NER038 - Gocevski, V., Pathologies/Degradation Mechanisms Experienced by Hydro-Quebec During the Evaluation of Gentilly-2 NPP, Report Submitted to Ascet, (June 2015)

ML19205A508
Person / Time
Site:	Seabrook
Issue date:	07/24/2019
From:	Morgan, Morgan, Lewis & Bockius, LLP, NextEra Energy Seabrook
To:	Atomic Safety and Licensing Board Panel
SECY RAS
References
50-443-LA-2, ASLBP 17-953-02-LA-BD01, RAS 55113
Download: ML19205A508 (51)
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Text

UNITED STATES OF AMERICA NUCLEAR REGULATORY COMMISSION ATOMIC SAFETY AND LICENSING BOARD In the Matter of NEXTERA ENERGY SEABROOK, LLC

(Seabrook Station, Unit 1)

Docket No. 50-443-LA-2 ASLBP No. 17-953-02-LA-BD01 Hearing Exhibit

Exhibit Number:

Exhibit Title:

NER038 Gocevski, V., "Pathologies/Degradation Mechanisms Experienced by Hydro-Quebec During the Evaluation of Gentilly-2 NPP," Report

Submitted to ASCET, (June 2015)

"I would like to summarize in few words our discussion. The participants' reports should be submitted by April 15 th and they should contain 9 Chapters: 1) introduction, 2) material aspects and lab. Material testing, 3) Material modeling, 4) Lab. structural components testing - destructive testing, 5) Structural modeling, 6) Non-destructive testing and in-situ condition assessment, 7) Structural acceptance criteria for structures with pathologies/degradation mechanisms, 8) structural repair and 9) Conclusions and recommendations for future work (conclusions and recommendations are related to each report)". Impacts of ASR on Nuclear Power Plants; Problems and Research NeedsVictor Saouma.

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KlinkenbergKlinkenberg6.3.1 Introduction to the Consequences of AAR in the Concrete Structures of a NPP 6.3.2 The change of post-tensioning due to combined effects of AAR and Creep

Électricité de France"Pull-out Test Pull-out Test 6.3.3 Micro cracking propagation throughout the prestressed concrete sections due to Creep and/or combined effects of AAR and Creep 6.3.4 Behaviour at the junction of the perimeter wall and the base slab caused by different expansion of the wall and the slab (due to different confinement)

(µ (µ (µ (µ (µ (µ (µ (µ (µ (µ 6.3.5 Concrete splitting in the plane where the ducts with post-tensioning cables are located (due to Creep and/or combined effects of AAR and Creep)

6.3.6 Effects of AAR on non-prestressed reinforced concrete in contact with water at G-2 NPP

µw6.3.7 Effects of AAR on the Turbo-Generator foundation at G-2 NPP

6.3.8 Structural integrity under seismic excitation of AAR affected containment

6.3.9 Initial cracking - Construction of the containment structure

6.3.10 Freeze-Thaw cycles - Concrete cracking and their propagation, delamination and concrete spalling Results of the nonlinear analysis for aging mechanismscracking due to freeze-thaw cycles, 50 thwinterExterior viewCross-sectional viewEnlarged cross-sectional viewInterior view

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oooo Pietruszczak S., Ushaksaraei R. and Gocevski VComputers & ConcreteUshaksaraei R., Pietruszczak S. & Gocevski VPietruszczak SACEE Journ.Gocevski V., Pietruszczak SWinnicki A., Pietruszczak SWinnicki A., Pietruszczak SJourn. Eng. Mech., ASCEWinnicki A., Pietruszczak SGocevski V., Pietruszczak S-Pietruszczak S., Winnicki APietruszczak S., Winnicki AJourn. Eng. Mech., ASCEPietruszczak S., Gocevski VIntern. Journ. Comp. Civil & Struct. EngngParvini M., Pietruszczak S., Gocevski VCanadian Journal of Civil Engng.,Huang M., Pietruszczak S Journal of Engineering Mechanics,Gocevski V., Pietruszczak SPietruszczak S., Huang M., Gocevski V Huang M., Pietruszczak SMechanics of Cohesive-Frictional Materials,Pietruszczak SComputers & Structures