ML16336A559

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Donald C. Cook Nuclear Plant, Units 1 & 2, Revision 27 to Updated Final Safety Analysis Report, Chapter 3, Table 3.1-2
ML16336A559
Person / Time
Site: Cook  American Electric Power icon.png
Issue date: 10/24/2016
From:
Indiana Michigan Power Co
To:
Office of Nuclear Reactor Regulation
Shared Package
ML16336A263 List: ... further results
References
AEP-NRC-2016-42
Download: ML16336A559 (2)
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Text

I I N N D D I I A A N N A A A A N N D D M M I I C C H H I I G G A A N N P P O O W W E E R R D D.. C C.. C C O O O O K K N N U U C C L L E E A A R R P P L L A A N N T T U U P P D D A A T T E E D D F F I I N N A A L L S S A A F F E E T T Y Y A A N N A A L L Y Y S S I I S S R R E E P P O O R R T TRevision:16.4Table:3.1-2 Page:1 of 2Unit 2ANALYTIC TECHNIQUES IN CORE DESIGNAnalysis TechniqueComputer Code Section ReferencedMechanical Design of Core InternalsLoads, Deflections, and Stress AnalysisStatic and Dynamic ModelingBlowdown code, FORCE, Finiteelement structural analysis code, andothers 14.3.3Fuel Rod DesignFuel Performance Characteristics (temperature, internalpressure, clad stress, etc.)Semi-empirical thermal model of fuelrod with consideration of fuel densitychanges, heat transfer, fission gasrelease, etc.Westinghouse fuel rod design model 3.2.1.3.1 3.3.3.1 3.4.2.2 3.4.3.4.2Nuclear Design1. Cross Sections and Group ConstantsMicroscopic dataMacroscopic constants for homogenizedcore regionsModified ENDF/B-V or ENDF/B-VI libraryPHOENIX-P 3.3.3.2 3.3.3.2Group constants for control rods withself-shieldingPHOENIX-P3.3.3.2Nuclear Design (Continued)2. X-Y Power Distributions, Fuel Depletion, CriticalBoron Concentrations, X-Y Xenon Distributions, 3D, 2-Group Nodal Expansion MethodANC 3.3.3.3 I I N N D D I I A A N N A A A A N N D D M M I I C C H H I I G G A A N N P P O O W W E E R R D D.. C C.. C C O O O O K K N N U U C C L L E E A A R R P P L L A A N N T T U U P P D D A A T T E E D D F F I I N N A A L L S S A A F F E E T T Y Y A A N N A A L L Y Y S S I I S S R R E E P P O O R R T TRevision:16.4Table:3.1-2 Page:2 of 2Unit 2ANALYTIC TECHNIQUES IN CORE DESIGNAnalysis TechniqueComputer Code Section ReferencedReactivity Coefficients3. Axial Power Distributions, Control Rod Worths,and Axial Xenon Distribution1-D, 2-Group Diffusion TheoryAPOLLO 3.3.3.34. Fuel Rod PowerIntegral Transport TheoryLASER 3.3.3.1Effective Resonance TemperatureMonte Carlo Weighting FunctionREPADThermal-Hydraulic Design1. Steady-StateSubchannel analysis of local fluidconditions in rod bundles, includinginertial and crossflow resistance terms,solution - progresses from core-wide tohot assembly to hot channelTHINC-IV 3.4.3.4.12. Transient Departure from Nucleate BoilingAnalysisSubchannel analysis of local fluidconditions in rod bundles duringtransients by including accumulationterms in conservation equations solutionprogresses from core-wide to hotassembly to hot channelTHINC-I (THINC-III) 3.4.3.4.1

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