Browns Ferry Nuclear Plant Updated Final Safety Analysis Report (Ufsar), Amendment 27, 14.6 Table - Analysis of Design Basis Accidents

ML18024A341
Person / Time
Site:	Browns Ferry
Issue date:	10/05/2017
From:	Tennessee Valley Authority
To:	Office of Nuclear Reactor Regulation
Shared Package
ML18018A778	List: ML18018A780 ML18018A781 ML18018A783 ML18018A784 ML18018A785 ML18018A787 ML18018A788 ML18018A790 ML18018A792 ML18018A793 ML18018A795 ML18018A796 ML18018A797 ML18018A798 ML18018A800 ML18018A801 ML18018A802 ML18018A804 ML18018A806 ML18018A807 ML18022A114 ML18022A115 ML18022A116 ML18022A117 ML18022A118 ML18022A119 ML18022A120 ML18022A121 ML18022A123 ML18022A124 ML18022A125 ML18022A127 ML18022A128 ML18022A129 ML18022A130 ML18022A131 ML18022A132 ML18022A133 ML18022A148 ML18022A155 ML18022A156 ML18022A157 ML18022A158 ML18022A159 ML18022A161 ML18022A162 ML18022A163 ML18022A164 ML18022A165 ML18022A166 ... further results
References
Download: ML18024A341 (11)
v • d • e

Text

BFN-27 Table 14.6-1 Sheet 1 of 2 Iodine-131 Activity (Ci) by Location as Function of Time for CRDA Time - hrs Main Cond Stack Rm Control Rm Environment 0 2.99E+04 0.00E+00 0.00E+00 0.00E+00 0.4 2.35E+04 3.39E+00 2.32E-02 6.27E+02 0.5 2.22E+04 4.11E+00 2.57E-02 7.60E+02 0.8 1.8TE+04 6.03E+00 1.45E-02 1.12E+03 1.1 1.55E+04 7.62E+00 8.20E-03 1.42E+03 1.4 1.29E+04 8.93E+00 4.65E-03 1.67E+03 1.7 1.08E+04 1.00E+01 2.65E-03 1.88E+03 2 9.05E+03 1.09E+01 1.52E-03 2.06E+03 2.3 7.56E+03 1.16E+01 8.60E-04 2.20E+03 2.6 6.32E+03 1.22E+01 4.89E-04 2.33E+03 2.9 5.29E+03 1.27E+01 2.80E-04 2.43E+03 3.2 4.42E+03 1.31E+01 1.62E-04 2.51E+03 3.5 3.69E+03 1.34E+01 9.49E-05 2.59E+03 3.8 3.09E+03 1.36E+01 5.65E-05 2.65E+03 4.1 2.58E+03 1.38E+01 3.44E-05 2.70E+03 4.4 2.16E+03 1.40E+01 2.16E-05 2.74E+03 4.7 1.80E+03 1.41E+01 1.40E-05 2.77E+03 5 1.51E+03 1.41E+01 9.44E-06 2.80E+03 5.3 1.26E+03 1.42E+01 6.62E-06 2.83E+03 5.6 1.05E+03 1.42E+01 4.82E-06 2.85E+03 5.9 8.81E+02 1.42E+01 3.62E-06 2.86E+03 6.2 7.37E+02 1.42E+01 2.80E-06 2.88E+03 6.5 6.16E+02 1.42E+01 2.22E-06 2.89E+03 6.8 5.15E+02 1.41E+01 1.78E-06 2.90E+03 7.1 4.30E+02 1.41E+01 1.45E-06 2.91E+03 7.4 3.60E+02 1.40E+01 1.19E-06 2.92E+03 7.7 3.01E+02 1.40E+01 9.81E-07 2.92E+03 8 2.51E+02 1.39E+01 8.13E-07 2.93E+03 8.3 2.10E+02 1.39E+01 5.80E-07 2.93E+03 BFN-27 Table 14.6-1 Sheet 2 of 2 Iodine-131 Activity (Ci) by Location as Function of Time for CRDA Time - hrs Main Cond Stack Rm Control Rm Environment 8.6 1.76E+02 1.38E+01 4.29E-07 2.93E+03 8.9 1.47E+02 1.37E+01 3.28E-07 2.94E+03 9.2 1.23E+02 1.36E+01 2.56E-07 2.94E+03 9.5 1.03E+02 1.36E+01 2.04E-07 2.94E+03 9.8 8.58E+01 1.35E+01 1.65E-07 2.94E+03 10.1 7.17E+01 1.34E+01 1.35E-07 2.94E+03 10.4 6.00E+01 1.33E+01 1.11E-07 2.94E+03 24 1.78E-02 1.01E+01 0 2.95E+03 96 0 2.22E+00 0 2.95E+03 720 0 0 0 2.95E+03

BFN-27 TABLE 14.6-2 (Deleted by Amendment 19)

BFN-27 TABLE 14.6-3 SUMMARY OF POWER UPRATE INPUT PARAMETERS USED FOR ALL CONTAINMENT ANALYSES Parameter Unit Analysis Value for Power Uprate Core Thermal Power 102% of uprated power (3458 MWt) MWt 3527 Initial Reactor Core Flow (100% rated) Mlbm/hr 102.5 Vessel dome pressure At 102% of uprated power (3458 MWt) psia 1053 Initial drywell pressure psia 17.0/15.1(1) Initial drywell temperature (Maximum value used to maximize the drywell temp. response) °F 150 Initial drywell relative humidity (Minimum)  % 20 Initial wetwell pressure psia 15.9/15.1(1) Initial wetwell airspace temperature (Maximum) °F 95 Initial wetwell airspace relative humidity (Maximum)  % 100 Initial pressure suppression pool temperature (Maximum value used to maximize the suppression pool temp. response) °F 95 Downcomer submergence at high water level ft. 3.83 Initial pressure suppression pool volume: Maximum (at high water level corresponding to 3'-10" downcomer submergence with a drywell to torus differential pressure of 1.1 psid) Minimum (at low water level corresponding to 2'-11" downcomer submergence with zero drywell to torus differential pressure) ft3 ft3 131,400 121,500 Total pressure suppression chamber volume (including pool) ft3 250,800 Drywell free volume (including vent system) ft3 171,000/159,000(1) Torus-to-drywell vacuum breaker full open p psid 0.5 Number of downcomers 96 Downcomer I.D. ft. 1.956 Vent flow loss coefficient - 5.32 (1): The value that was most limiting for a specific analysis was used.

BFN-27 Table 14.6-4 SUMMARY OF POWER UPRATE INPUT PARAMETERS USED FOR DBA-LOCA SHORT TERM CONTAINMENT RESPONSE Parameter Units Case 1(1) Case 2 Case 3(2) Case 4 Initial Reactor Thermal Power MWt 3527 3527 3527 2179 Initial Reactor Thermal Power % of uprated 102 102 102 63 Initial Reactor Core Flow Mlb/hr 102.5 102.5 83.0 39.0 Initial Reactor Core Flow % of uprated 100 100 81 38 Feedwater Temperature °F 384 328 328 328 Initial suppression pool volume ft3 131,400 131,400 131,400 131,400 Drywell Free Volume (including vent system) ft3 159000 159000 171000 159000 Initial Drywell Pressure psia 15.1 17.0 17.0 17.0 Drywell-Wetwell Pressure difference psid 0.0 1.1 1.1 1.1 (1): This is the most limiting case for hydrodynamic loads. (2): This is the most limiting case for DBA-LOCA drywell pressure and temperature response.

BFN-27 Table 14.6-5 SUMMARY OF POWER UPRATE INPUT PARAMETERS USED FOR DBA-LOCA LONG-TERM CONTAINMENT RESPONSE Parameter Unit Analysis Value for Power Uprate Core Thermal Power 102% of uprated power (3458 MWt) MWt 3527 Core Flow (100% of rated) Mlbm/hr 102.5 Initial suppression pool volume ft3 121,500 Decay Heat Model - ANS/ANSI 5.1 + 2 uncertainty RHRS Heat Exchanger Heat Removal Rate (BTU per hr) calculated at the following containment spray mode conditions: - Shell side (RHR) flow (Minimum) - Shell side inlet temperature (Maximum) - Tube side (RHRSW) flow (Minimum) - Tube side inlet temperature - Heat exchanger k-factor gpm °F gpm °F Btu/sec-°F 6500 187.3 (Unit 1), 177 (Units 2 and 3) 4000 95 (Unit 1), 92(1) (Units 2 and 3) 223 (1) Operation with inlet temperature above 92°F is governed by Technical Specification limits for the Ultimate Heat Sink.

BFN-27 Table 14.6-6 DBA-LOCA SHORT TERM PRESSURE AND TEMPERATURE RESPONSE Parameter Units Case 1(1) Case 2 Case 3(2) Case 4 Peak Drywell Pressure psig 48.6 47.1 50.6 44.2 Peak Drywell Gas Temperature °F 295 294 297 290 (1): This is the most limiting case for hydrodynamic loads. (2): This is the most limiting case for DBA-LOCA drywell pressure and temperature response for Unit 2 and 3. For Unit 1 the peak drywell pressure and peak drywell gas temperature are 48.5 psig and 295.2°F, respectively.

BFN-27 Table 14.6-7 BOUNDING CORE INVENTORY Isotope Ci/MWt t=o Ci/MWt t=24 hr Isotope Ci/MWt t=o Ci/MWt t=24 hr CO58 1.430E+02 1.416E+02 XE131M 3.544E+02 3.487E+-02 CO60 1.425E+02 1.424E+02TE1323.829E+04 3.089E+04KR83M 3.432E+03 1.387E+01I1323.885E+04 3.184E+04KR85 3.601E+02 3.601E+02 I133 5.534E+04 2.559E+04 KR85M 7.329E+03 1.811E+02XE1335.504E+04 5.303E+04RB86 6.372E+01 6.141E+01 XE133M 1.734E+03 1.562E+03 KR87 1.446E+04 3.051E-02I1346.141E+04 1.450E-03KR88 2.009E+04 5.743E+01 CS134 5.703E+03 5.697E+03 KR89 2.521E+04 0.000E+00I1355.250E+04 4.189E+03SR89 2.786E+04 2.748E+04 XE135 1.971E+04 1.429E+04 SR90 3.165E+03 3.165E+03XE135M1.135E+04 6.823E+02Y90 3.283E+03 3.273E+03 CS136 1.941E+03 1.841E+03 SR91 3.487E+04 6.103E+03XE1375.023E+04 0.000E+00Y91 3.583E+04 3.564E+04CS1374.037E+03 4.037E+03SR92 3.677E+04 7.922E+01 BA137M 3.829E+03 3.810E+03 Y92 3.696E+04 1.168E+03XE1384.757E+04 1.172E-26Y93 4.147E+04 8.084E+03 BA139 4.930E+04 4.170E-01 ZR95 4.880E+04 4.822E+04BA1404.909E+04 4.644E+04NB95 4.897E+04 4.897E+04 LA140 5.231E+04 5.079E+04 ZR97 4.953E+04 1.851E+04LA1414.498E+04 7.085E+02MO99 5.088E+04 3.956E+04 CE141 4.535E+04 4.463E+04 TC99M 4.454E+04 3.772E+04LA1424.397E+04 1.035E+00RU103 4.094E+04 4.018E+04 CE143 4.245E+04 2.597E+04 RU105 2.710E+04 6.615E+02PR1434.113E+04 4.075E+04RH105 2.559E+04 1.840E+04CE1443.810E+04 3.810E+04RU106 1.488E+04 1.486E+04 ND147 1.806E+04 1.698E+04 SB127 2.796E+03 2.369E+03NP2395.201E+05 3.902E+05TE127 2.773E+03 2.580E+03 PU238 2.805E+02 2.805E+02 TE127M 3.721E+02 3.719E+02PU2391.234E+01 1.238E+01SB129 8.457E+03 1.952E+02 PU240 1.730E+01 1.730E+01 TE129 8.326E+03 1.236E+03PU2414.450E+03 4.448E+03TE129M 1.615E+03 1.590E+03 AM241 5.449E+00 5.470E+00 TE131M 5.155E+03 2.976E+03CM2421.234E+03 1.234E+03I131 2.669E+04 2.481E+04 CM244 5.697E+01 5.697E+01 BFN-27 Table 14.6-8 (Sheet 1) VALUES FOR X/Q FOR ACCIDENT DOSE CALCULATIONS

Time Period Control Room (sec/m3) Site Boundary (sec/m3) LPZ Boundary (sec/m3) Top of Stack Releases (LOCA & CRDA)

U1 Intake Unit 3 Intake 0-0.5 hrs* 3.40E-5 3.02E-5 2.35E-5 1.26E-5 0.5-2 hrs 9.08E-13 1.41E-7 1.19E-6 1.13E-6 2-8 hrs 3.41E-13 4.50E-8 5.75E-7 8-24 hrs 2.09E-13 2.54E-8 4.10E-7 1-4 days 7.21E-14 7.36E-9 1.97E-7 4-30 days 1.57E-14 1.24E-9 6.88E-8 Base of Stack Releases (LOCA & CRDA) 0-2 hrs 2.00E-4 8.60E-5 2.62E-4 1.31E-4 2-8 hrs 1.28E-4 6.46E-5 6.61E-5 8-24 hrs 5.72E-5 2.80E-5 4.69E-5 1-4 days 4.05E-5 2.00E-5 2.23E-5 4-30 days 3.09E-5 1.53E-5 7.96E-6 BFN-27 Table 14.6-8 (Sheet 2) VALUES FOR X/Q FOR ACCIDENT DOSE CALCULATIONS

Time Period Control Room (sec/m3) Site Boundary (sec/m3) LPZ Boundary (sec/m3) Refueling Vent Releases (FHA and LOCA) ****

U1 Intake Unit 3 Intake 0-2 hrs 4.60E-4 ** Not Used Not Used 2-8 hrs 8-24 hrs 1-4 days 4-30 days Not Used 1.57E-4 1.12E-4 7.90E-5 ** ** ** ** Not Used 4.69E-5 2.23E-5 7.96E-6 **** Control room 0-2 hr for FHA only; values 8 hr+ for control room and LPZ Boundary used as surrogate for HCVS release Turbine Building Exhaust Release (MSLB - EAB/LPZ; Post-LOCA MSIV Leakage - Unit 1 Only) 0-2 hrs 3.22E-4 ** 2.62E-4 1.31E-4 2-8 hrs 2.77E-4 ** 6.61E-5 8-24 hrs 1.31E-4 ** 4.69E-5 1-4 days 7.91E-5 ** 2.23E-5 4-30 days 6.10E-5 ** 7.96E-6

• • Bounded by the Unit 1 Intake Turbine Building Roof Ventilators Release (Post LOCA MSIV Leakage Units 2/3 Only) 0-2 hrs *** 2.17E-4 2.62E-4 1.31E-4 2-8 hrs *** 1.64E-4 6.61E-5 8-24 hrs *** 7.89E-5 4.69E-5 1-4 days *** 4.33E-5 2.23E-5 4-30 days *** 3.35E-5 7.96E-6

• • • Bounded by the Unit 3 Intake BFN-27 Table 14.6-9 (Deleted by Amendment 19)