HPT001.014C

Revision 2

Page 6 of 89


NUCLEAR TRAINING

TRAINING MATERIALS COVERSHEET

RADIOLOGICAL PROTECTION TECHNICIAN INITIAL TRAINING
PROGRAM
SYSTEMS TRAINING / HPT001
COURSE
/ COURSE NO.
Boiling water reactor systems / HPT001.014C
LESSON TITLE / LESSON PLAN NO.
INPO ACCREDITED / YES / X / NO
MULTIPLE SITES AFFECTED / YES / X / NO
PREPARED BY
Brian K. Fike / Original Signed
Signature / Date
PROCESS REVIEW
David L. Stewart / Original Signed
Signature / Date
LEAD INSTRUCTOR/PROGRAM MGR. REVIEW
Rob L. Coleman / Original Signed
Signature / Date
PLANT CONCURRENCE / ______
Signature / Date
TVAN CONCURRENCE (If applicable) / ______
Signature / Date
BFN SQN WBN CORP
______
Receipt Inspection and Distribution:
Training Materials Coordinator /Date
Standardized Training Material
Copies to: / SQN Technical Training Manager, STC 2T-SQN
WBN Technical Training Manager, WTC 1D-WBN
BFN Technical Training Manager, BFT 2A-BFN

TVA 40385 [NP 6-2003] Page 1 of 2

NUCLEAR TRAINING
REVISION/USAGE LOG
REVISION
NUMBER / DESCRIPTION
OF CHANGES / DATE / PAGES
AFFECTED / REVIEWED BY
0 / Initial Issue. / ALL
1 / Program was inactive. Reviewed and revised to reactivate. / 3/23/90 / ALL / Woodrow R. Burbage
2 / General revision during program reactivation to enable lesson / TBD / ALL / Brian K. Fike
plan to be used in conjunction with material maintained current by Operations Training.

TVA 40385 [NP 6-2003] Page 2 of 2

I.   PROGRAM: Radiological Protection Technician Initial Training

II. COURSE: Systems Training

III. LESSON TITLE: Boiling Water Reactor Systems

IV. LENGTH OF LESSON/COURSE: 80 Hours

V. TRAINING OBJECTIVES:

A. Terminal Objective:

Upon completion of the Nuclear Plant Systems Orientation for BWRs course , the student will demonstrate knowledge of Browns Ferry plant systems, by scoring 80% on the course written examinations.

B. Enabling Objectives:

Included in HO-3 is a list of enabling objectives that apply to the Boiling Water Reactor Systems course (HPT001.014C) for Radiological Protection Technicians. This course will be taught using Radiological Protection Technician Training lesson plans and Operations Hot License Training lesson plans.

VI. Training Aids

A. Whiteboard

B. Markers

VII. Training Materials

A. Appendices

1.  Handouts

a.  HO-1, List of Abbreviations and Acronyms

b.  HO-2, Course Curriculum

c.  HO-3, Enabling Objectives (Student’s Copy)

2.  Transparencies

None

3.  Appendix A, Enabling Objectives (Instructor’s Copy)

B. Attachments

Lesson plans listed in HO-2, Course Curriculum

VIII. References

INPO ACAD 93-008, Guidelines for Training and Qualifications of Radiological Protection Technicians, August 1993.
IX. Introduction

A. This lesson provides an overview of the course including the course administration, criteria for passing, objectives, curriculum, and method of presentation.

B. Method of Presentation

1. Lecture and discussion with frequent questioning by instructor.

2. Reference for each lecture is the corresponding lesson plan listed on curriculum handouts.

3. Operations Training lesson plans used to ensure accuracy since most recent license exam.

4. Students are responsible for learning objectives listed in Enabling Objectives handout (Student’s Copy).

C. Instructional Methodology

The following guidelines are to be utilized by the instructor to ensure consistency.

1.  For HPT001.XXX lesson plans, instructor will present material as directed by the lesson plan. For HPT001.014E Radiological Hazards Associated with Boiling Water Reactors, this lesson will be integrated with the course curriculum such that radiological hazards associated with each system (where applicable) are presented immediately after the Operations lesson plan has been presented.

2.  For Operations lesson plans, the instructor will present the material as follows:

a.  Introduce the particular lesson in a manner which will motivate the students and provide a reason for study by RadCon personnel.

b.  Emphasize Error Prevention Tools as appropriate in each lesson.

c.  Periodically ask questions appropriately to ensure comprehension.

d.  Summarize the lesson by reviewing the enabling objectives in HO-3 Students should be encouraged to write answers to each objective.

e.  Standardized answers to objectives are provided in Appendix A.

NOTE: The page numbers referenced in the objective answers may have shifted. Since Appendix A is an instructor tool only, the instructor will verify page numbers as part of their class preparation. The intent of this section is to provide the instructor with a tool to ensure continuity and consistency. This document should NOT be provided to the students.

HPT001.014C

Revision 2

Page 12 of 89

X. Lesson Body

A. Present HPT001.014D Introduction to BWRs

B. Present OPL171.002 Reactor Pressure Vessel/Internals

C. Present OPL171.053 Fuel Handling Equipment and Interlocks

D. Present OPL171.006 Control Rod Blade/Drive Mech

E. Present OPL171.007 Recirculation System And Flow Control

F. Present OPL171.039 Standby Liquid Control

G. Present OPL171.019 Source Range Monitors

H. Present OPL171.020 Intermediate Range Monitors

I. Present OPL173.148 Power Range Neutron Monitor System

J. Present OPL171.023 Traversing Incore Probe System

K. Present OPL171.052 Fuel Pool Cooling And Cleanup

L. Present OPL171.209 Auxiliary Decay Heat Removal

M. Present OPL171.013 Reactor Water Cleanup

N. Present OPL171.047 Reactor Building Closed Cooling Water

O. Present OPL171.050 Condenser Cooling Water

P. Present OPL171.048 Raw Cooling Water

Q. Present OPL171.049 Raw Service Water/Fire Protection

R. Present OPL171.009 Main Steam

S. Present OPL171.011 Condensate System

T. Present OPL171.026 Reactor Feedwater System

U. Present OPL171.030 Off-Gas System

V. Present OPL171.220 H2 Water Chemistry


W. Present OPL171.040 Reactor Core Isolation Cooling System

X. Present OPL171.042 High Pressure Coolant Injection System

Y. Present OPL171.043 Automatic Depressurization System

Z. Present OPL171.051 Emergency Equipment Cooling Water System

AA. Present OPL171.046 Residual Heat Removal Service Water System

BB. Present OPL171.044 Residual Heat Removal System

CC. Present OPL171.045 Core Spray System

DD. Present OPL171.016 Primary And Secondary Containment

EE. Present OPL171.032 Containment Nitrogen Systems

FF. Present OPL171.018 Standby Gas Treatment System

GG. Present HPT177.019 Radwaste Systems

HH. Present HPT001.014E Radiological Hazards Associated with Boiling Water Reactors

XI. Summary

This lesson has presented an overview of the BWR Systems course. Students should now be aware of the course schedule, the examination process, and passing criteria in accordance with the course objectives.

LIST OF ABBREVIATIONS AND ACRONYMS

Abbreviation Description

DP Delta-P, Differential Pressure

DT Delta-T, Differential Temperature

ADHR Auxiliary Decay Heat Removal

ADS Automatic Depressurization System

ALARA As Low As Reasonably Achievable

APRM Average Power Range Monitor

ARM Area Radiation Monitor

AUO Assistant Unit Operator

CCW Condenser Circulating Water

CIV Combined Intermediate Valve

CRD Control Rod Drive

CRW Clean Radwaste

CSS Core Spray System

CST Condensate Storage Tank

DBA Design Basis Accident

DCN Design Change Notice

D/P Differential Pressure

DRW Dirty Radwaste

DW Drywell

DWEDS Drywell Equipment Drain Sump

DWFDS Drywell Floor Drain Sump

ECCS Emergency Core Cooling System

EECW Emergency Equipment Cooling Water

EPRI Electrical Power Research Institute

EQ Environmental Qualification

FCV Flow Control Valve

FE Flow Element

FI Flow Indicator

FPCC Fuel Pool Cooling and Cleanup

FSAR Final Safety Analysis Report

FT Flow Transmitter

HCU Hydraulic Control Unit

HEPA High Efficiency Particulate Air (Filter)

HPCI High Pressure Coolant Injection

HWC Hydrogen Water Chemistry

Hx Heat Exchanger

INPO Institute of Nuclear Power Operations

IRM Intermediate Range Monitor

HO-1 List of Abbreviations and Acronyms, page 1 of 3

LIST OF ABBREVIATIONS AND ACRONYMS (continued)

LCV Level Control Valve

LER Licensee Event Report

LOCA Loss of Coolant Accident

LPCI Low Pressure Coolant Injection

LPRM Local Power Range Monitor

MOV Motor Operated Valve

MS Main Steam

MSIV Main Steam Isolation Valve

MSL Main Steam Line

MSV Main Stop Valve

MWt Megawatts thermal

NPSH Net Positive Suction Head

NRC Nuclear Regulatory Commission

OI Operating Instruction

PWR Pressurized Water Reactor

RBCCW Reactor Building Closed Cooling Water

RBEDS Reactor Building Equipment Drain Sump

RBFDS Reactor Building Floor Drain Sump

RCIC Reactor Core Isolation Cooling

RCP Reactor Coolant Pump

RCS Reactor Coolant System

RCW Raw Cooling Water

REP Radiological Emergency Plan

RFP Reactor Feedwater Pump

RFPT Reactor Feedwater Pump Turbine

RHR Residual Heat Removal System

RHRSW Residual Heat Removal Service Water

RPV Reactor Pressure Vessel

RSW Raw Service Water

RWCU Reactor Water Cleanup

Rx Reactor

SCFM Standard Cubic Feet per Minute

SDC Shutdown Cooling

SDV Scram Discharge Volume

SFSP Spent Fuel Storage Pool

SGT Standby Gas Treatment

SI Surveillance Instruction

SJAE Steam Jet Air Ejector

SLC Standby Liquid Control

SOER Significant Operating Experience Report

SPE Steam Packing Exhauster

HO-1 List of Abbreviations and Acronyms, page 2 of 3

LIST OF ABBREVIATIONS AND ACRONYMS (continued)

SRM Source Range Monitor

SRO Senior Reactor Operator

SRV Safety Relief Valve

STA Shift Technical Advisor

S/U Startup

TCV Turbine Control Valve

TMI Three Mile Island

TSV Turbine Stop Valve

HO-1 List of Abbreviations and Acronyms, page 3 of 3

HPT001.014C

Revision 2

Page 14 of 89

COURSE CURRICULUM - WEEK ONE

TOPIC LESSON PLAN NUMBER

MONDAY

INTRODUCTION TO BWRs HPT001.014D

REACTOR PRESSURE VESSEL/INTERNALS OPL171.002

FUEL HANDLING EQUIPMENT AND INTERLOCKS OPL171.053

TUESDAY

CONTROL ROD BLADE/DRIVE MECH. OPL171.006

RECIRCULATION SYSTEM and FLOW CONTROL OPL171.007

WEDNESDAY

STANDBY LIQUID CONTROL OPL171.039

SOURCE RANGE MONITORS OPL171.019

INTERMEDIATE RANGE MONITORS OPL171.020

POWER RANGE NEUTRON MONITOR SYSTEM OPL173.148

TRAVERSING INCORE PROBE SYSTEM OPL171.023

THURSDAY

FUEL POOL COOLING AND CLEANUP OPL171.052

AUXILIARY DECAY HEAT REMOVAL OPL171.209

REACTOR WATER CLEANUP OPL171.013

REACTOR BUILDING CLOSED COOLING WATER OPL171.047

______

FRIDAY

CONDENSER COOLING WATER OPL171.050

RAW COOLING WATER OPL171.048

RAW SERVICE WATER/FIRE PROTECTION OPL171.049

MAIN STEAM OPL171.009

HO-2 Course Curriculum, page 1 of 2

COURSE CURRICULUM - WEEK TWO

TOPIC LESSON PLAN NUMBER

MONDAY

REVIEW N/A

EXAM N/A

CONDENSATE SYSTEM OPL171.011

TUESDAY

REACTOR FEEDWATER SYSTEM OPL171.026

OFF-GAS SYSTEM OPL171.030

H2 WATER CHEMISTRY OPL171.220

_

WEDNESDAY

REACTOR CORE ISOLATION COOLING SYSTEM OPL171.040

HIGH PRESSURE COOLANT INJECTION SYSTEM OPL171.042

AUTOMATIC DEPRESSURIZATION SYSTEM OPL171.043

EMERGENCY EQUIPMENT COOLING WATER SYSTEM OPL171.051

THURSDAY

RESIDUAL HEAT REMOVAL SERVICE WATER SYSTEM OPL171.046

RESIDUAL HEAT REMOVAL SYSTEM OPL171.044

CORE SPRAY SYSTEM OPL171.045

PRIMARY and SECONDARY CONTAINMENT OPL171.016

CONTAINMENT NITROGEN SYSTEMS OPL171.032

FRIDAY

STANDBY GAS TREATMENT SYSTEM OPL171.018

RADWASTE SYSTEMS HPT177.019

REVIEW N/A

EXAM N/A

HO-2 Course Curriculum, page 2 of 2

HPT001.014C

Revision 2

Page 52 of 89

Boiling water reactor systems

for radiological protection technicians

TERMINAL OBJECTIVE: Upon completion of the Nuclear Plant Systems Orientation for BWRs course , the student will demonstrate knowledge of Browns Ferry plant systems, by achieving a score of at least 80% on the course written examinations.

ENABLING OBJECTIVES:

On the following pages is a list of enabling objectives that apply to the Boiling Water Reactor Systems course (HPT001.014C) for Radiological Protection Technicians. This course will be taught using Radiological Protection Technician Training lesson plans and Operations Hot License Training lesson plans, supportive of these objectives.

The students will perform each enabling objective from memory, under the examination ground rules, utilizing information and materials provided by the instructor, and per any additional conditions stated in a particular objective.

HPT001.014C

Revision 2

Page 52 of 89

OPL171.002 Reactor Pressure Vessel and Internals

1. Describe the normal flow path of coolant through the Reactor Pressure Vessel (RPV).

2. Describe the injection paths of Emergency Core Cooling Systems (RHR, CSS, and HPCI) to the RPV.

3. Given a drawing of the Reactor Vessel label the following components and give their purpose:

a. Baffle Plate

b. Feedwater inlet nozzles and spargers

c. Main Steam outlet nozzles

d. Jet pump assembly

e. Main Steam separators and dryers

f. Core Plate

g. Top Guide

h. Core Shroud

i. Core Spray Sparger

j. Recirc suction and inlet

k. Vessel Support Skirt and Ring Girder

l. Control Rod Drive Housings/Support Network

m. Control Rod Guide Tube

n. Orificed Four-Lobed Fuel Support

4. Describe the jet pump design feature that ensures core flooding is possible following a DBA LOCA.


OPL171.053 Fuel Handling Equipment And Interlocks

1. Given a drawing, locate the following Refuel Floor Areas:

a. Reactor Cavities (all units)

b. Spent Fuel Pools (all units)

c. Equipment Pits (all units)

d. U1/2 Transfer Canal

e. New Fuel Inspection Stands

f. Containment Relief (Blow-out) Panels

2. Identify the purpose of the following tools/components:

a. Refueling Bridge/Platform

b. New Fuel Inspection Stand

c. Fuel Prep Machine

d. Defective Fuel Canisters

e. Blade Guides

f. Dunking Chambers (Fuel Loading Chambers - FLCs)

g. Control Rod Unlatching Tool

h. Control Rod Grapple

i. Control Rod Guide Tube Grapple

j. Fuel Support Grapple

OPL171.006 Control Rod Blade and Drive Mechanism

1. State the three purposes of the Control Rod Blade and Drive Mechanism.

2. State the neutron absorption material utilized by the control rods.

3. Describe the following components and give their purpose:

a. Control rod velocity limiter

b. Index tube

c. Indicator tube

d. Spud

4. Describe what is meant by the term "uncoupled" control rod.

OPL171.007 Recirculation System and Flow Control

1. State the purpose of the Recirculation System.

2. Describe the Recirculation System flow path/configuration under the following conditions:

a. Normal operation, 0% to 100% power.

b. DBA LOCA

3. Describe the Recirculation pumps and state their location/purpose.

OPL171.007 Recirculation System and Flow Control (cont'd)

4. Describe the interrelation of the following systems with the Recirculation System.

a. CRD Hydraulic System

b. RHR System

c. RWCU System

d. RBCCW System

e. RCW System

f. Coolant Sampling

5. Describe how an increase in Recirculation Pump speed causes an increase in reactor power.


OPL171.039 Standby Liquid Control System (SLC)

1. State the purpose of the SLC System.

2. Describe the SLC System flow path and major components, to include their location.

3. State the neutron absorber solution used by the SLC System.

4. State the purpose of the squib valve

5. State the conditions which require initiation of the Standby Liquid Control System


OPL171.019 Source Range Monitor System (SRM)

1. State the purpose of the SRM System.

2. Describe the purpose and operation of the following SRM components:

a. Fission Chambers