3 0.0855 6.7 1194.17 918.80 2.884E+02 2.233E+01 2.128E-03 310.78 0.0742 3 0.0856 6.725 1197.75 920.79 2.885E+02 2.238E+01 2.215E-03 310.86 0.0742 3 0.0856 6.75 1201.32 922.77 2.885E+02 2.242E+01 2.306E-03 310.94 0.0743 3 0.0857 6.775 1204.89 924.76 2.886E+02 2.247E+01 2.399E-03 311.03 0.0743 3 0.0857 6.8 1208.46 926.74 2.886E+02 2.252E+01 2.496E-03 311.11 0.0743 3 0.0858 6.825 1212.03 928.72 2.886E+02 2.257E+01 2.597E-03 311.19 0.0743 3 0.0858 6.85 1215.60 930.71 2.887E+02 2.262E+01 2.700E-03 311.27 0.0743 3 0.0858 6.875 1219.17 932.69 2.887E+02 2.266E+01 2.808E-03 311.36 0.0744 3 0.0859 6.9 1222.73 934.67 2.887E+02 2.271E+01 2.919E-03 311.44 0.0744 3 0.0859 6.925 1226.30 936.65 2.888E+02 2.276E+01 3.034E-03 311.52 0.0744 3 0.0860 6.95 1229.86 938.63 2.888E+02 2.281E+01 3.153E-03 311.60 0.0744 3 0.0860 6.975 1233.42 940.61 2.888E+02 2.286E+01 3.277E-03 311.68 0.0744 3 0.0861 7 1236.99 942.59 2.889E+02 2.290E+01 3.404E-03 311.76 0.0745 3 0.0861 7.025 1240.55 944.56 2.889E+02 2.295E+01 3.536E-03 311.84 0.0745 3 0.0862 7.05 1244.10 946.54 2.889E+02 2.300E+01 3.672E-03 311.92 0.0745 3 0.0862 7.075 1247.66 948.52 2.889E+02 2.305E+01 3.812E-03 312.00 0.0745 3 0.0863 7.1 1251.22 950.49 2.890E+02 2.310E+01 3.958E-03 312.08 0.0745 3 0.0863 7.125 1254.77 952.47 2.890E+02 2.314E+01 4.108E-03 312.16 0.0746 3 0.0864 7.15 1258.33 954.44 2.890E+02 2.319E+01 4.263E-03 312.24 0.0746 3 0.0864 7.175 1261.88 956.42 2.891E+02 2.324E+01 4.423E-03 312.32 0.0746 3 0.0864 7.2 1265.43 958.39 2.891E+02 2.329E+01 4.588E-03 312.40 0.0746 3 0.0865 7.225 1268.98 960.36 2.891E+02 2.334E+01 4.759E-03 312.48 0.0746 3 0.0865 7.25 1272.53 962.34 2.892E+02 2.338E+01 4.935E-03 312.56 0.0747 3 0.0866 7.275 1276.08 964.31 2.892E+02 2.343E+01 5.117E-03 312.64 0.0747 3 0.0866 7.3 1279.63 966.28 2.892E+02 2.348E+01 5.305E-03 312.71 0.0747 3 0.0867 7.325 1283.17 968.25 2.893E+02 2.353E+01 5.499E-03 312.79 0.0747 3 0.0867 7.35 1286.72 970.22 2.893E+02 2.358E+01 5.698E-03 312.87 0.0747 3 0.0868 7.375 1290.26 972.19 2.893E+02 2.362E+01 5.905E-03 312.95 0.0747 3 0.0868 7.4 1293.81 974.15 2.893E+02 2.367E+01 6.117E-03 313.02 0.0748 3 0.0869 7.425 1297.35 976.12 2.894E+02 2.372E+01 6.336E-03 313.10 0.0748 3 0.0869 7.45 1300.89 978.09 2.894E+02 2.377E+01 6.562E-03 313.18 0.0748 3 0.0870 7.475 1304.43 980.05 2.894E+02 2.382E+01 6.795E-03 313.26 0.0748 3 0.0870

Attachment 1 M1418, Rev. 1 Page 22 of 24 7.5 1307.97 982.02 2.895E+02 2.386E+01 7.036E-03 313.33 0.0748 3 0.0870 7.525 1311.50 983.98 2.895E+02 2.391E+01 7.283E-03 313.41 0.0749 3 0.0871 7.55 1315.04 985.95 2.895E+02 2.396E+01 7.538E-03 313.48 0.0749 3 0.0871 7.575 1318.57 987.91 2.895E+02 2.401 E+01 7.801E-03 313.56 0.0749 3 0.0872 7.6 1322.11 989.88 2.896E+02 2.405E+01 8.071E-03 313.64 0.0749 3 0.0872 7.625 1325.64 991.84 2.896E+02 2.410E+01 8.350E-03 313.71 0.0749 3 0.0873 7.65 1329.17 993.80 2.896E+02 2.415E+01 8.637E-03 313.79 0.0749 3 0.0873 7.675 1332.70 995.76 2.897E+02 2.420E+01 8.933E-03 313.86 0.0750 3 0.0874 7.7 1336.23 997.72 2.897E+02 2.424E+01 9.237E-03 313.94 0.0750 3 0.0874 7.725 1339.76 999.68 2.897E+02 2.429E+01 9.550E-03 314.01 0.0750 3 0.0875 7.75 1343.28 1001.64 2.897E+02 2.434E+01 9.873E-03 314.09 0.0750 3 0.0875 7.775 1346.81 1003.60 2.898E+02 2.439E+01 1.020E-02 314.16 0.0750 3 0.0875 7.8 1350.34 1005.56 2.898E+02 2.444E+01 1.055E-02 314.24 0.0751 3 0.0876 7.825 1353.86 1007.52 2.898E+02 2.448E+01 1.090E-02 314.31 0.0751 3 0.0876 7.85 1357.38 1009.47 2.898E+02 2.453E+01 1.126E-02 314.39 0.0751 3 0.0877 7.875 1360.90 1011.43 2.899E+02 2.458E+01 1.163E-02 314.46 0.0751 3 0.0877 7.9 1364.42 1013.39 2.899E+02 2.463E+01 1.201 E-02 314.53 0.0751 3 0.0878 7.925 1367.94 1015.34 2.899E+02 2.467E+01 1.240E-02 314.61 0.0751 3 0.0878 7.95 1371.46 1017.29 2.899E+02 2.472E+01 1.281 E-02 314.68 0.0752 3 0.0879 7.975 1374.98 1019.25 2.900E+02 2.477E+01 1.322E-02 314.75 0.0752 3 0.0879 8 1378.49 1021.20 2.900E+02 2.482E+01 1.365E-02 314.83 0.0752 3 0.0880 8.025 1382.01 1023.16 2.900E+02 2.486E+01 1.409E-02 314.90 0.0752 3 0.0880 8.05 1385.52 1025.11 2.900E+02 2.491 E+01 1.454E-02 314.97 0.0752 3 0.0881 8.075 1389.04 1027.06 2.901E+02 2.496E+01 1.500E-02 315.05 0.0752 3 0.0881 8.1 1392.55 1029.01 2.901E+02 2.500E+01 1.548E-02 315.12 0.0753 3 0.0881 8.125 1396.06 1030.96 2.901E+02 2.505E+01 1.597E-02 315.19 0.0753 3 0.0882 8.15 1399.57 1032.91 2.901E+02 2.510E+01 1.647E-02 315.26 0.0753 3 0.0882 8.175 1403.08 1034.86 2.902E+02 2.515E+01 1.699E-02 315.34 0.0753 3 0.0883 8.2 1406.58 1036.81 2.902E+02 2.519E+01 1.751 E-02 315.41 0.0753 3 0.0883 8.225 1410.09 1038.76 2.902E+02 2.524E+01 1.806E-02 315.48 0.0754 3 0.0884 8.25 1413.60 1040.70 2.902E+02 2.529E+01 1.862E-02 315.55 0.0754 3 0.0884 8.275 1417.10 1042.65 2.903E+02 2.534E+01 1.919E-02 315.62 0.0754 3 0.0885 8.3 1420.60 1044.60 2.903E+02 2.538E+01 1.978E-02 315.70 0.0754 3 0.0885 8.325 1424.11 1046.54 2.903E+02 2.543E+01 2.038E-02 315.77 0.0754 3 0.0886 8.35 1427.61 1048.49 2.903E+02 2.548E+01 2.100E-02 315.84 0.0754 3 0.0886 8.375 1431.11 1050.43 2.904E+02 2.553E+01 2.163E-02 315.91 0.0755 3 0.0886

Attachment 1 M1418, Rev. 1 Page 23 of 24 8.4 1434.61 1052.38 2.904E+02 2.557E+01 2.228E-02 315.98 0.0755 3 0.0887 8.425 1438.10 1054.32 2.904E+02 2.562E+01 2.295E-02 316.05 0.0755 3 0.0887 8.45 1441.60 1056.26 2.904E+02 2.567E+01 2.364E-02 316.12 0.0755 3 0.0888 8.475 1445.10 1058.20 2.905E+02 2.571 E+01 2.434E-02 316.19 0.0755 3 0.0888 8.5 1448.59 1060.14 2.905E+02 2.576E+01 2.506E-02 316.26 0.0755 3 0.0889 8.525 1452.08 1062.09 2.905E+02 2.581 E+01 2.580E-02 316.33 0.0756 3 0.0889 8.55 1455.58 1064.03 2.905E+02 2.586E+01 2.655E-02 316.40 0.0756 3 0.0890 8.575 1459.07 1065.97 2.905E+02 2.590E+01 2.733E-02 316.47 0.0756 3 0.0890 8.6 1462.56 1067.91 2.906E+02 2.595E+01 2.812E-02 316.54 0.0756 3 0.0891 8.625 1466.05 1069.84 2.906E+02 2.600E+01 2.894E-02 316.61 0.0756 3 0.0891 8.65 1469.54 1071.78 2.906E+02 2.604E+01 2.977E-02 316.68 0.0756 3 0.0891 8.675 1473.03 1073.72 2.906E+02 2.609E+01 3.063E-02 316.75 0.0757 3 0.0892 8.7 1476.51 1075.66 2.907E+02 2.614E+01 3.151 E-02 316.82 0.0757 3 0.0892 8.725 1480.00 1077.59 2.907E+02 2.619E+01 3.240E-02 316.89 0.0757 3 0.0893 8.75 1483.48 1079.53 2.907E+02 2.623E+01 3.332E-02 316.96 0.0757 3 0.0893 8.775 1486.97 1081.46 2.907E+02 2.628E+01 3.426E-02 317.03 0.0757 3 0.0894 8.8 1490.45 1083.40 2.907E+02 2.633E+01 3.523E-02 317.10 0.0757 3 0.0894 8.825 1493.93 1085.33 2.908E+02 2.637E+01 3.622E-02 317.17 0.0758 3 0.0895 8.85 1497.41 1087.27 2.908E+02 2.642E+01 3.723E-02 317.24 0.0758 3 0.0895 8.875 1500.89 1089.20 2.908E+02 2.647E+01 3.826E-02 317.31 0.0758 3 0.0895 8.9 1504.37 1091.13 2.908E+02 2.651E+01 3.932E-02 317.37 0.0758 4 0.1010 8.925 1507.73 1093.00 2.908E+02 2.656E+01 4.037E-02 317.44 0.0758 5 0.1199 8.95 1510.93 1094.78 2.909E+02 2.660E+01 4.138E-02 317.50 0.0758 5 0.1218 8.975 1514.10 1096.54 2.909E+02 2.665E+01 4.242E-02 317.57 0.0758 5 0.1236 9 1517.26 1098.30 2.909E+02 2.669E+01 4.347E-02 317.63 0.0759 5 0.1255 9.025 1520.41 1100.04 2.909E+02 2.673E+01 4.453E-02 317.69 0.0759 5 0.1273 9.05 1523.54 1101.78 2.909E+02 2.677E+01 4.562E-02 317.75 0.0759 5 0.1291 9.075 1526.65 1103.51 2.910E+02 2.682E+01 4.672E-02 317.81 0.0759 5 0.1309 9.1 1529.75 1105.23 2.910E+02 2.686E+01 4.784E-02 317.87 0.0759 5 0.1328 9.125 1532.83 1106.95 2.910E+02 2.690E+01 4.897E-02 317.93 0.0759 5 0.1346 9.15 1535.90 1108.65 2.910E+02 2.694E+01 5.013E-02 317.99 0.0760 5 0.1363 9.175 1538.96 1110.35 2.910E+02 2.698E+01 5.130E-02 318.05 0.0760 5 0.1381 9.2 1542.00 1112.04 2.910E+02 2.702E+01 5.248E-02 318.11 0.0760 5 0.1399 9.225 1545.02 1113.72 2.911E+02 2.706E+01 5.369E-02 318.17 0.0760 6 0.1411 9.25 1548.04 1115.39 2.911E+02 2.710E+01 5.492E-02 318.23 0.0760 6 0.1416 9.275 1551.05 1117.07 2.911E+02 2.714E+01 5.617E-02 318.29 0.0760 6 0.1421

Attachment 1 M1418, Rev. 1 Page 24 of 24 9.3 1554.06 1118.74 2.911E+02 2.719E+01

5.744E-02 318.35 0.0760 6 0.1426 9.325 1557.06 1120.41 2.911E+02 2.723E+01 5.873E-02 318.40 0.0760 6 0.1431 9.35 1560.06 1122.07 2.911E+02 2.727E+01 6.005E-02 318.46 0.0761 6 0.1436 9.375 1563.05 1123.74 2.912E+02 2.731 E+01 6.139E-02 318.52 0.0761 6 0.1441 9.4 1566.05 1125.40 2.912E+02 2.735E+01 6.275E-02 318.58 0.0761 6 0.1446 9.425 1569.03 1127.06 2.912E+02 2.739E+01 6.414E-02 318.64 0.0761 6 0.1451 9.45 1572.02 1128.71 2.912E+02 2.743E+01 6.555E-02 318.69 0.0761 6 0.1456 9.475 1574.99 1130.37 2.912E+02 2.747E+01 6.698E-02 318.75 0.0761 6 0.1461 9.5 1577.97 1132.02 2.912E+02 2.751 E+01 6.844E-02 318.81 0.0761 6 0.1466 9.525 1580.94 1133.67 2.912E+02 2.755E+01 6.993E-02 318.87 0.0762 7 0.1477 9.55 1583.90 1135.32 2.913E+02 2.759E+01 7.144E-02 318.92 0.0762 7 0.1498 9.575 1586.85 1136.96 2.913E+02 2.763E+01 7.297E-02 318.98 0.0762 7 0.1518 9.6 1589.78 1138.58 2.913E+02 2.767E+01 7.452E-02 319.04 0.0762 7 0.1538 9.625 1592.70 1140.20 2.913E+02 2.771E+01 7.609E-02 319.09 0.0762 7 0.1558 9.65 1595.60 1141.82 2.913E+02 2.775E+01 7.767E-02 319.15 0.0762 7 0.1578 9.675 1598.49 1143.42 2.913E+02 2.779E+01 7.928E-02 319.20 0.0762 7 0.1598 9.7 1601.36 1145.02 2.914E+02 2.782E+01 8.091E-02 319.26 0.0763 7 0.1618 9.725 1604.22 1146.61 2.914E+02 2.786E+01 8.256E-02 319.31 0.0763 7 0.1638 9.75 1607.07 1148.19 2.914E+02 2.790E+01 8.423E-02 319.37 0.0763 7 0.1658 9.775 1609.90 1149.76 2.914E+02 2.794E+01 8.592E-02 319.42 0.0763 7 0.1677 9.8 1612.72 1151.33 2.914E+02 2.798E+01 8.763E-02 319.48 0.0763 7 0.1697 9.825 1615.52 1152.88 2.914E+02 2.802E+01 8.936E-02 319.53 0.0763 7 0.1716 9.85 1618.31 1154.44 2.914E+02 2.805E+01 9.111 E-02 319.58 0.0763 8 0.1734 9.875 1621.09 1155.98 2.915E+02 2.809E+01 9.289E-02 319.64 0.0763 8 0.1752 9.9 1623.86 1157.52 2.915E+02 2.813E+01 9.468E-02 319.69 0.0764 8 0.1770 9.925 1626.62 1159.05 2.915E+02 2.816E+01 9.650E-02 319.74 0.0764 8 0.1787 9.95 1629.36 1160.57 2.915E+02 2.820E+01 9.834E-02 319.80 0.0764 8 0.1805 9.975 1632.10 1162.09 2.915E+02 2.824E+01 1.002E-01 319.85 0.0764 8 0.1823 10 1634.82 1163.60 2.915E+02 2.828E+01 1.021 E-01 319.90 0.0764 8 0.1840 10.025 1637.53 1165.11 2.915E+02 2.831E+01 1.040E-01 319.95 0.0764 8 0.1858 10.05 1640.23 1166.61 2.915E+02 2.835E+01 1.059E-01 320.00 0.0764 8 0.1875 10.075 1642.92 1168.10 2.916E+02 2.838E+01 1.079E-01 320.05 0.0764 8 0.1892 10.1 1645.60 1169.59 2.916E+02 2.842E+01 1.098E-01 320.11 0.0765 8 0.1910

v t e Letter Sequence Request
EPID:L-2019-LLE-0006, Request for Exemptions from Portions of 10 CFR 50.47 and 10 CFR Part 50, Appendix E (Approved, Closed)
Initiation Request, Request, Request, Request, Request, Request Acceptance Supplement Administration Questions Answers Results Approval, Approval, Approval Other:
MONTHYEAR2019-06-10 [Table View]

ML19056A192

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