Core Operating Limits Report for Cycle 24

ML15084A108
Person / Time
Site:	Quad Cities
Issue date:	03/06/2015
From:	Darin S Exelon Generation Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
SVP-1516
Download: ML15084A108 (63)
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f ExeloGenerat SVP-1516 Mwahd 06, 20M6 U.s. Nudw Reg.aosy Comm n ATTN: Ooomrwe Control Doak waslotgko, D.C. 20655 Quad C*ue Nudew Powr Stalo, Unk I Renewed Faity Operatin Licens No. OPR20 Subjet Cwor Operating mts Repas for Quad Citie UnkIt Cycle 24 Quad CWes Nuclw Power Sation Unt 1 weo utdown for Reuol Outage 23(01 R23) on March 1,2015. In aoodo wihTechnical SpecifIcano iScton 5.6.Sd, enclosed is the Coe Opwa Limbt Repr (COLR) for Ouad Ctm Unit 1Cyde 24.

Should you have any ques onengt ons letW, ple contact Mr. Waly J. Seck at (309) 227-28o0.

Site Vime Prooiden Ouad OWesNuclerPowwrStado Enclosue: Core qOpeat Limit Repor for Quad Citie Unit I Cycle 24 cc: Regional AcMalismretr - NRC Region III NRC Senior Residmen Inspector - Qued CiieM Nudear Power Station A C)c I uV-

Enclosure Core Operating Limits Report for Quad Cities Unit 1 Cycle 24

COLR Quad Cities 1 Rev. 10 Quad Cities Unit 1 Cycle 24 Core Operating Limits Report Revision 0 Page 1 of 61

COLR Quad Cities 1 Rev. 10 Table of Contents Page

1. Terms and Definitions .............................................................................................................................. 5

2. General Information ................................................................................................................................. 6

3. Average Planar Linear Heat Generation Rate .................................................................................... 7

4. Operating Lim it Minim um Critical Power Ratio ................................................................................. 46 4.1. Manual Flow Control MCPR Operating Lim its .......................................................................... 46 4.1.1. Power - Dependent MCPR Operating Lim it ................. ,............................................................. 46 4.1.2. Flow - Dependent MCPR Operating Limit ...................... .................................. .46 4.2. Scram Tim e ...................................................................................................................................... 47 4.3. Recirculation Pum p ASD Settings ........................................................................................ ............ 47

5. Linear Heat Generation Rate ................................................................................................................. 53

6. Control Rod Block Setpoints ................................................................................................................. 57

7. Stability Protection Setpoints ....................................................................................................  :............ 57

8. Modes of Operation ................................................................................................................................. 58

9. Methodology ......................................................................................................................................... 60

10. References ........................................................................................................................................... 61 Page 2 of 61

COLR Quad Cities 1 Rev. 10 List of Tables Page Table 3-1 MAPLHGR SLO m ultiplier ..................................................................................................... 7 Table 3-2 MAPLHGR for Lattices 101 and 108 ..................................................................................... 7 Table 3-3 MAPLHGR for Lattice 129 .................................................................................................... 8 Table 3-4 MAPLHGR for Lattices 130 and 131 ........................................... ......................................... 8 Table 3-5 MAPLHGR for Lattices 132 and 133 .................................................................................. 9 Table 3-6 MAPLHGR for Lattice 134 ............................ ............................ .................... 9 Table 3-7 MAPLHGR for Lattice 135....................... ....................................... 10 Table 3-8 MAPLHGR for Lattice 136 .............................................. 11 Table 3-9 MAPLHGR for Lattice 137 ........................................................................................................... 12 Table 3-10 MAPLHGR for Lattice 138.... ............................................................................................... 13 Table 3-11 MAPLHGR for Lattice 139 ................................................................................................... 14 Table 3-12 MAPLHGR for Lattice 140 ................................................................................................... 15 Table 3-13 MAPLHGR for Lattice 141 ................................................................................................... 16 Table 3-14 MAPLHGR for Lattice 142 ................................................................................................... 17 Table 3-15 MAPLHGR for Lattice 143 ................................................................................................... 18 Table 3-16 MAPLHGR for Lattice 144 ................................................................................................... 19 Table 3-17 MAPLHGR for Lattice 145 ....................................................................................................... 20 Table 3-18 MAPLHGR for Lattice 146 ................................................................................................. 21 Table 3-19 MAPLHGR for Lattice 147 ................................................................................................. 22 Table 3-20 MAPLHGR for Lattice 148 ................................................................................................. 23 Table 3-21 MAPLHGR for Lattice 149 ................................................................................................. 24 Table 3-22 MAPLHGR for Lattice 150 ................................................................................................. 25 Table 3-23 MAPLHGR for Lattice 151 ................................................................................................... 26 Table 3-24 MAPLHGR for Lattice 152 ................................................................................................. 27 Table 3-25 MAPLHGR for Lattice 153 ................................................................................................. 27 Table 3-26 MAPLHGR for Lattice 154 ................................................................................................. 28 Table 3-27 MAPLHGR for Lattice 155 ................................................................................................. 28 Table 3-28 MAPLHGR for Lattice 156 ................................................................................................. 29 Table 3-29 MAPLHGR for Lattice 157 ................................................................................................. 29 Table 3-30 MAPLHGR for Lattice 158 ....................................................................................................... 30 Table 3-31 MAPLHGR for Lattice 159 ................................................................................................. 30 Table 3-32 MAPLHGR for Lattice 160 ................................................................................................. 31 Table 3-33 MAPLHGR for Lattice 161 .................................................................................................. 31 Table 3-34 MAPLHGR for Lattice 162 ................................................................................................. 32 Table 3-35 MAPLHGR for Lattice 163 ................................................................................................... 32 Table 3-36 MAPLHGR for Lattice 164 ................................................................................................. 33 Table 3-37 MAPLHGR for Lattice 165 ................................................................................................... 33 Table 3-38 MAPLHGR for Lattice 166 ................................................................................................... 34 Table 3-39 MAPLHGR for Lattice 167 ................................................................................................. 34 Table 3-40 MAPLHGR for Lattice 168 ................................................................................................. 35 Table 3-41 MAPLHGR for Lattice 169 ................................................................................................. 35 Table 3-42 MAPLHGR for Lattice 170 ................................................................................................. 36 Table 3-43 MAPLHGR for Lattice 171 ................................................................................................... 36 Table 3-44 MAPLHGR for Lattice 172 ................................................................................................. 37 Table 3-45 MAPLHGR for Lattice 173 ................................................................................................. 37 Table 3-46 MAPLHGR for Lattice 174 ................................................................................................. 38 Table 3-47 MAPLHGR for Lattice 175 ................................................................................................. 38 Table 3-48 MAPLHGR for Lattice 176 ................................................................................................. 39 Table 3-49 MAPLHGR for Lattice 177 ................................................................................................. 39 Table 3-50 MAPLHGR for Lattice 178 ....................................................................................................... 40 Table 3-51 MAPLHGR for Lattice 179 ................................................................................................. 40 Table 3-52 MAPLHGR for Lattice 180 ................................................................................................. 41 Table 3-53 MAPLHGR for Lattice 181 ................................................................................................... 41 Table 3-54 MAPLHGR for Lattice 182 ................................................................................................. 42 Table 3-55 MAPLHGR for Lattice 183 ................................................................................................. 42 Table 3-56 MAPLHGR for Lattice 184 ................................................................................................. 43 Page 3 of 61

COLR Quad Cities 1 Rev. 10 Table 3-57 MAPLHG R for Lattice 185 ........................................................................................................ 43 Table 3-58 MAPLHG R for Lattice 186 ................................................................................................... 44 Table 3-59 MAPLHG R for Lattice 187 ................................................................................................ 44 Table 3-60 MAPLHG R for Lattice 188 ................................................................................................... 45 Table 3-61 MAPLHG R for Lattice 189 .................................................................................................. 45 T able 4-1 S cram T im es ............................................................................................................................. 47 Table 4-2 MCPR TSSS Based Operating Limits - Nominal FWT and FWNTR ..................................... 48 Table 4-3 MCPR ISS Based Operating Limits - Nominal FWT and FWTR ........................................ 49 Table 4-4 MCPR NSS Based Operating Limits - Nominal FWT and FWTR .................... 49 Table 4-5 MCPR(P) - Nom inal FW T ................................................................................ .................. 50 Table 4-6 MC P R (P) - FW TR ...................................................................................................................... 51 Table 4-7 MCPR(F) - DLO and SLO Operation ................................................................................... 52 Table 5-1 LHGR Limits for Lattices 101, 108, 129, 130, 131,132, 133, 134, 135, 136, 137, 138, 139, 140,141,142,143,144,145,146,147,148,149,150, and 151 ........................... 53 Table 5-2 LHGR Limits for Lattices 152, 153, 154, 155, 163, 164, and 165 ........................................ 53 Table 5-3 LHGR Lim its for Lattices 156, 157 and 158 ........................................................................... 53 Table 5-4 LHGR Limits for Lattice 159,160, 161, and 162 .................. ....... ..... 54 Table 5-5 LHGR Limits for Lattices 166, 167, 168, 169, and 170 ........................................................ 54 Table 5-6 LHGR Limits for Lattices 181, 185, 186, 187, and .189 ........................................................ 54 Table 5-7 LHGR Limits for Lattices 171,172,173, 174, 178,179, 180, 183, and 188 ........................ 54 Table 5-8 LHGR Limits for Lattices 176, 177, and 184 ...................,................................... 55 Table 5-9 LHGR Limits for Lattices 175 and 182 ............................................................ 55 Table 5-10 Power-Dependent LHGR Multipliers .................. ......................................... 56 Table 5-11 Flow-Dependent LHGR Multipliers ................. ................................................................. 56 Table 6-1 RBM Allowable Values ...................................................................... 7 Table 7-1 OPRM PBDA Trip Settings ...... m ........................................ 57 Table 8-1 Allowed Modes of Operation and EOOS Conditions............................. 58 Table 8-2 Core Thermal Power Restriction for OOS Conditions ............................ 59 Page 4 of 61

COLR Quad Cities 1 Rev. 10

1. Terms and Definitions ASD Adjustable Speed Drive DEHC Digital electro-hydraulic control DLO Dual loop operation EFPD Effective full power day EFPH Effective full power hour EOC End of cycle EOOS Equipment out of service EOFPL End of full power life FWTR Feedwater temperature reduction FWT Feedwater temperature

• GWd/MTU Gigawatt days per metric ton Uranium ICF Increased core flow ISS Intermediate scram speed kW/ft Kilowatt per foot LHGR Linear heat generation rate LPRM Local power range monitor MAPLHGR Maximum average planar linear heat generation rate MCFL Maximum Combined Flow Limiter MCPR Minimum critical power ratio MCPR(F) Flow dependent MCPR MCPR(P) Power dependent MCPR MELLLA Maximum extended load line limit analysis MIb/hr Million pounds per hour MSIV Main steam isolation valve MWd/MTU Megawatt daysper metric ton uranium MWt Megawatt thermal NRC Nuclear Regulatory Commission NSS Nominal Scram Speed OLMCPR Operating limit minimum critical power ratio OOS Out of service OPRM Oscillation power range monitor PBDA Period based detection algorithm PLUOOS Power load unbalance out of service PCOOS Pressure controller out of service RBM Rod block monitor RWE Rod withdrawal error SLMCPR Safety limit minimum critical power ratio SLO Single loop operation TBVOOS Turbine bypass valve out of service TBV Turbine bypass valve TCV Turbine control valve TIP Traversing Incore Probe TMOL Thermal mechanical operating limit TSSS Technical Specification scram speed TSV Turbine stop valve Page 5 of 61

COLR Quad Cities 1 Rev. 10

2. General Information Licensed rated thermal power is 2957 MWt. Rated core flow is 98 Mlb/hr. Operation up to 108% rated flow is licensed for this cycle. For allowed operating regions, see plant power/flow map.

The licensing analysis supports full power operation to EOFPL+25 EFPD (16797 MWd/MTU) and coastdown to a power level of 70%, given all burnup limits are satisfied. (Reference 3)

Power and flow-dependent limits are listed for various power and flow levels. Linear interpolation is to be used to find intermediate values.

The power-dependent OLMCPR and OLMCPR multiplier, K(P), are independent of scram speed. The MCPR(F) values are independent of scram speed and feedwater temperature.

The power-dependent and flow-dependent LHGR multipliers are independent of scram speed and feedwater temperature.

Only MCPR operating limits vary with scram speed. All other thermal limits are applicable with NSS, ISS, or TSSS.

For thermal limit monitoring above 100% rated core flow, the 100% core flow values can be used unless otherwise indicated in the applicable table.

Page 6 of 61

COLR Quad Cities 1 Rev. 10

3. Average Planar Linear Heat Generation Rate Technical Specification Sections 3.2.1 and 3.4.1 Lattice-specific MAPLHGR values for DLO and all EOOS conditions except SLO are provided in Tables 3-2 through 3-61. During single loop operation, these limits are multiplied by the EOOS multiplier listed in Table 3-1.

The MAPLHGR values for the fresh fuel operating in Quad Cities 1 Cycle 24 are analyzed up to an average planar exposure of 36.0 GWd/MTU and are provided in Tables 3-43 through 3-61. The MAPLHGR values for the fresh fuel natural uranium lattices are detailed in Table 3-2 and also have been analyzed to an average planar exposure of 36.0 GWd/MTU.

Table 3-1 MAPLHGR SLO multiplier (References 5, 6, 7, and 8)

EOOS Condition Multiplier SLO 0.86 Table 3-2 MAPLHGR for Lattices 101 and 108 (References 5 and 6)

All Bundles Lattices 101: Opt2-BO.71 108: Opt2-T0.71 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 7.50 36.0 or 75.0* 7.50

• The natural uranium lattices (Lattices 101 and 108) for the fresh fuel operating in Quad Cities 1 Cycle 24 have MAPLHGR values evaluated to an average planar exposure of 36.0 GWd/MTU. The fresh fuel includes bundle types: Opt2-4.03-16GZ8.00/5.50-2GZ5.50 (QM24), Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24), and Opt2-4.16-12G6.00-2GZ6.00 (Q024). Lattices 101 and 108 for fuel initially loaded in Quad Cities 1 Cycles 21, 22, and 23 have been evaluated to an average planar exposure of 75.0 GWd/MTU.

Page 7 of 61

COLR Quad Cities 1 Rev. 10 Table 3-3 MAPLHGR for Lattice 129 (References 8 and 12)

Bundle Opt2-4.01-14GZ6.00 (QF21)

Lattice 129: Opt2-B4.40-14G6.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.01 5.0 9.26 10.0 9.32 15.0 9.44 20.0 9.62 24.0 9.67 30.0 9.46 58.0 9.46 70.0 8.09 Table 3-4 MAPLHGR for Lattices 130 and 131 (References 8 and 12).

Bundle Opt2-4.01-14GZ6.00 (QF21)

Lattices 130: Opt2-BE4.50-14G6.00 131: Opt2-M4.50-14G6.00 Avg. Planar Exposure .DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.06 5.0 9.32 10.0 9.42 15.0 9.57 20.0 9.75 24.0 9.80 30.0 9.59 58.0 9.59 70.0 8.22 Page 8 of 61

COLR Quad Cities 1 Rev. 10 Table 3-5 MAPLHGR for Lattices 132 and 133

. (References 8 and 12)

Bundle Opt2-4.01-14GZ6.00 (QF21)

Lattices 132: Opt2-M E4.46-14G6.00 133: Opt2-T4.48-12G6.00 Avg. Plana., Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.24 5.0 9.51 10.0 9.48 15.0 9.75 20.0 9.95 24.0 9.98 30.0 9.78 58.0 9.78 70.0 8.51 Table 3-6 MAPLHGR for Lattice 134 (References 7 and 11)

• Bundle Opt2-4.07-19GZ7.50/5.50 (QG22)

Lattice 134: Opt2-B4.49-! 9G7.50 Avg. Planar Exposure ... DLO (GWVdITU) MAPLHGR (kW/ft) 0.0 9.63 2.5 9.62 5.0.. 9.51 7.5 9.35 10.0 9.23 12.0 9.20 15.0 9.37 17.0 9.51 20.0 9.71 22.0 9.68 24.0 9.64 30.0 9.55 36.0 9.46 42.0 9.44 50.0 9.42 60.0 9.44 62.0 9.46 64.0 9.66 72.0 9.84 Page 9 of 61

COLR Quad Cities. 1 Rev. 10 Table 3-7 MAPLHGR forLattice 135 (References 7 and 11)

'Bundle Opt2-4.07-19GZ7.50/5.50 (QG22)

Lattice 135: Opt2-BE4.57-19G7.50 Avg. Planar Exposure .DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.72 2.5 9.69 5.0 9.56 7.5 9.38 10.0 9.23 12.0 9.25 15.0 9.47 17.0 9.61 20.0 9.82 22.0 9.76 24.0 9.72 30.0 9.63 36.0 9.54 42.0 9.51 50.0 9.50 60.0 9.48 62.0 9.50 64.0 9.70 72.0 9.89 Page 10 of 61

COLR Quad Cities 1 Rev. 10 Table 3-8 MAPLHGR for Lattice 136 (References 7 and 11)

Bundle Opt2-4.07-19GZ7.50/5.50 (QG22)

Lattice 136: Opt2-M4.57-19G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.73 2.5 9.69 5.0 9.55 7.5 9.37 10.0 9.21 12.0 9.24 15.0 9.48 17.0 9.63 20.0 9.82 22.0 9.76 24.0 9.71 30.0 9.62 36.0 9.53 42.0 9.51 50.0 9.48 60.0 9.46 62,0 9.48 64.0 9.69 72.0 9.89 Page 11 of 61

COLR Quad Cities 1 Rev. 10 Table 3-9 MAPLHGR for Lattice 137 (References 7 and 11)

Bundle Opt2-4.07-19GZ7.50/5.50 (0G22)

Lattice 137: Opt2-M E4.53-19G7.50 Avg. Planar Exposure DLO (GWdIMTU) MAPLHGR (kW/ft) 0.0 '9.85 2.5 9.84 5.0 9.71 7.5 9.54 10.0 9.39 12.0 9.41 15.0 9.67 17.0 9.87 20.0 9.99 22.0 9.95 24.0 9.93 30.0 9.84 36.0 9.75 42.0 9.72 50.0 9.64 60.0 9.65 62.0 9.68 64.0 9.90 72.0 10.16 Page 12 of 61

COLR Quad Cities 1 Rev. 10 Table 3-10 MAPLHGR for Lattice 138 (References 7 and 11)

. Bundle Opt2,4.07-19GZ7.50/5.50 (QG22)

Lattice 138: Opt2-T4.53-19G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.87 2.5 9.87 5.0 9.75 7.5 9.56 10.0 9.40 12.0 9.39 15.0 9.62 17.0 9.86 20.0 9.96 22.0 9.93 24.0 9.91 30.0 9.82 36.0 9.73 42.0 9.71 50.0 9.61 60.0 .9.63 62.0 9.66 64.0 9.89 72.0 10.16 Page 13 of 61

COLR Quad Cities 1 Rev. 10 Table 3-11 MAPLHGR for Lattice 139 (References 7 and 11)

Bundle Opt2-4.07-19GZ7.50/5.50 (QG22)

Lattice 139: Opt2-T4.53-19G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.96 2.5 9.92 5.0 9.74 7.5 9.53 10.0 9.49 12.0 9.62 15.0 10.08 17.0 10.05 20.0 10.03 22.0 10.00 24.0 9.98 30.0 9.87 36.0 9.78 42.0 9.76 50.0 9.68 60.0 9.69 62.0 9.72 64.0 9.94 72.0 10.21 Page 14 of 61

COLR Quad Cities 1 Rev. 10 Table 3-12 MAPLHGR for Lattice 140 (References 7 and 11)

Bundle Opt2-4.07-17GZ7.50/5.50 (QH22)

Lattice 140: Opt2-B4.49-17G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.60 2.5 9.68 5.0 9.68 7.5 9.52 10.0 9.35 12.0 9.27 15.0 9.41 17.0 9.52 20.0 9.68 22.0 9.68 24.0 9.65 30.0 9.58 36.0 9.50 42.0 9.47 50.0 9.45 60.0 9.43 62.0 9.45 64.0 9.65 72.0 9.84 Page 15 of 61

COLR Quad Cities 1 Rev. 10 Table 3-13 MAPLHGR for Lattice 141 (References 7 and 11)

Bundle Opt2-4.07-17GZ7.50/5.50 (0H22)

Lattice 141: Opt2-BE4.57-17G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.62 2.5 9.70 5.0 9.72 7.5 9.53 10.0 9.35 12.0 9.32 15.0 9.50 17.0 9.61 20.0 9.79 22.0 9.76 24.0 9.73 30.0 -9.66 36.0 9.58 42.0 9.55 50.0 9.49 60.0 9.47 62.0 9.49 64.0 9.70 72.0 9.89 Page 16 of 61

COLR Quad Cities 1 Rev. 10 Table 3-14 MAPLHGR for Lattice 142 (References 7 and 11)

Bundle Opt2-4.07-17GZ7.5015.50 (QH22)

Lattice 142: Opt2-M4.57-17G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHIGR (kW/ft) 0.0 9.58 2.5 9.66 5.0 9.68 7.5 9.53 10.0 9.34

.12.0 9.31 15.0 9.50 17.0 9.62 20.0 9.80 22.0 9.76 24.0 9.73 30.0 9.65

.36.0 9.57 42.0 9.54 50.0 9.47 60.0 9.46 62.0 9.48 64.0 9.69 72.0 9.90 Page 17 of 61

COLR Quad Cities 1 Rev. 10 Table 3-15 MAPLHGR for Lattice 143 (References 7 and 11)

Bundle Opt2-4.07-17GZ7.50/5.50 (QH22)

Lattice 143: Opt2-ME4.53-17G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.75 2.5 9.85 5.0 9.88 7.5 9.72 10.0 9.53 12.0 9.48 15.0 9.70 17.0 9.86 20.0 9.98 22.0 9.96 24.0 9.96 30.0 9.88 36.0 9.79 42.0 9.76 50.0 9.62 60.0 9.64 62.0 9.67 64.0 9.90 72.0 10.17 Page 18 of 61

COLR Quad Cities 1 Rev. 10 Table 3-16 MAPLHGR for Lattice 144 (References 7 and 11)

Bundle Opt2-4.07-17GZ7.50/5.50 (QH22)

Lattice 144: OpM2-T4.53-17G7.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.83 2.5 9.92 5.0 9.95 7.5 9.75 10.0 9.54 12.0 9.49 15.0 9.67 17.0 9.84 20.0 9.96 22.0 9.95 24.0 9.94 30.0 9.86 36.0 9.78 42.0 9.72 50.0 9.59 60.0

• 9.62 62.0 9.65 64.0 9.88 72.0 10.17 Page 19 of 61

COLR Quad Cities 1 Rev. 10 Table 3-17 MAPLHGR for Lattice 145 (References 7 and 11)

Bundle Opt2-4.07-17GZ7.50/5.50 (0H22)

Lattice 145: Opt2-T4.53-17G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.87 2.5 9.97 5.0 9.94 7.5 9.68 10.0 9.56 12.0 9.63 15.0 10.04 17.0 10.04 20.0 10.04 22.0 10.02 24.0 9.99 30.0 9.89 36.0 9.81 42.0 9.78 50.0 9.66 60.0 9.68 62.0 9.72 64.0 9.94 72.0 10.22 Page 20 of 61

COLR Quad Cities 1 Rev. 10 Table 3-18 MAPLHGR for Lattice 146 (References 7 and 11)

Bundle Opt2-4.12-12G5.50-2GZ5.50 (Q122)

Lattice 146: Opt2-B4.54-14G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.22 2.5 9.35 5.0 9.42 7.5 9.47 10.0 9.50 12.0 9.52 15.0 9.70 17.0 9.75 20.0 9.75 22.0 9.73 24.0 9.71 30.0 9.61 36.0 9.53 42.0 9.49 50.0 9.49 60.0 9.51 62.0 9.52 64.0 9.72 72.0 9.89 Page 21 of 61

COLR Quad Cities 1 Rev. 10 Table 3-19 MAPLHGR for Lattice 147 (References 7 and 11)

Bundle Opt2-4.12-12G5.50-2GZ5.50 (Q122)

Lattice 147: Opt2-BE4.62-14G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.33 2.5 9.43 5.0 9.50 7.5 9.54 10.0 9.58 12.0 9.60 15.0 9.80 17.0 9.84 20.0 9.83 22.0 9.81 24.0 9.79 30.0 9.70 36.0 9.61 42.0 9.57 50.0 9.57 60.0 9.55 62.0 9.56 64.0 9.76 72.0 9.95 Page 22 of 61

COLR Quad Cities 1 Rev. 10 Table 3-20 MAPLHGR for Lattice 148 (References 7 and 11)

Bundle Opt2-4.12-12G5.50-2GZ5.50 (Q122)

Lattice 148: Opt2-M4.62-14G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.32 2.5 9.42 5.0 9.49 7.5 9.53 10.0 9.57 12.0 9.61 15.0 9.78 17.0 9.83

- 20.0 9.83 22.0 9.81 24.0 9.78 30.0 9.69

..36.0 9.60 42.0 9.57 50.0 9.56 60.0 9.53 62.0 9.55

..64.0 9.76 72.0 9.95 Page 23 of 61

COLR Quad Cities 1 Rev. 10 Table 3-21 MAPLHGR for Lattice 149 (References 7 and 11)

Bundle Opt2-4.12-12G5.50-2GZ5.50 (0122)

Lattice 149: Opt2-ME4.58-14G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.51 2.5 9.61 5.0 9.69 7.5 9.74 10.0 9.79 12.0 9.81 15.0 10.01 17.0 10.05 20.0 10.06 22.0 10.04 24.0 10.01 30.0 9.91 36.0 9.83 42.0 9.80 50.0 9.72 60.0 9.73 62.0 9.75 64.0 9.97 72.0 10.23 Page 24 of 61

COLR Quad Cities 1 Rev. 10 Table 3-22 MAPLHGR for Lattice 150 (References 7 and 11)

Bundle Opt2-4.12-12G5.50-2GZ5.50 (0122)

Lattice 150: Opt2-T4.58-14G5.50 Avg. Planar Exposure DLO (GWd/MTU) jMAPLHGR (kW/ft) 0.0 9.54 2.5 9.64 5.0 9.72 7.5 9.74 10.0 9.74 12.0 9.78 15.0 9.99 17.0 10.03 20.0 10.05 22.0 10.03 24.0 10.00 30.0 9.90 36.0 9.81 42.0 9.79 50.0 9.69 60.0 9.70 62.0 9.73 64.0 9.95 72.0 10.23 Page 25 of 61

COLR Quad Cities 1 Rev. 10 Table 3-23 MAPLHGR for Lattice 151 (References 7 and 11)

Bundle Opt2-4.12-1 2G5.50-2GZ5.50 (Q122)

Lattice 151: Opt2-T4.60-12G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.77 2.5 9.84 5.0 9.86 7.5 9.87 10.0 9.88 12.0 9.93 15.0 9.99 17.0 10.04 20.0 10.06 22.0 10.04 24.0 10.01 30.0 9.92 36.0 9.83 42.0 9.80

• 50.0 9.71 60.0 9.72 62.0

• 9.75 64.0 9.97 72.0 10.25 Page 26 of 61

COLR Quad Citiesý 1 Rev. 10 Table 3-24 MAPLHGR for Lattice 152 (References 6 and 10)

Bundle Opt2-4.03-18GZ8.0016.00 (QJ23)

Lattice 152: Opt2-B4.29-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.91 2.5 9.19 5.0 9.22 7.5 9.37 10.0 9.67 12.0 9.78 15.0 10.00 17.0 10.04 20.0 9.97 22.0 9.87 24.0 9.87 30.0 9.76 36.0 9.63 42.0 9.52 50.0 9.42 60.0 9.57 72.0 9.76 75.0 9.57 Table 3-25 MAPLHGR for Lattice 153 (References 6 and 10)

Bundle Opt2-4.03-18GZ8.00/6.00 (QJ23)

Lattice 153: Opt2-B4.47-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.82 2.5 9.10 5.0 9.06 7.5 9.01 10.0 9.12 12.0 9.15 15.0 9.26 17.0 9.34 20.0 9.49 22.0 9.60 24.0 9.65 30.0 9.56 36.0 9.52 42.0 9.48 50.0 9.52 60.0 9.67 72.0 9.77 75.0 9.67 Page 27 of 61

COLR Quad Cities 1 Rev. 10 Table 3-26 MAPLHGR for Lattice 154 (References 6 and 10)

Bundle Opt2-4.03-18GZ8.00/6.00 (QJ23)

Lattice

'154: Oot2-BE4.57-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.95 2.5 9.28 5.0 9.23 7.5 9.03 10.0 9.17 12.0 9.22 15.0 9.36 17.0 9.44 20.0 9.61 22.0 9.72 24.0 9.73 30.0 9.65 36.0 9.62 42.0 9.55 50.0 9.59 60.0 9.64 72.0 9.91 75.0 9.64 Table 3-27 MAPLHGR for Lattice 155 (References 6 and 10)

Bundle Opt2-4.03-18GZ8.00/6.00 (QJ23)

Lattice 155: Opt2-M4.57,18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.93 2.5 9.28 5.0 9.24 7.5 9.06 10.0 9.19 12.0 9.23 15.0 9.36 17.0 9.46 20.0 9.63 22.0 9.74 24.0 9.73 30.0 9.64 36.0 9.61 42.0 9.56 50.0 9.58 60.0 9.60 72.0 9.87 75.0 9.60 Page 28 of 61

COLR Quad Cities 1 Rev. 10 Table 3-28 MAPLHGR for Lattice 156 (References 6 and 10)

' *Bundle Opt2-4.03-18GZ8.00/6.00 (QJ23)

Lattice 156: Opt2-ME4.54-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.06 2.5 9.39 5.0 9.34 7.5 9.17 10.0 9.32 12.0 9.38 15.0 9.53 17.0 9.63 20.0 9.92 22.0 9.96 24.0 9.89 30.0 9.84 36.0 9.77 42.0 9.73 50.0 9.68 60.0 9.66 72.0 10.24 75.0 9.66 Table 3-29 MAPLHGR for Lattice 157 (References 6 and 10)

Bundle Opt2-4.03-18GZ8.00/6.00 (QJ23)

Lattice 157: Opt2-T4.54-18G8.00 Avg. Planar Exposure J  :: DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.10 2.5 9.42 5.0 9.31 7.5 9.14 10.0 9.30 12.0 9.34 15.0 9.48 17.0 9.58 20.0 9.92 22.0 9.96 24.0 9.90 30.0 9.84 36.0 9.78 42.0 9.70 50.0 9.66 60.0 9.66 72.0 10.16 75.0 9.66 Page 29 of 61

COLR Quad Cities 1 Rev. 10 Table 3-30 MAPLHGR for Lattice 158 (References 6 and 10)

Bundle Opt2-4.03-18GZ8.00/6.00 (QJ23)

Lattice 158: ODt2-T4.55-16G6.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.51 2.5 9.81 5.0 9.72 7.5 9.58 10.0 9.67 12.0 9.62 15.0 9.79 17.0 10.01 20.0 10.05 22.0 10.04 24.0 9.99 30.0 9.93 36.0 9.87 42.0 9.81 50.0 9.71 60.0 9.71 72.0 10.22 75.0 9.71 Table 3-31 MAPLHGR for Lattice 159 (References 6 and 10)

Bundle Opt2-4.08-18GZ8.00/6.00 (QK23)

Lattice 159: Opt2-B4.36-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.77 2.5 9.98 5.0 9.86 7.5 9.77 10.0 9.91 12.0 9.93 15.0 9.95 17.0 9.92 20.0 10.09 22.0 10.01 24.0 10.00 30.0 9.84 36.0 9.69 42.0 9.57 50.0 9.46 60.0 9.59 72.0 9.81 75.0 9.59 Page 30 of 61

COLR Quad Cities 1 Rev. 10 Table 3-32 MAPLHGR for Lattice 160 (References 6 and 10)

Bundle Opt2-4.08-18GZ8.00/6.00 (QK23)

Lattice 160: Oot2-B4.54-1RGS.00

..... It-B .54-18G. 00..

Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.82 2.5 10.04 5.0 9.91 7.5 9.75 10.0 9.86 12.0 9.80 15.0 9.60 17.0 9.48 20.0 9.46 22.0 9.45 24.0 9.50 30.0 9.66 36.0 9.65 42.0 9.59 50.0 9.60 60.0 9.70 72.0 9.85 75.0 9.70 Table 3-33 MAPLHGR for Lattice 161 (References6 and 10)

Bundle Opt2-4.08-18GZ8.00/6;00 (QK23)

Lattice

.161: Opt2-BE4.63-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.88 2.5 10.23 5.0 10.08 7.5 9.79 10.0 9.93 12.0 9.94 15.0 9.64 17.0 9.52 20.0 9.53 22.0 9.54 24.0 9.62 30.0 9.78 36.0 9.72 42.0 9.67 50.0 9.65 60.0 9.66 72.0 9.99 75.0 9.66 Page 31 of 61

COLR Quad Cities 1 Rev. 10 Table 3-34 MAPLHGR for Lattice 162 (References 6 and 10)

Bundle Opt2-4.08-18GZ8.00/6.00 (QK23)

Lattice 162: Oot2-M4.63-1 8G8.00

. . . . . r 2 ..... .. . . .... . .

Avg. Planar Exposure .DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.85 2.5 10.21 5.0 10.01 7.5 9.75 10.0 9.91 12.0 9.94 15.0 9.63 17.0 9.52 20.0 9.55 22.0 9.55 24.0 9.63 30.0 9.78 36.0 9.75 42.0 9.66 50.0 9.61 60.0 9.58 72.0 9.91 75.0 9.58 Table 3-35 MAPLHGR for Lzttice 163 (References 6 and 10)

Bundle Opt2-4.08-18GZ8.00/6.00 (QK23)

Lattice 163: Opt2-ME4.60-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 10.02 2.5 10.35 5.0 10.23 7.5 9.95 10.0 10.09 12.0 10.06 15.0 9.86 17.0 9.73 20.0 9.80 22.0 9.83 24.0 9.95 30.0 9.99 36.0 9.95 42.0 9.89 50.0 9.73 60.0 9.69 72.0 10.23 75.0 9.69 Page 32 of 61

COLR Quad Cities 1 Rev. 10 Table 3-36 MAPLHGR for Lattice 164 (References 6 and 10)

Bundle Opt2-4.08-18GZ8.00/6.00 (QK23)

Lattice 164: ODt2-T4.60-18G8.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 10.09 2.5 10.40 5.0 10.33 7.5 10.04 10.0 10.16 12.0 10.05 15.0 9.83 17.0 9.72 20.0 9.73 22.0 9.90 24.0 9.98 30.0 10.01 36.0 9.95 42.0 9.88 50.0 9.70 60.0 9.58 72.0 9.93 75.0 9.58 Table3-37 MAPLHGR for Lattice 165 (References 6 and 10)

Bundle Opt2-4.08-18GZ8.00/6.00 (QK23)

Lattice 165: Opt2-T4.60-14G6.00 Avg. Planar Exposure  : DLO (GWd/MTU) IL;APLHGR (kW/ft) 0.0 10.48 2.5 10.72 5.0 10.59 7.5 10.37 10.0 10.43 12.0 10.30 15.0 10.07 17.0 10.01 20.0 10.01 22.0 10.02 24.0 10.02 30.0 10.02 36.0 9.98 42.0 9.92 50.0 9.86 60.0 9.82 72.0 10.27 75.0 9.82 Page 33 of 61

COLR Quad Cities 1 Rev. 10 Table 3-38 MAPLHGR for Lattice 166 (References 6 and 10)

Bundle Opt2-4.17-2GZ6.00-10G6.00 (QL23)

Lattice 166: Ont2-B4.59-1 2G6.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.32 2.5 9.49 5.0 9.39 7.5 9.36 10.0 9.36 12.0 9.38 15.0 9.41 17.0 9.45 20.0 9.52 22.0 9.59 24.0 9.60 30.0 9.62 36.0 9.62 42.0 9.62 50.0 9.62 60.0 9.67 72.0 9.91 75.0 9.67 Table 3-39 MAPLHGR for Lattice 167 (References 6 and 10)

Bundle Opt2-4.17-2GZ6.00-10G6 00 (01-23)

Lattice 167: Opt2-BE4.67-12G6.00 Avg. Planar Exposuve DLO (GWd/rviTU) MAPLHGR (kW/ft) 0.0 9.37 2.5 9.58 5.0 9.44 7.5 9.47 10.0 9.58 12.0 9.46 15.0 9.50 17.0 9.56 20.0 9.63 22.0 9.70 24.0 9.71 30.0 9.76 36.0 9.77 42.0 9.70 50.0 9.68 60.0 9.65 72.0 9.99 75.0 9.65 Page 34 of 61

COLR Quad Cities 1 Rev. 10 Table 3-40 MAPLHGR for Lattice 168 (References 6 and 10)

Bundle Opt2-4.17-2GZ6.00-1 0G6.00 (QL23)

Lattice 168: Opt2-M4.67-12G6.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.36 2.5 9.60 5.0 9.42 7.5 9.52 10.0 9.59 12.0 9.48 15.0 9.51 17.0 9.57 20.0 9.70 22.0 9.70 24.0 9.72 30.0 9.76 36.0 9.79 42.0 9.69 50.0 9.66 60.0 9.62 72.0 9.99 75.0 9.62 Table 3-41 MAPLHGR for Lattice 169 (References 6 and 10)

. Bundle Opt2-4.17-2GZ6.00-1 0G6.00 (QL23)

• Lattice

'169: Opt2-ME4.65-12G6.00 Avg. Planar Exposure., DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.57 2.5 9.81 5.0 9.65 7.5 9.67 10.0 9.72 12.0 9.66 15.0 9.73 17.0 9.82 20.0 9.93 22.0 9.98 24.0 9.98 30.0 10.00 36.0 10.00 42.0 9.94 50.0 9.81 60.0 9.77 72.0 10.21 75.0 9.77 Page 35 of 61

COLR Quad Cities 1 Rev. 10 Table 3-42 MAPLHGR for Lattice 170 (References 6 and 10)

Bundle Opt2-4.17-2GZ6.00-10G6.00 (QL23)

Lattice

• 170: Ont2-T4.64-10G6.00 170: r__ _ _... .... .....

Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 10.01 2.5 10.19 5.0 9.98 7.5 10.07 10.0 9.84 12.0 9.82 15.0 9.82 17.0 9.85 20.0 9.94 22.0 9.97 24.0 9.97 30.0 9.99 36.0 9.99 42.0 9.93-50.0 9.81 60.0 9.77 72.0 10.21 75.0 9.77 Table 3-43 MAPLHGR for Lattice 171 (References 5 and 9)

Bundle.

Opt2-4.03-16GZ8.00/5.50-2GZ5.50 (QM24)

Lattice 171: Opt2-B4.33-16G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.79 2.5 9.11 5.0 9.03 7.5 9.19 10.0 9.38 12.0 9.51 15.0 9.70 17.0 9.80 20.0 9.98 22.0 10.00 24.0 10.00 30.0 9.78 36.0 9.64 Page 36 of 61

COLR Quad Cities 1 Rev. 10 Table 3-44 MAPLHGR for Lattice 172 (References 5 and 9)

Bundle Opt2-4.03-16GZ8.00/5.50-2GZ5.50 (QM24)

Lattice 1M72. Opt2-B4.47-16G8.00-2G5.50, Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.73 2.5 9.05 5.0 8.96 7.5 8.92 10.0 9.06 12.0 9.12 15.0 9.24 17.0 9.30 20.0 9.42 22.0 9.52 24.0 9.64 30.0 9.62 36.0 9.58

• Table 3-45 MAPLHGR for Lattice 173 (References 5 and 9)

Bundle Opt2-4.03-16GZ8.00!5.50-2GZ5.50 (0M24)

Lattice 173: Opt2-BE4.56-16G8.00-2G5.50 Avg. Planar.Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.76 2.5 9.08 5.0 8.97 7.5 8.96 10.0 9.12 12.0 9.19 15.0 9.32 17.0 9.39 20.0 9.53 22.0 9.63 24.0 9.76 30.0 9.72 36.0 9.68 Page 37 of 61

COLR Quad Cities 1 Rev. 10 Table 3-46 MAPLHGR for Lattice 174 (References 5 and 9)

Bundle Opt2-4.03-16GZ8.00/5.50-2GZ5.50 (QM24)

Lattice 174: Opt2-M4.56-16G8.00-2G5.50 Avg. Planar Exposure DLO ,

(GWd/MTU) MAPLHGR (kW/ft) 0.0 8.75 2.5 9.08 5.0 8.97 7.5 8.95 10.0 9.13 12.0 9.20 15.0 9.33 17.0 9.40 20.0 9.55 22.0 9.65 24.0 9.77 30.0 9.71 36.0 9.68 Table 3-47 MAPLHGR for Lattice 175 (References 5 and 9)

Bundle Opt2-4.03-16GZ8.00/5.50-2GZ5.50 (QM24)

Lattice 175: Opt2-ME4.52w16G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.87 2.5 9.21 5.0 9.10 7.5 9.10 10.0 9.27 12.0 9.36 15.0 9.51 17.0 9.59 20.0 9.84 22.0 9.99 24.0 9.96 30.0 9.91 36.0 9.85 Page 38 of 61

COLR Quad Cities 1 Rev. 10 Table 3-48 MAPLHGR for Lattice 176 (References 5 and 9)

Bundle Opt2-4.03-16GZ8.0015.50-2GZ5.50 (QM24)

. Lattice 176: Opt2-T4.52-16G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.91 2.5 9.24 5.0 9.12 7.5 9.08 10.0 9.24 12.0 9.32 15.0 9.45 17.0 9.53 20.0 9.83 22.0 10.01 24.0 9.96 30.0 9.92 36.0 9.85 Table 3-49-MAPLHGR for Lattice 177 (References,5 and 9)

Bundle Opt2-4.03-16GZ8.00/5.50-2GZ5.50 (QM24)

Lattice 177: Opt2-T4.53-16G5.50 Avg. Planar Exposure " DLO.

(GWd/MTU) MAPLHGR (kW/ft) 0.0 9.32 2.5 9.67 5.0 9.60 7.5 9.40 10.0 9.50 12.0 9.58 15.0 9.82 17.0 10.02 20.0 10.06 22.0 10.04 24.0 10.01 30.0 9.95 36.0 9.88 Page 39 of 61

COLR Quad Cities 1 Rev. 10 Table 3-50 MAPLHGR for Lattice 178 (References 5 and 9)

Bundle Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24)

Lattice 178: ODt2-B4.33-14G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.04 2.5 9.35 5.0 9.24 7.5 9.31 10.0 9.47 12.0 9.57 15.0 9.75 17.0 9.83 20.0 9.95 22.0 9.97 24.0 9.98 30.0 9.76 36.0 9.62 Table 3-51 MAPLHGR for Lattice 179 (References 5 and 9)

Bundle Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24)

Lattice 179: Opt2-B4.46-14G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 8.99 2.5 9.27 5.0 9.17 7.5 9.07 10.0 9.12 12.0 9.20 15.0 9.30 17.0 9.33 20.0 9.39 22.0 9.49 24.0 9.59 30.0 9.62 36.0 9.58 Page 40 of 61

COLR Quad Cities 1 Rev. 10 Table 3-52 (References MAPLHGR for Lattice 180 5 and 9)

Bundle Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24)

Lattice 180: Opt2-BE4.55-14G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.03 2.5 9.32 5.0 9.18 7.5 9.12 10.0 9.24 12.0 9.27 15.0 9.38 17.0 9.43 20.0 9.48 22.0 9.61 24.0 9.72 30.0 9.71 36.0 9.68 Table 3-53 MAPLHGR for Lattice 181 (References 5 and 9)

Bundle Opt2-4.03-14GZ8.0015.50-2GZ5.50 (QN24)

Lattice 181.',: Opt2-M4.55-ý14G8,00-2G5.50 Avg. Planar Exposure, DLO (GWd/MTU) .MAPLHGR (kW/ft) 0.0 9.02 2.5 9.33 5.0 9.22 7.5 9.16 10.0 9.25 12.0 9.29 15.0 9.39 17.0 9.43 20.0 9.49 22.0 9.62 24.0 9.74 30.0 9.70 36.0 9.67 Page 41 of 61

COLR Quad Cities 1 Rev. 10 Table 3-54 MAPLHGR for Lattice 182 (References 5 and 9)

Bundle Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24)

Lattice 182: Opt2-ME4.51-14G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.17 2.5 9.48 5.0 9.36 7.5 9.30 10.0 9.41 12.0 9.46 15.0 9.57 17.0 9.61 20.0 9.77 22.0 9.94 24.0 9.95 30.0 9.91 36.0 9.87 Table 3-55 MAPLHGR for Lattice 183 (References 5 and 9)

Bundle Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24)

Lattice 183: Opt2-T4.51-14G8.00-2G5.50 Avg. Planar Exposure DLO (GWd/IMTU) MAPLHGR (kW/ft) 0.0 9.21 2.5 9.51 5.0 9.37 7.5 9.28 10.0 9.38 12.0 9.43 15.0 9.54 17.0 9.58 20.0 9.80 22.0 9.97 24.0 9.94 30.0 9.93 36.0 9.85 Page 42 of 61

COLR Quad Cities 1 Rev. 10 Table 3-56 MAPLHGR for Lattice 184 (References 5 and 9)

SBundle Opt2-4.03-14GZ8.00/5.50-2GZ5.50 (QN24)

Lattice 184: Opt2-T4.52-14G5.50 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.66 2.5 9.93 5.0 9.83 7.5 9.58 10.0 9.57 12.0 9.67 15.0- 9.82, 17.0 9.98 20.0 10.05 22.0-..- 10.06 24.0 10.02 30.0 9.97 36.0 9.91 Table 3-57 MAPLHGR for Lattice 185 (References 5 and 9)

Bundle Opt2-4.i6-12G6.00-2GZ6.00 (Q024)

Lattice 185: Opt2-B4L58-14G6.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.02 2.5 9.21 5.0 9.15 7.5 9.15 10.0 9.22 12.0 9.22 15.0 9.31 17.0 9.38 20.0 9.49 22.0 9.59 24.0 9.60 30.0 9.61 36.0 9.63 Page 43 of 61

COLR Quad Cities 1 Rev. 10 Table 3-58 MAPLHGR for Lattice 186 (References 5 and 9)

Bundle Opt2-4.16-;12G6.00-2GZ6,OO (0024)

Lattice 186: Oot2-BE4.67-14G6.00 Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.06 2.5 9.28 5.0 9.20 7.5 9.23 10.0 9.32 12.0 9.30 15.0 9.39 17.0 9.48 20.0 9.61 22.0 9.69 24.0 9.72 30.0 9.76 36.0 9.73 Table 3-59 MAPLHGR for Lattice 187 (References 5 and 9)

Bundle Opt2-4.16-12G6.00-2GZ6.00(0024)

Lattice 187: Opt2-M4.67-14G6.00 Avg. Planar Exposure ', DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.05 2.5 9.29 5.0 9.19 7.5 9.27 10.0 9.38 12.0 9.32 15.0 9.40 17.0 9.50 20.0 9.67 22.0 9.70 24.0 9.72 30.0 9.77 36.0 9.72 Page 44 of 61

COLR Quad Cities 1 Rev. 10 Table 3-60 MAPLHGR for Lattice 188 (References 5 and 9)

Bundle Opt2-4.16-12G6.00-2GZ6.00 (Q024)

Lattice 188: Ont2-ME4.64-1 4G6.00 188: " . -M4...-.... ...

Avg. Planar Exposure DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.23 2.5 9.47 5.0 9.38 7.5 9.41 10.0 9.47 12.0 9.49 15.0 9.62 17.0 9.75 20.0 9.93 22.0 9.98 24.0 9.99 30.0 10.01 36.0 9.96 Table 3-61 MAPLHGR for Lattice 189 (References 5 and 9)

Bundle Opt2-4.16-12G6.00-2GZ6.00 (Q024)

Lattice 189: Opt2-T4.64-12G6.00 Avg. Planar Exposure , DLO (GWd/MTU) MAPLHGR (kW/ft) 0.0 9.61 2.5 9.84 5.0 9.67 7.5 9.70 10.0 9.66 12.0 9.62 15.0 9.70 17.0 9.79 20.0 9.93 22.0 9.98 24.0 9.98 30.0 9.98 36.0 9.98 Page 45 of 61

COLR Quad Cities 1 Rev. 10

4. Operating Limit Minimum Critical Power Ratio Technical Specification Sections 3.2.2, 3.4.1, and 3.7.7 The OLMCPRs for Quad Cities 1 Cycle 24 were established to protect the SLMCPR during the anticipated operational occurrences.

4.1. Manual Flow Control MCPR Operating Limits The OLMCPR is determined for a given power and flow condition by evaluating the power-dependent OLMCPR and the flow-dependent OLMCPR and selecting the'greater of the two.

4.1.1. Power - Dependent MCPR Operating Limit For operation at less than 38.5% of rated core thermal power, the OLMCPR as a function of core thermal power is shown in Tables 4-5 and 4-6. For operation at greater than 38.5% of rated core thermal power, the OLMCPR as a function of core thermal power is determined by multiplying the applicable rated condition OLMCPR limit shown in Tables 4-2 through 4-4 by the applicable OLMCPR multiplier K(P) given in Tables 4-5 and 4-6. For operation at exactly 38.5% of rated core thermal power, the OLMCPR as a function of core thermal power is the ma.ximum of either of the two aforementioned methods evaluated at 38.5% of rated core thermal power.

4.1.2. Flow - Dependent MCPR Operating Limit Table 4-7 gives the OLMCPR as a function of the flow based on the applicable plant condition. The flow-dependent OLMCPR values are applicable to all base case and EOOS combinations.

Page 46 of 61

COLR Quad Cities 1 Rev. 10 4.2. Scram Time TSSS, ISS, and NSS refer to scram speeds. The scram time values associated with these speeds are shown in Table 4-1. The TSSS scram times shown in Table 4-1 are the same as those specified in the Technical Specifications (Reference 13). Reference 3 indicates that the TSSS control rod insertion times that were actually used in the transient analysis are conservative with respect to the scram times specified in the Technical Specifications.

To utilize the OLMCPR limits for Nominal Scram Speed in Table 4-4, the average control rod insertion time at each control rod insertion fraction must be equal to or less than the NSS time shown on Table 4-1 below.

To utilize the OLMCPR limits for Intermediate Scram Speed in Table 4-3, the average control rod insertion time at each control rod insertion fraction must be equal to or less than the ISS time shown on Table 4-1 below.

To utilize the OLMCPR limits for Technical Specifica tion Scram Speed in Table 4-2, the average control rod insertion time at each control rod insertion fraction must be equal to or less than the TSSS time shown on Table 4-1 below.

The average control rod insertion time is defined as the sum of the control rod insertion times of all operable control rods divided by the number of operable control rods. The time for inoperable drives fully inserted (notch 00) can be conservatively included for calculation of core average scram speed. (Reference 3)

Table 4-1 Scram Times (References 3, 13 and 17)

Control Rod Insertion Fraction TSSS (seconds) ISS (seconds) NSS (seconds)

(% from fully withdrawn) 5 0.48 0.360 0.324 20 0.89 0.720 0.694 50 1.98 1.580 1.510 90 3.44 2.800 2.670 4.3. Recirculation Pump ASD Settings Technical Requirements Manual Section 2.1 .a.1 Quad Cities 1 Cycle 24 was analyzed with a maximum core flow runout of 110%; therefore the recirculation pump ASD must be set to maintain core flow less than 110% (107.8 Mlb/hr) for all runout events. (Reference 4) This value is consistent with the analyses of Reference 3.

Page 47 of 61

COLR Quad Cities 1 Rev. 10 Table 4-2 MCPR TSSS Based Operating Limits - Nominal FWT and FWTR (Reference 3)

Nominal FWT FWTR EOOS Combination Cycle Exposure (MWd/MTU) Cycle Exposure (MWd/MTU) 15,000 1 > 15,000 < 15,000 > 15,000 Base 1.71 1.76 1.71 1.76 Base SLO 1.76 1.81 1.76 1.81 PLUOOS 1.77 1.81 1.77 1.81 PLUOOS SLO 1.82 1.86 1.82 1.86 TBVOOS 1.88 1.91 1.89 1.91 TBVOOS SLO 1.94 1.97 1.95 1.97 TCV Slow Closure 1.81 1.86 1.81 1.86 TCV Slow Closure SLO 1.86 1.92 1.86 1.92 TCV Stuck Closed 1.71 1.76 1.71 1.76 TCV Stuck Closed SLO 1.76 1.81 1.76 J 1.81 Page 48 of 61

COLR Quad Cities 1 Rev. 10 Table 4-3 MCPR ISS Based Operating Limits - Nominal FWT and FWTR (Reference 3)

Nominal FWT FWVTR EOOS Combination Cycle Exposure (MWd/MTU) Cycle Exposu (MWd/MTU) 5 15,000 > 15,000 5 15,000 [ > 15,000 Base 1.46 1.51 1.52 1.53 Base SLO 1.50 1.56 1.57 1.58 PLUOOS 1.54 1.59 1.54 1.59 PLUOOS SLO 1.59 1.64 1.59 1.64 TBVOOS 1.62 1.66 1.65 1.68 TBVOOS SLO 1.67 1.71 1.70 1.73 TCV Slow Closure 1.56 1.60 1.56 1.60 TCV Slow Closure SLO 1.61 1.65 1.61 1.65 TCV Stuck Closed 1.46 1.51 1.52 1.53 TCV Stuck Closed SLO 1.50 1.56 1.57 1.58 Table 4-4 MCPR NSS Based Operating Limits - Nominal FWT and FWTR (Reference 3)

Nominal FWT FWTR EOOS Combination Cycle Exposure (MWd/MTU) Cycle Exposure (MWd/MTU)

<515,000 > 15,000 5 15,000 > 15,000 Base 1.46 1.48 1.51 1.52 Base SLO 1.50 1.52 1.56 1.57 PLUOOS 1.51 1.55 1.51 1.55 PLUOOS SLO 1.56 1.60 1.56 1.60 TBVOOS 1.58 1.62 1.63 1.65 TBVOOS SLO 1.63 1.67 1.68 1.70 TCV Slow Closure 1.54 1.58 1.54 1.58 TCV Slow Closure SLO 1.59 1.63 1.59 1.63 TCV Stuck Closed 1.46 1.48 1.51 1.52 TCV Stuck Closed SLO 1.50 1.52 1.56 1.57 Page 49 of 61

COLR Quad Cities 1 Rev. 10 Table 4-5 MCPR(P) - Nominal FWT (Reference 3)

Core T Core Thermal Power (% of rated)

Flow 1 _______________

EOOS Combination low 0125 38.5 38.5 50 1 60 1 80 100

(% of Rated) OLMCPR j OLMCPR Multiplier, K(P)

< 60 3.03 2.43 2.11 Base

> 60 3.13 2.68 2.44 1.31 1.18 1.12 1.05 1.00

<_60 3.12 2.50 2.17 Base SLO

> 60 3.23 2.76 2.51

< 60 3.03 2.43 2.11 PLUOOS

> 60 3.13 2.68 2.44 1.55 1.43 1.31 1.06 1.00

<-60 3.12 2.50 2.17 PLUOOS SLO

> 60 3.23 2.76 2.51

< 60 4.36 3.13 2.47 TBVOOS

> 60 4.36 3.34 2.86 1.31 1.18 1.12 1:05 1.00

< 60 4.48 3.22 2.54 TBVOOS SLO

> 60 4.48 3.44 2.94

<60 3.03 2.43 2.11 TCV Slow Closure

> 60 3.13 2.68 2.44 1.55 1.43 1.31 1.06 1.00

<60 3.12 .2.50 2.17 TCV Slow Closure SLO

> 60 3.23 2.76 2.51

< 60 3.03 2.43 2.11 TCV Stuck Closed

> 60 3.13 2.68 2.44 1.31 1.18 1.12 1.05 1.00

<-60 3.12 2.50 2.17 TCV Stuck Closed SLO

> 60 3.23 2.76 2.51 Page 50 of 61

COLR Quad Cities 1 Rev. 10 Table 4-6 MCPR(P) - FWTR (Reference 3)

Core Core Thermal Power (% of rated)

EOOS Combination (%o 0 25 38.5 38.5 50 60 80 100 Rated) OLMCPR OLMCPR Multiplier, K(P)

<60 3.03 2.43. 2.11 Base

>60 3.13 - 2.68 2.44 1.34 1.20 1.13 1.05 1.00

<60 3.12 2.50 2.17 Base SLO

> 60 3.23 2.76 2.51

<60 3.03 2.43 2.11 PLUOOS

> 60 3.13 2.68 2.44

.. . .. 1.55 1.43 1.31 1.06 1.00

<60 3.12 2.50 2.17 PLUOOS SLO

> 60 3.23 2.76 2.51.

_<60 4,73 3.30 2.53 TBVOOS

> 60 4.73 3.34 2.93 1.34 1.20 1.13 1.05 1.00

_<60 4.86 3.39 2.60 TBVOOS SLO

> 60 4.86 3.44 3.01

< 60 3.03 2.43 2.11 TCV Slow Closure

>60 3.13 2.68 2.44 1.55 1.43 1.31 1.06 1.00

<60 3.12 2.50 2.17 TCV Slow Closure SLO

> 60 3.23 2.76 2.51

< 60 3.03 2.43 2.11 TCV Stuck Closed

> 60 3.13 2.68 2.44 1.34 1.20 1.13 1.05 1.00

<60 3.12 2.50 2.17 TCV Stuck Closed SLO

> 60 3.23 2.76 2.51 Page 51 of 61

COLR Quad Cities 1 Rev. 10 Table 4-7 MCPR(F) - DLO and SLO Operation (Reference 3)

Core Flow DLO

(% of rated) TLO SLO 0 1.98 2.04 100 1.38 1.42 108 1.38 1.42 Page 52 of 61

COLR Quad Cities 1 Rev. 10

5. Linear Heat Generation Rate Technical Specification Sections 3.2.3 and 3.4.1 The TMOL at rated conditions for the Optima2 fuel is established in terms of the maximum LHGR as a function of rod nodal exposure. The limits in Table 5-1 apply to bundle lattices that do not require Gadolinia set down penalties as well as any natural blanket segment in the core (lattice types 101 and 108). The limits in Tables 5-2 through 5-9 apply to bundle lattices that require Gadolinia set down penalties.

The LHGR limit is the product of the exposure dependent LHGR limit from Table 5-1 through Table 5-9 and the minimum of the power-dependent LHGR multiplier or the flow-dependent LHGR multiplier, as applicable. The power-dependent LHGR multiplier is determined from Table 5-10. The flow-dependent LHGR multiplier is determined from Table 5-11, and is applicable for DLO and SLO and for all Base Case and EOOS conditions.

Table 5-1 LHGR Limits for Lattices 101,108, 129,130,131,132,133,134, 135, 136, 137, 138,139, 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, 150, and 151 (References 3, 11 and 12)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 23.000 12.22 57.000 8.87 62.000 8.38 75.000 3.43 Table 5-2 LHGR Limits for Lattices 152, 153, 154, 155, 163,164, and 165 (Reference 18)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 14.999 13.01 15.000 12.62 35.000 10.71 35.001 11.04 62.000 8.38 75.000 3.43 Table 5-3 LHGR Limits for Lattices 156, 157 and 158 (Reference 18)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 14.999 13.01 15.000 12.55 45.000 9.70 45.001 10.06 62.000 8.38 75.000 3.43 Page 53 of 61

COLR Quad Cities 1 Rev. 10 Table 5-4 LHGR Limits for Lattice 159, 160, 161, and 162 (Reference 18)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 17.999 12.71 18.000 12.52 32.000 11.17 32.001 11.34 62.000 8.38 75.000 3.43 Table 5-5 LHGR Limits for Lattices 166, 167, 168, 169, and 170 (Reference 18)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 62.000 8.38 75.000 3.43 Table 5-6 LHGR Limits for Lattices 181,185,186, 187, and 189 (Reference 3)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 23.000 12.22 57.000 8.87 62.000 8.38 75.000 3.43 Table 5-7 LHGR Limits for Lattices 171,172,173,174,178,179,180, 183, and 188 (Reference 3)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 19.500 12.56 19.501 12.44 23.000 12.09 34.000 11.01 34.001 11.13 57.000 8.87 62.000 8.38 75.000 3.43 Page 54 of 61

COLR Quad Cities 1 Rev. 10 Table 5-8 LHGR Limits for Lattices 176, 177, and 184 (Reference 3)

Rod Nodal Exposure LHGR Limit (GWd/MTU) (kW/ft) 0.000 13.72 14.000 13.11 18.500 12.66 18.501 12.41 23.000 11.97 41.000 10.23 41.001 10.44 57.000 8.87 62.000 8.38 75.000 3.43 Table 5-9 LHGR Limits. for Lattices 175 and 182 (Reference 3)

Rod Nodal Exposure LHGR Limit (GWd/MTU). (kW/ft) 0.000 13.72 13.999 13.11 14.000 12.71

.23.000 11.85 36.000 10.60 36.001 10.93 57.000 8.87 62.000

• 8.38 75.000 3.43 Page 55 of 61

COLR Quad Cities 1 Rev. 10 Table 5-10 Power-Dependent LHGR Multipliers (Reference 3)

Core Thermal Power (% of rated)

EOOS Combination 0 25 < 38.5 > 38.5 50 60 80 100 LHGR Multiplier Base 0.53 0.63 0.68 0.75 0.80 0.84 0.89 1.00 Base SLO PLUOOS 0.53 0.63 0.68 0.68 0.72 0.81 0.87 1.00 PLUOOS SLO TBVOOS 0.33 0.46 0.53 0.69 0.72 0.74 0.78 1.00 TBVOOS SLO TCV Slow Closure 0.53 0.63 0.68 0.68 0.72 0.80 0.87 1.00 TCV Slow Closure SLO TCV Stuck Closed 0.53 0.63 0.68 0.75 0.80 '0.84 0.89 1.00 TCV Stuck Closed SLO Table 5-11 Flow-Dependent LHGR Multipliers (Reference 3)

Flow LHGR

(% of rated) Multiplier 0 0.27 20 0.43 40 0.60 60 0.80 80 .1.00 100 1.00 108 1.00 Page 56 of 61

COLR Quad Cities 1 Rev. 10

6. Control Rod Block Setpoints Technical SpecificationSections 3.3.2.1 and 3.4.1 The rod block monitor upscale instrumentation setpoints are determined from the relationships shown in Table 6-1:

Table 6-1 RBM Allowable Values (Reference 20)

ROD BLOCK MONITOR UPSCALE TRIP FUNCTION ALLOWABLE VALUE Two Recirculation Loop 0.65 Wd + 56.1%

Operation 0.65_W__+_56.1%

Single Recirculation Operation Loop 0.65 Wd + 51.4%

0.6 WI+514 The setpoint may be lower/higher and will still comply with the RWE analysis because RWE is analyzed unblocked (Reference 4).

Wd - percent of recirculation loop drive flow required to produce a rated core flow of 98 Mlb/hr.

7. Stability Protection Setpoints Technical Specification Section 3.3.1.3 The OPRM PBDA trip settings are given in Table 7-1.

Table.7-1 OPRM PBDA Trip Settings (Reference 3)

PBDA Trip Amplitude Setpoint (Sp) Corresponding Maximum Confirmation Count Setpoint (Np) 1.14 16 The PBDA settings are the only OPRM settings credited in the safety analysis as documented in the licensing basis for the OPRM system. (Methodology Reference 10)

The OPRM PBDA trip settings are based, in part, on the cycle specific OLMCPR and the power/flow-dependent MCPR limits. Any change to the OLMCPR values and/or the power/flow-dependent MCPR limits should be evaluated for potential impact on the OPRM PBDA trip settings.

The OPRM PBDA trip settings are applicable when the OPRM system is declared operable, and the associated Technical Specifications are implemented.

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COLR Quad Cities 1 Rev. 10

8. Modes of Operation The allowed modes of operation with combinations of equipment.out-of-service are described in Table 8-1 below:

Table 8-1 Allowed Modes of Operation and EOOS Conditions (Reference 3) -

EOOS Options Thermal Limit Sets Base Base (DLO or.SLO)

PLUOOS PLUOOS (DLO or SLO)

TBVOOS TBVOOS (DLO or SLO)

TCV Slow Closure TCV Slow Closure (DLO or SLO)

TCV Stuck Closed *Base (LO or SLO)

See Table 8-2 for power restrictions.

PCOOS PLUOOS (DLO or SLO)

PCOOS and PLUOOS PLUOOS (DLO or SLO)

PCOOS and TCV Slow Closure TCV Slow Closure (DLO or SLO)

PLUOOS (DLO or SLO)

PCOOS and one TCV Stuck CSee Table 8-2 for power restrictions.

(DLQ or SLO)

PLUOOS and one TCV Stuck Closed *PLUOS See Table 8-2 for power restrictions.

• Also applicable to one TSV stuck closed or one TCV and TSV stuck closed in' the same line (Reference 3).

• • EOOS condition TCV Stuck Closed has identical thermal limits as the Base Case. Therefore, this condition will use the Base Case thermal limit set.

Common Notes - Applicable to Base Case and all EOOS Combinations for DLO/SLO:

1. All modes are allowed for operation at MELLLA, ICF (up to 108% rated core flow), and coastdown subject to the power restrictions in Table 8-2 (Reference 3). Either EOC must be reached or coastdown must begin prior to exceeding 16797 MWd/MTU. The licensing analysis remains valid down to a coastdown power level of 70% given all burnup limits are satisfied per Methodology Reference 1. Each OOS Option may be combined with each of the following conditions:

• Up to 16 TIP channel traces and 2 common channel traces may be substituted using the SUBTIP methodology (Reference 15) provided the requirements for utilizing SUBTIP methodology are met as clarified in Reference 14.

• Up to 50% of the LPRMs OOS. (Reference 15)

" An LPRM calibration frequency of up to 2500 EFPH (2000 EFPH + 25%). (Reference 15)

Page 58 of 61

COLR Quad Cities 1 Rev. 10

2. Nominal FWT results are valid for application within a +10°F/-30°F temperature band around the nominal FWT (nominal FWT curve is contained in Reference 4) and operating steam dome pressure region bounded by the maximum value of 1020 psia and the minimum pressure curve in Reference 4. (Reference 3)

3. For operation outside of Nominal FWT, FWTR results are valid for the minimum FWT curve (i.e.,

the -120°F curve in Ref6rence 4)'and support a feedwater temperature reduction of up to 120°F for Base and all EOOS DLO/SLO conditions for cycle operation through EOC subject to the restriction in Reference 16 for feedwater temperature reductions of greater than 100°F. The restriction requires that for a FWT reduction greater than 100°F, operation needs to be restricted to less than the 100% rod line. For a feedwater temperature reduction of between 30°F and 120 0 F, the FWTR limits should be applied.

4. All analyses support the fastest TBV (assumed to be #1) OOS, with the remaining 8 TBVs meeting the assumed opening profile in Reference 17. The analyses also assume a minimum turbine bypass flow of 3.467 Mlb/h" steam flow, equivalent to one TBV out of service (or partially closed TBVs equivalent to one closed TBV), with the assumed opening profile for the remaining TBVs met. If the opening profile is NOT met, or if the TBV system CANNOT pass an equivalent of"3.467 MIb/hr steam flow, utilize the TBVOOS condition. (Reference 3)

5. If any TBVs are OOS in the pressure control mode, the maximum steam flow removal capability for pressure control needs, to be evaluated to ensure that at least the equivalent of two turbine bypass valves are available for pressure control (Reference 3). The DEHC system opens bypass valves sequentially for pressure control, and the total number allowed to open is limited by the MCFL setting. See calculation QDC-5650-1-1598 (Reference 19) for the relationship between MCFL "Limit Ref" setpoint and the number of bypass valves allowed to open in pressure control. Note that the MCFL is a limit on valve position demand, and not on actual valve position. In other words, DEHC does. not receive feedback on valve position.when limiting demand per the MCFL, therefore inoperable bypass valves requested to open prior to reaching the MFCL will reduce total steam flow capability. If this condition CANNOT be met, enter Technical Specification LCO 3.2.2 and 3.2.3.

-6. A single MSIV may be taken OOS (shut) under any of the specified OOS options as long as core thermal power is maintained < 2218 MWt. (Reference 3)

7. Between 25% and 50% of rated thermal power the PLUOOS thermal limits must be used if the protective relaying is out of service, such that a load reject event will'not result. in a turbine trip.

(Reference 3)

Table 8-2 Core Thermal Power Restriction for OOS Conditions (Reference 3)

EOOS Condition Core Thermal Power (MWt)

One TCV Stuck Closed

• PCOOS and one TCV Stuck Closed * <2366**

PLUOOS and one TCV Stuck Closed *

• Also applicable to one TSV stuck closed or one TCV and TSV stuck closed in the same line (Reference 3).

• • The 2366 MWt power restriction is conservatively set. Operation above 2366 MWt is analyzed and allowed, but may require raising the MCFL setpoint and/or increasing TBV availability to increase the available total reactor vessel steam flow capability as described in Reference 3.

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COLR Quad Cities 1 Rev. 10

9. Methodology The analytical methods used to determine the core operating limits shall be those previously reviewed and approved by the NRC, specifically those described in the following documents:

1. Westinghouse Topical Report CENPD-300-P-A, "Reference Safety Report for Boiling Water Reactor Reload Fuel," July 1996.

2. Westinghouse Topical Report CENPD-390-P-A, "The Advanced PHOENIX and POLCA Codes for Nuclear Design of Boiling Water Reactors," December 2000.

3. Westinghouse Report WCAP-1 6081-P-A, "10x1 0 SVEA Fuel Critical Power Experiments and CPR Correlation: SVEA-96 Optima2," March 2005. ,

4. Westinghouse Report WCAP-1 6081-P-A Addendum 1-A, "SVEA-96 Optima2 CPR Correlation (D4): High and Low Flow Applications," March 2009.

5. Westinghouse Report WCAP-1 6081-P-A Addendum 2-A, "SVEA-96 0ptima2 CPR Correlation (D4): Modified R-factors for Part-Length Rods," February 2009.

6. Westinghouse Report WCAP-1 5682-P-A, 'Westinghouse BWR ECCS Evaluation Model:

Supplement 2 to Code Description, Qualification and Application," April 2003.

7. Westinghouse Report WCAP-1 6078-P-A, "Westinghouse BWR ECCS Evaluation Model:

Supplement 3 to Code Description, Qualification and Application to SVEA-96 Optima2 Fuel,"

November 2004.

8. Westinghouse Topical Report WCAP-1 5836-P-A, "Fuel Rod Design Methods for Boiling Water Reactors - Supplement 1," April 2006.

9. Westinghouse Topical Report WCAP-1 5942-P-A, "Fuel Assembly Mechanical Design Methodology for Boiling Water Reactors, Supplement 1 to CENPD-287-P," March 2006.

10. GE Topical Report NEDO-32465-A, "Reactor Stability Detect and Suppress Solutions Licensing Basis Methodology for Reload Applications," August 1996.

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COLR Quad Cities 1 Rev. 10

10. References

1. Exelon Generation Company, LLC and MidAmerican Energy Company Docket No. 50-254, Quad Cities Nuclear Power Station, Unit 1 Renewed Facility Operating License, License No.

DPR-29.

2. NRC Letter from D. M. Crutchfield to All Power Reactor Licensees and Applicants, Generic Letter 88-16; Concerning the Removal of Cycle-Specific Parameter Limits from Tech Specs, October 3, 1988.

3. Westinghouse Document, NF-BEX-15-2, Revision. 0, "Quad Cities Nuclear Power Station Unit 1 Cycle 24 Reload Licensing Report," January 2015.

4. Westinghouse Document, NF-BEX-15-1, Revision 0, "Quad Cities Nuclear Power Station Unit 1 Cycle 24 Reload Engineering Report," January 2015.

5. Westinghouse Document, NF-BEX-15-6-NP, Revision 0, "Quad Cities Nuclear Power Station Unit 1 Cycle 24 MAPLHGR Report," February 2015.

6. Westinghouse Document, NF-BEX-12-188-NP, Revision 0, "Quad Cities Nuclear Power Station Unit 1 Cycle 23 MAPLHGR Report," January 2013.

7. Westinghouse Document, NF-BEX-11-9-NP, Revision 1, "Quad Cities Nuclear Power Station Unit 1 Cycle 22 MAPLHGR Report," October 2014.

8. Westinghouse Document, NF-BEX-09-17-NP, Revision 1, "Quad Cities Nuclear Power Station Unit 1 Cycle 21 MAPLHGR Report," October 2014.

9. Westinghouse Letter, NF-BEX--14-98, Revision 0, "Bundle Design Report for Quad Cities 1 Cycle 24," August 5, 2014.

10. Westinghouse Letter, NF-BEX-1 2-120, Revision 0, "Bundle Design Report for Quad Cities 1 Cycle 23," September 4, 2012:

11. Westinghouse Letter, NF-BEX-1 0-162, Revision 1, "Rev. 1 Bundle Design Report for Quad

• Cities 1. Cycle 22," ,November 18, 2010.

12. Westinghouse Letter, NF-BEX-08'-129, Revision 1, "Final Report for Quad Cities 1 Cycle 21 Bundle Designs Revision 1," November 6, 2008.

13. Technical Specifications for Quad Cities 1 and 2, Table 3.1.4-1, "Control Rod Scram Times".

14. FANP Letter, NJC:04:031/FAB04-496, "Startup with TIP Equipment Out of Service," April 20, 2004. (Exelon Engineering Evaluation EC 348897-000)

15. Exelon Engineering Evaluation EC 357691-000, "EVALUATION OF APPROPRIATE UNCERTAINTIES FOR USE BY WESTINGHOUSE IN SAFETY LIMIT MCPR ANALYSES",

November 28, 2005.

16. Exelon Letter, NF-MW:02-0081, "Approval of GE Evaluation of Dresden and Quad Cities Extended Final Feedwater Temperature Reduction," Carlos de la Hoz to Doug Wise and Alex Misak, August 27, 2002.

17. Exelon TODI, QDC-14-022, Revision 0, "Operating Parameters List - Westinghouse (OPL-W) for Quad Cities Unit 1 Cycle 24 Transient Analysis," June 26, 2014.

18. Westinghouse Document, NF-BEX-13-2, Revision 0, "Quad Cities Nuclear Power Station Unit 1 Cycle 23 Reload Licensing Report," January 2013.

19. Exelon Design Analysis, QDC-5650-1-1598, Revision 0, "Digital EHC Controller Settings for Maximum Combined Flow Limit (MCFL)," October 16, 2007.

20. GE Document, GE DRF C51-00217-01, "Instrument Setpoint Calculation Nuclear Instrumentation, Rod Block Monitor, Commonwealth Edison Company, Quad Cities 1 & 2,"

December 14, 1999. (Attachment A to Exelon Design Analysis, QDC-0700-1-1419, Revision 0)

Page 61 of 61