Knowledge Objectives

ODCM

TRM_SQN_TECHNICAL_REQUIREMENTS_MANUAL

UNIT_1_BASES_TECHNICAL_SPECIFICATION_BASES

UNIT_2_BASES_TECHNICAL_SPECIFICATION_BASES

UNIT_1_TECHNICAL_SPECIFICATION

UNIT_2_TECHNICAL_SPECIFICATION

Steam Tables Metric and Mollier Diagram

STEAMTABLES

PWR GFE Equation Sheet

Combined Big Notes

GFE Feedback Greatly Appreciated

SQN Lesson Material Errors and Material Feedback 1

SQN Lesson Material Errors and Material Feedback 2

SQN Lesson Material Errors and Material Feedback 3

SQN Lesson Material Errors and Material Feedback 4

SQN Lesson Material Errors and Material Feedback 5

SQN Lesson Material Errors and Material Feedback 6

Drawings for Quiz #1

Drawings for Quiz#2

Drawings for Quiz 3

Drawings for Quiz 4

Drawings for Quiz 5

Drawings for Quiz 6

Systems Final Exam

General Design - Student Files

General Design #1 Introduction and Definitions

General Design #2 10CFR50 Selected Sections

General Design #3 Trains Channels and Conclusion

Week 1 - Student Reference Material

Introduction to Technical Specifications - #1 Overview

Intro to TS - #2 Section 1.0 Definitions

Intro to TS - #3 Logical Connectors

Intro to TS - #4 Completion Times

Intro to TS - #5 Completion Times Examples

Intro to TS - #6 LCO Applicability 3.0.1 through 3.0.9

Intro to TS - #7 Surveillance Requirement (SR) Applicability SR 3.0.1 through SR 3.0.4

Intro to TS - #8 Section 4.0 Design Features and 5.0 Admin

Electrical Overview Student Files

Electrical Systems Overview

Switchyard - Student References

Switchyard - #1 Objectives and Overview

Switchyard - #2 Numbering System (Not Testable)

Switchyard - #3 Transmission Lines

Switchyard - #4 Motor Operated Disconnects

Switchyard - #5 Power Circuit Breakers

Switchyard - #6 Intertie Transformer Bank

Switchyard - #7 Capacitor Banks and Kirk Key Interlock System

Switchyard - #8 Tech Specs and Interrelationships

Main Generator Student References

Main Generator - Objectives and Purpose

Main Generator - General Description

Main Generator - Voltage Regulator and Exciter

Main Generator - Protective Relays

Main Generator - RFI, Core Monitor and Stator Vibration Monitor

Main Generator - Main Transformer Bank

Main Generator - Generator Circuit Breaker

Main Generator - Bus Duct Cooling

Main Generator Final Objective Review

Main Generator Support Systems - Student Files

Main Generator Support Systems 1 - Intro to H2 Seal Oil

Main Generator Support Systems 2 - H2 Seal Oil Major Components

Main Generator Support Systems 3 - Hydrogen Cooling

Main Generator Support Systems 4 - Stator Cooling

Main Generator Support Systems 3 B/U MP4 for download

6 sources of seal oil clarification

6.9kV Student References

6.9 kV #1 Objectives, Purpose and Design basis

6.9kV #2 Modes and Flowpaths

6.9 kV #3 Common Station Service Transformers (CSST)

6.9 kV #4 Unit Station Service Transformers (USST)

6.9 KV #5 D Common Station Service Transformer

6.9 kV #6 Start Busses

6.9 kV #7 Unit Boards

6.9 kV #8 Shutdown Boards

6.9 kV #9 Common Boards

6.9 kV #10 Yard Area Common Boards

6.9 kV #11 Distribution interrelationships and failures

480 VAC Student References

480 VAC Distribution - #1 Objectives and Safety Related Overview

480 VAC Distribution - #2 480V Shutdown Boards

480 VAC Distribution - #3 Safety Related Boards and MCCs

480 VAC Distribution - #4 Non-Safety Related Board Overview

480 VAC Distribution - #5 480V Unit, TB MOV and TB Vent Boards

480 VAC Distribution - #6 480V Common Boards and MCCs

480 VAC Distribution - #7 Failures, Interrelationships, Tech Specs and TRM

120 VAC Student References

120 VAC Electrical Distribution #1 Objectives and Overview

120 VAC Electrical Distribution #2 Inverter operation (General)

120 VAC Distribution - #3 Vital Instrument Bus 1

120 VAC Distribution - #4 Vital Instrument Bus 2

120 VAC Distribution - 5 Vital Instrument Power Bus 3

120 VAC Distribution - #6 Instrument Power

120 VAC Distribution - #7 Preferred Power System

120 VAC Distribution - #8 TSC Power Systems and Failures

120 VAC - #9 Tech Spec and TRM

Student References

Plant Lighting and Security Diesel Generator - #1 Intro and Normal Lighting

Plant Lighting and Security Diesel Generator - #2 Standby, Emergency and Outside Ltg

Plant Lighting and Security Diesel Generator - #3 Security DG

Plant Lighting and Security Diesel Generator - #4 Failure Modes and conclusion

DC Distribution - Student References

DC Distribution - #1 Introduction and objectives

DC Distribution - #2 125 VDC Vital Distribution

DC Distribution - #3 DG 125 VDC Power Distribution

DC Distribution - #4 250 VDC Distribution

DC Distribution - #5 48VDC and 24 VDC Systems

DC Distribution - #6 Failures and Interrelationships

DC Distribution - #7 Tech Specs

Diesel Generator Student References

Diesel Generator Objectives/Overview

Diesel Generator Fuel Oil

Diesel Generator Air Start

Diesel Generator Lube Oil

Diesel Generator Jacket Water Subsystem

Diesel Generator Ventilation

Diesel Generator Control; Ready-to-Start

Diesel Generator Start Circuits

Diesel Generator Shutdown Circuits

Diesel Generator Parallel Operation and Loading

Diesel Generator Emergency Start Circuits/Testing

Diesel Generator Interrelated Systems/Precautions and Limitations

Diesel Generator Technical Specifications

Diesel Generator Operating Experience

Blackout Student References

Blackout - Objectives, Description, Purpose and Design Basis

Blackout - Circuit Flowpath and Components - Loss of Voltage, Degraded Voltage, Overvoltage

Blackout - Power Supply and Layout

Blackout - Relays

Blackout - Sequence without an Accident, Sequence with an Accident

Blackout - Blackout Relay Reset, Logic Test Panel, Failure Modes

Blackout - Precautions and Limitations, Technical Specifications, Operating Experience

Reactor Vessel Student Files

Reactor Vessel and Internals Objectives, Overview, Purpose and Design

Reactor Pressure Vessel and Reactor Vessel Head

Reactor Vessel Lower Internals

Reactor Vessel Upper Internals

Fuel and Fuel Assemblies

Control Rods

Core Flowpaths

Reactor Vessel Level Indicating System (RVLIS)

Mansell Level Monitoring System (MLMS)

Technical Specifications

RCS Student Files

RCS Objectives, Purpose, Design Basis

RCS Pressure Protection, Overview, System Connections

RCS Reactor Coolant Pump Purpose, Design Basis, Design Characteristics

RCS RCP Pump overview

RCS RCP Motor Overview

RCS Reactor Coolant Pump Seals

RCS Reactor Coolant Pump Start Interlocks and Automatic Trips

RCS RCP Motor Cooling, Temperature Detection, Heaters, Vibrational Monitoring, Normal Parameters

RCS RCP Impact and Response to Failures, Procedure Precautions and Limitations

RCS Piping Configuration, Flow and Pressure Instrumentation

RCS Temperature, Tavg and ΔT, Loss of Power

RCS Interrelated Systems

RCS Precautions and Limitations, Technical Requirements

RCS Technical Specifications

RCS and RCP Summary Review, Operating Experience

PZR and PRT Student Files

PZR-PRT Objective, Purpose, Design Bases, Overview

Pressurizer Vessel, Surge Line, Level Instrumentation

Pressurizer Pressure Instrumentation, Normal Spray, Auxiliary Spray

Pressurizer PORVs, PORV Block Valves, Safety Valves

Pressurizer Relief Tank (PRT) and Pressurizer Heaters

Pressurizer Pressure Control, LTOP (COPS)

Pressurizer Level Control, Pressure and Level Response to Failures

Pressurizer and PRT Interrelated Systems, Precautions and Limitations, Technical Specifications, and Technical Requirements

CVCS Student References

CVCS1 Objectives Purpose and Introduction

CVCS 2 Overview and major flowpaths

CVCS 3 Letdown Up to Orifice Isolation Valves

CVCS 4 Letdown cont up to LD Hx Relief

CVCS 5 Letdown 3 up to VCT

CVCS 6 VCT and VCT Level contrtol

CVCS 7 Chemical Add and Makeup Control 1

CVCS 8 Makeup Controls and Flowpaths

CVCS 9 Charging 1 up to Flow Cont Valve

CVCS 10 Charging completion

CVCS 11 Seal Inj Return and Excess LD

CVCS 12 System Interrelationships and Failure Examples

CVCS 13 TS and TRM examples and discussion

CVCS 14 End of Lecture Obj Review

Steam Generator Student Files

Steam Generator Objectives, Purpose, Design and Design Basis

Steam Generator Level Instrumentation

Steam Generator Blowdown

Steam Generator Failure Impacts and Response, Procedure Precautions and Limitations

Steam Generator Technical Specifications

Student Downloads

PWS Part 1 - Purpose and Objectives

PWS Part 2 - Design & Overview

PWS - Part 3- Components R2

PWS - Part 4 - Procedures, T.S. & Summary R2

GRW Student Files

Gaseous Radwaste System Objectives, Purpose/Function, Design Basis, General Dscription

Gaseous Radwaste System - Vent Header

Gaseous Radwaste System - Waste Gas Compressors

Gaseous Radwaste System - Gas Decay Tanks

Gaseous Radwaste System - Release Path and Cover Gas

Gaseous Radwaste System - System Interfaces, System Response, Normal and Abnormal Operation

Gaseous Radwaste System Overview/Review

LRW Student Files

Liquid Radwaste System - Objectives, Purpose/Design, General Description

Liquid Radwaste System - Keyway Sump and Pocket Sump

Liquid Radwaste System - Raceway Sump

Liquid Radwaste System - Reactor Coolant Drain Tank (RCDT)

Liquid Radwaste System - Tritiated Drain Collector Tank (TDCT) and Floor Drain Collector Tank (FDCT)

Liquid Radwaste System - Cask Decontamination Collector Tank (CDCT) and Monitor Tank (MT)

Liquid Radwaste System - Holdup Tanks (HUT) and Sump Tank

Liquid Radwaste System - Auxiliary Building Floor and Equipment Drain Sump, Annulus Sump, Passive Sump

Liquid Radwaste System - Chemical Drain Tank, Laundry and Hot Shower Tanks, Spent Resin Storage Tank

Liquid Radwaste System - Additional Equipment Building Floor and Equipment Drain Sump, Condensate Demineralizer System Processing Tanks, Radwaste Demineralizer System, Liquid Radwaste Release

Liquid Radwaste System - Interrelations, Normal/Abnormal Operations, ODCM

Liquid Radwaste System - Overview/Review

Flood Mode Boration Student References

Flood Mode Boration

Student Reference Files

Raw Service Water - Objectives, Overview, Purpose, and Flowpath

Raw Service Water - Storage Tanks, RSW Pumps, Level Control Valves

Raw Service Water - Failure Response, Interrelated System, Summary

ERCW Student Files

Essential Raw Cooling Water - Objectives, System Overview

Essential Raw Cooling Water - Purpose and Design Basis

Essential Raw Cooling Water - Travelling Screens, Screenwash Pumps, and ERCW Pumps

Essential Raw Cooling Water - Header Isolations, Strainers, Cross-ties, DG Supply

Essential Raw Cooling Water - Main Header Supplies, ESF Header Supplies, Containment Isolation

Essential Raw Cooling Water - Component Cooling Heat Exchanger, Radiation Monitoring, Discharge Headers

Essential Raw Cooling Water - System Interrelations, Failures, Precautions and Limitations

Essential Raw Cooling Water - Technical Specifications, ODCM

Essential Raw Cooling Water - Overview/Review

Student Reference Files

Raw Cooling Water - Objectives, System Overview, Purpose, Design Bases

Raw Cooling Water- Flowpath and Components

Raw Cooling Water - Interrelated Systems, Precautions and Limitations, Recap

Student Reference Files

Component Cooling Water System - Objectives, Overview, Purpose, Design Bases

Component Cooling Water System - System Flowpath and General Description

Component Cooling Water System - CCS Pumps, CCS Heat Exchangers

Component Cooling Water System - Radiation Monitors, Surge Tanks, Seal Leakage Return

Component Cooling Water System - Thermal Barrier Booster Pumps, Thermal Barrier Isolation Valves, RCP Oil Cooler Isolation Valves

Component Cooling Water System - Excess Letdown HX, Letdown HX, Sample HXs, RHR HXs, and SFP HXs

Component Cooling Water System - Failure Response, Interrelated Systems, Precautions and Limitations, Technical Specifications, System Recap

Student References

Containment 1 Objectives Purpose and Overview

Containment 2 Design Basis Information

Containment 3 Major Components up to isolation Logic

Containment 4 Phase A Isolation Logic

Containment 5 Phase B Isolation Logic

Containment 6 CVI Logic

Containment 7 System Failures and Interrelationships

Containment 8 Tech Specs and OE

Containment 9 Summary and Objective Review

Student References

Ice Condenser 1 Objectives Intro and Purpose

Ice Condenser 2 Ice Condenser Design

Ice Condenser 3 Cooling Loops up to Floor

Ice Condenser 4 Floor Cooling

Ice Condenser 5 Ice Making and Transport INFO ONLY

Ice Condenser 6 System Interrelationships and Tech Specs

Ice Condenser 7 Summary and objective review

Student Reference Files

Containment Spray - Objectives, Overview, Purpose, Design Bases, Flowpath

Containment Spray - Containment Spray Pumps and Suction Valves

Containment Spray - Heat Exchangers, Mini-flow Valves, Header Isolation Valves

Containment Spray - RHR Spray

Containment Spray - Containment Spray Actuation Logic

Containment Spray - Failure Response, Interrelated Systems, Precautions and Limitations, Technical Specifications

Student References

Containment Cooling and Purge 1 Obj and Overview

Containment Cooling and Purge 2 Upper Containment Cooling Units

Containment Cooling and Purge 3 Lower Containment Cooling Units

Containment Cooling and Purge 4 CRDM Cooling Units

Containment Cooling and Purge 5 Incore Instrument Room and Space Heaters

Containment Cooling and Purge 6 Containment Purge System

Containment Cooling and Purge 7 System Interrelationships

Containment Cooling and Purge 8 TS TRM ODCM and OE Summary

Containment Cooling and Purge 9 Objective Review and Summary

CGC Student References

CGC - Part 1 - Objectives, Purpose, & Design Bases R2

CGC - Part 2 - Hydrogen Analyzers R2

CGC - Part 3 - Air Return Fans R2

CGC - Part 4 - Hydrogen Mitigation (Ignitors) R2

CGC - Part 5 - Hydrogen Recombiners R2

CGC - Part 6 - Procedures, TS, & Review R2

Student References

Introduction to the Integrated Computer System ICS

CSA Student References

CSA - Part 1 - Objectives, Purpose, & Overview, R2

CSA - Part 2 - Compressors A & B, R2

CSA - Part 3 - Compressors C & D, Dryers & Service Air, R2

CSA - Part 4 - Aux Air, & OE, R2

CSA - Part 5 - Review

EGTS Student References

EGTS 1 Introduction Purpose and Design Bases

EGTS 2 Flowpaths for vac fans and egts filter trains

EGTS 3 Vacuum System Detailed Description

EGTS 4 Filter Trains up to Fans

EGTS 5 Filter Fans to completion

EGTS 6 Summary and Wrap up

Student Reference Files

Residual Heat Removal - Objectives, Overview, Purpose, Design Bases, Flowpaths

Residual Heat Removal - Pump Suction valves (CNMT, RWST, RCS)

Residual Heat Removal - RHR Pumps, Mini-flow Valves, Heat Exchangers

Residual Heat Removal - HX Outlet, HX Bypass and Bypass Isolation, Cold Leg Isolation, Hot Leg Isolation, Cross-ties, SI and CCP Supply, Suction Relief

Residual Heat Removal - Pipe Break Monitor, RHR Status Monitoring, RHR Spray, Failure Response, Interrelated Systems

Residual Heat Removal - Precautions and Limitations, Technical Specifications

Residual Heat Removal - Preview/Review

Student Reference Files

Emergency Core Cooling System - Objectives, Purpose, Design Bases

Emergency Core Cooling System - Overview

Emergency Core Cooling System - Safety Injection Actuation Logic and Blocks

Emergency Core Cooling System - Resetting Safety Injection

Emergency Core Cooling System - Containment Sump and Cold Leg Accumulators

Emergency Core Cooling System - RWST and SI Pump Suction Valves

Emergency Core Cooling System - SI Pumps and Miniflow Valves, Emergency Flowpaths

Emergency Core Cooling System - CVCS and RHR ECCS Function and Flowpath

Emergency Core Cooling System - Precautions and Limitations, Technical Specifications

Emergency Core Cooling System - Summary

AB Ventilation Student References

Aux Bldg Ventilation - Part 1 - Objectives, Purpose, & Design

Aux Bldg Ventilation - Part 2 - General HVAC R3

Aux Bldg Ventilation - Part 3 - Heating & Cooling

Aux Bldg Ventilation - Part 4 - ESF Coolers

Aux Bldg - Part 5 -Electrical Room HVAC & Summary

ABGTS Student References

ABGTS - Part 1 - Objectives, Purpose & Design Features

ABGTS - Part 2 - Fans & Dampers

ABGTS - Part 3 - Air Cleanup and ABSCE

ABGTS - Part 4 - Tech Spec, OE, & Summary

Student References

PASF 1 and Done

Control Building Ventilation Student References

CB Ventilation - Part 1 - Objectives, Purpose, and Overview

CB Ventilation - Part 2 - Normal & Emergency Flowpaths

CB Ventilation - Part 3 - Misc. Subsystems

CB Ventilation - Part 4 - T.S. & Review

Student References - No Drawings for this lesson

Annuciators 1 Objective and operation up to window reflash

Annuciators 2 Reflash to faults

Annunciators 3 Faults to end summary review

Condenser Circulating Water Student References

CCW - Part 1 - Objectives & Overview

CCW - Part 2 - Traveling Screens and CCW Pumps

CCW - Part 3 - Bearing Lube Water & Taprogge Cleaning, R1

CCW - Part 4 - Vacuum Priming & Cooling Towers

CCW - Part 5 - Procedures and Review

Condensate System - Student Reference Files

Condensate System - Objectives, Purpose, Design Bases

Condensate System - Overview and Recirculation Flowpaths

Condensate System - Hotwell and Hotwell Pumps

Condensate System - Demineralizer Beds, Demineralizer Bypass, Condensate DI Booster Pumps, Condensate DI Booster Pump Bypass

Condensate System - Condensate Booster Pumps, Automatic Recirculation Control (ARC) Valves, Exhaust Hood Spray, Main Feed Pump Isolation Valves, Condensate Storage Tanks

Condensate System - Heat Loads

Condensate System - Hotwell Level Control

Condensate System - Condenser Vacuum Purpose and Overview

Condensate System - Condenser Vacuum Components

Condensate System - Gland Seal, Seal Injection, Failure Response

Condensate System - Interrelated Systems, TS, TRM, ODCM

Student Reference Files

Heater Drains and Vents - A Moisture Separator Reheater Overview

Heater Drains and Vents - Objectives, Purpose and Design

Heater Drains and Vents - High Pressure Heater Drains and Vents Flowpaths

Heater Drains and Vents - Low Pressure Heater Drains and Vents Flowpaths

Heater Drains and Vents - General Components

Heater Drains and Vents - High Pressure, Low Pressure, and Belly Drain Tanks

Header Drains and Vents - No. 1, No. 2, No. 3 Heaters

Heater Drains and Vents - No. 3 Heater Drain Tank

Heater Drains and Vents - No. 3 Heater Drain Tank Pumps

Heater Drains and Vents - No. 4, No. 5, No. 6, No. 7 Heaters

Heaters Drains and Vents - No. 7 Heater Drain Tank and Pumps

Heater Drains and Vents - MFPT Condenser Drain Tank and Pumps

Heater Drains and Vents - Atmospheric Drain Sump

Heater Drains and Vents - Failure Response and Interrelated Systems

Student Reference Files

Auxiliary Feedwater System - Objectives, Purpose, Design Bases, Overview

Auxiliary Feedwater System - Condensate Storage Tanks and ERCW

Auxiliary Feedwater System - Motor Driven AFW Pumps and Valves

Auxiliary Feedwater System - Turbine-Driven AFW Pump and Valves

Auxiliary Feedwater System - Failures, Interrelated Systems, Precautions and Limitations, Technical Specifications

Student Reference Files

Main Feedwater - Objectives, Purpose, Design Bases

Main Feedwater - MFW Pump Turbine, Seals, and Drains

Main Feedwater - MFP Turbine Speed Control and Turning Gear

Main Feedwater - MFP Suction, Recirc, and Bypass Valves

Main Feedwater - MFP Turbine Lubricating Oil

Main Feedwater - MFP Turbine Control Oil

Main Feedwater - MFW Turbine Trip Oil

Main Feedwater - No. 1 Heaters and Leading Edge Flowmeter

Main Feedwater - MFW Regulating and Bypass Valves

Main Feedwater - Steam Generator Water Level Control

Main Feedwater - Feedwater Isolation Valves and Feedwater Isolation

Main Feedwater - Failure Response, Interrelated Systems

Main Feedwater - Precautions and Limitations, Technical Specifications, Technical Requirements

Main Feedwater - Preview/Review

Classifications of SSCs for TVA

Student Reference

Student References

Main Steam 1 Objectives Intro and flowpath

Main Steam 2 Flow Restrictors_Pressure_Flow Instruments

Main Steam 3 ARVs

Main Steam 4 Safety Valves MSIVs and Bypass Valves and Steam Traps

Main Steam 5 Steam Dump Drain Tank through TS for MS

Main Steam 6 Extraction Steam Intro to Number one Line

Main Steam 7 Extraction Steam Line 1

Main Steam 8 Intermediate Fw Htrs Extraction

Main Steam 9 LP heaters and MSR Extraction

Main Steam 10 MSR Controls vents and drains

Main Steam 11 Extraction and MSR failures and interrelationships

Main Steam 12 Obj Review and Summary

Steam Dumps Student References

Steam Dumps - Part 1 - Objectives, Purpose, & Overview

Steam Dumps - Part 2 - Valves, Controllers, & Solenoids

Steam Dumps - Part 3 - Load Rejection Controller

Steam Dumps - Part 4 - Reactor Trip Controller

Steam Dumps - Part 5 - Steam Pressure Controller

Steam Dumps - Part 6 - Procedures, Failures, & Review

Student References

MTGC 1 Objectives Purpose and Introduction

MTGC 2 Flowpath

MTGC 3 Components up to Valves

MTGC 4 Components valves

MTGC 5 Components from valves to controller

MTGC 6 Components Digital EH Control Logic

MTGC 7 Operator Interface

MTGC 8 Failures interrelationships and TS

MTGC 9 Obj Review and Summary

Main Turbine & Auxiliaries Student References

Main Turbine - Part 1 - Objectives Purpose and Turbine Description

Main Turbine - Part 2 - Main Turbine Lube Oil

Main Turbine - Part 3 - Supervisory Instrumentation

MTA 4 Turning Gear Bearings and Gland Seals

MTA 5 Turbine Extraction Drains to end

MTA 6 Objective Review at the end

Student Reference Files

Excore Nuclear Instrumentation System - Objectives, Overview, Purpose, Design Bases

Excore Nuclear Instrumentation System - Overview

Excore Nuclear Instrumentation - M-13 Neutron Monitoring Cabinet

Excore Nuclear Instrumentation System - Source Range and Detector

Excore Nuclear Instrumentation System - Wide Range Amplifier, Wide Range Signal Processor, Optical Isolator

Excore Nuclear Instrumentation System - Source Range Instrumentation

Excore Nuclear Instrumentation System - Audio Countrate/Scaler Timer, Shutdown Monitor

Excore Nuclear Instrumentation System - Source Range Trips, Blocks, Permissives and Alarms, Technical Specifications

Excore Nuclear Instrumentation System - Intermediate Range Instrumentation

Excore Nuclear Instrumentation System - Intermediate Range Trips, Blocks, Permissives and Alarms, Technical Specifications

Excore Nuclear Instrumentation System - Power Range Instrumentation

Excore Nuclear Instrumentation System - Power Range Trips, Blocks, Permissives, and Alarms

Excore Nuclear Instrumentation System - Power Range Technical Specifications

Excore Nuclear Instrumentation - Miscellaneous Indications and Controls, Comparator Drawer

Excore Nuclear Instrumentation System - Failures and Summary

Student Reference Files

Rod Control and Rod Position Indication - Objectives, Overview, Purpose, and Design Bases

Rod Control and Rod Position Indication - Rod Control Cluster Assemblies (RCCAs)

Rod Control and Rod Position Indication - Rod Control Power Supplies, Reactor Trip and Bypass Breakers

Rod Control and Rod Position Indication - Control Rod Drive Mechanisms (CRDMs)

Rod Control and Rod Position Indication System - Rod Control Circuits

Rod Control and Rod Position Indication System - Rod Control Logic Circuits

Rod Control and Rod Position Indication - Rod Position Indication System

Rod Control and Rod Position Indication - Rod Insertion Limits (RIL), Main Control Room Controls and Indications

Rod Control and Rod Position Indication - Failure Responses, Alarms

Rod Control and Rod Position Indication - Interrelated Systems, Precautions and Limitations, Technical Specifications

Rod Control and Rod Position Indication - Summary

Student References

RPS 1 Objectives_Purpose_Design Overview

RPS 2 Overview and flowpath of signals

RPS 3 SSPS Overview_Power Distribution and Input Bays

RPS 4 Logic Cabinet and General Warning

RPS 5 Output cabinet_test cabinet_trip breakers

RPS 6 Control Room Actuation_block_reset switches

RPS 7 Indications and Trips up to RCS low flow

RPS 8 RCS Low flow to completion of Rx Trips

RPS 9 Permissives

RPS 10 Control Grade Interlocks Cs

RPS 11 ESF and P and Ls

RPS 12 Tech Specs

Student References

Eagle21 1 Objectives Purpose and Design Bases

Eagle21 2 Overview of System

Eagle21 3 Components Power Supply_Input_LCP

Eagle 21 4 LCP and EPT

Eagle21 5 Completion

Eagle21 6 Summary Review

Student References

Incores 1 Obj_Purpose_Design_Overview

Incores 2 Thermocouples

Incores 3 MIDS and TS

Incores 4 Focus Summary

Student Reference Files

AMSAC - Objectives and Background

AMSAC - AMSAC Instrumentation and Logic

AMSAC - Test/Maintenance, Failure Response, Precautions and Limitations

Student Reference Files

Radiation Monitoring - Objectives, Purpose, Design Criteria, General Description

Radiation Monitors - General Area Radiation Monitors

Radiation Monitors - Process and Effluent Liquid Monitors

Radiation Monitors - Process and Effluent Gas Monitors Part I

Radiation Monitors - Process and Effluent Gas Monitors Part II

Radiation Monitors - Airborne Monitors, Access Monitors, Precautions and Limitations, Summary

Loose Parts Monitoring Student References

Loose Parts - Part 1 - Objectives, Purpose, & Loose Parts Monitor

Loose Parts - Part 2 - RCP Vibration & Review

Student Reference Files

Seismic Monitoring - Objectives, Purpose, Design Basis, Overview

Seismic Monitoring - FBA-3, Seismic Rack, ETNA

Student References

HPFP 1 Objectives and Overview

HPFP 2 Detection system

HPFP 3 Water Supply Portion including pumps

HPFP 4 Distribution and Water Suppression Systems

HPFP 5 CO2 and completion

HPFP 6 Summary and Obj Review

Spent Fuel Cooling Student References

Spent Fuel Pool Cooling - Part 1 - Objectives, Purpose, & Design

Spent Fuel Pool Cooling - Part 2 - Pool & Skimmer

Spent Fuel Pool Cooling - Part 3 - SFPC & Flood Mode

Spent Fuel Pooling Cooling - Part 4 - Tech Spec & Review

Student Reference Files

Gland Seal Water - Gland Seal Water

Student Reference Files

Injection Water - Objectives, Purpose, Description, Flowpaths

Injection Water - Injection Water Pumps, Pressure Control Valves, Failure Response