US-APWR
GAS TURBINE GENERATOR (GTG)
used as Emergency Power Supply
April 18, 2008
Mitsubishi Heavy Industries, Ltd.
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8:30 a.m..- 8:45 a.m.Introduction NRC
8:45 a.m. - 10:15 a.m.Description and discussion of the applicability of Gas Turbine Generatorto US-APWR NRC/MHI
10:15 a.m. - 10:30 a.m. BREAK
10:30 a.m. - 12:00 p.m.Description and discussion of basics of the Gas Turbine GeneratorNRCIMHI
12:00 p.m. - 1:00 p.m.LUNCH
1:00 p.m. - 3:15p.m.Description and discussion of basics of the Gas Turbine Generator(Cont'd, if needed)Description and discussion of the Class 1E qualification of Gas TurbineGenerator NRCIMHI
3:15 p.m. - 3:30 pom.Public Comment ALL
3:30 p.m.Adjourn
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Meeting Attendees(1/3)
MITSUBISHI HEAVY INDUSTRIES, LTD.
Makoto Takashima(Responsible for Electrical System Design)
Deputy Chief EngineerWater Reactor Engineering DepartmentMitsubishi Heavy Industries, LTD.
Shinji Niida(Responsible for Electrical System Design)
Senior EngineerElectrical System Engineering SectionNuclear Energy Systems Engineering CenterMitsubishi Heavy Industries, LTD.
Ladislau (Larry) Hajos PE(Technical Advisor for Electrical Design)
Senior Technical ManagerMitsubishi Nuclear Energy Systems, Inc.
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Meeting Attendees(2/3)
KAWASAKI HEAVY INDUSTRIES, LTD. (KHI)
Eiichi YamaguchiManagerPr oect Engineering Departmentinstrial Gas Turbine CenterKawasaki Heavy Industries, LTD.
Kenta ShiramasaAssistant ManagerProject Engineering DepartmentIndustrial Gas Turbine CenterKawasaki Heavy Industries, LTD.
Joji HashizumeAssistant ManagerIndustrial Gas Turbine Sales DepartmentKawasaki Heavy Industries, LTD.
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Meeting Attendees(313)
ENGINE SYSTEMS INC. (ESI)
J. Bradley Abernathy PESenior Engineer
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Presentation Summary(1/2)
Introduction
; BackgroundUS-APWR Electrical Distribution SystemConfiguration
- GTG Advantages/Disadvantages
GTG used as EPS for US-APWR (requirements,design concept, basic specification etc.)Applicable Codes and Regulations
KHI Gas Turbine Business
) KHI's experience
ý GTG detailed presentation
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Presentation Summary(2/2)
Commercial Grade Dedication Process
Factory Testing
Qualification Testing
GTG Reliability
Conclusion/Summary
Q&A
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Introduction (A!P-54
.............
The US-APWR uses Gas Turbine Generators(GTG), as Emergency Power Supply (EPS) in lieuof the commonly used Diesel Generators (DG).
The reasons for the selection of the GTG are asfollows:
a. The Gas Turbine is a very simple rotatingengine with few components
b. The GTG System consists only of the gasturbine, generator, fuel transport, starting andcontrollinstrumentation systems
c. Water cooling system is not required
d. The GTG presents a high level of reliability.
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Background
) The application of an aircraft derivative gasturbine for electrical power generation is neededin order that the "fast start" requirement foremergency core cooling could be met. Thisresulted in the combination of an extremelyreliable aircraft component with equally reliableindustrial components such as reduction gears,electrical generator, governor, voltage regulator,relays and similar components. The advanceaccumulator design of the US-APWR allows astarting time for the GTG of within 100 seconds.
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Electrical System Configuration of theUS-APWR
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GTG vs. DG Differences (1/2) CAPS
Gas Turbine Diesel GeneratorGenerator
Space Compact Large
Cooling Water Not Required Required
Periodic Maintenance Not Required Required
Reliability Better than DG 10-3 (1d)
Starting Time 40 sec 10 sec
JI-, TUBMSHIHEAV-Y-IINDUSTRIES. LTD. 4GG-UAP-20080025-10
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GTG vs. DG Differences (2/2)
Gas Turbine Diesel GeneratorGenerator
Noise level High Freq levels areeasy to silence Noisy
Very small levels, ReciprocatingVibration because the engine is engines typically have
not reciprocating high vibration
Frequency variation isPower Supply small +/-2% FrequencyWithi #03%variationWithin _+0.3%
Low levels, since the ReciprocatingExhaust Gases combustion efficient engines typically have
is high low efficiency
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EPS of US-APWR (requirement, design ....-. "concept and basic specification) (1/2)
• RatingsThe US-APWR GTG is rated as follows:$ 4500 kW Continuous @ 1,000 hrs Engine Overhaul
Interval, 115* F Air Intake Temperature/ 4950 kW Short Time @ 300 hrs Engine Overhaul
Interval, 1150 F Air Intake Temperaturev" 6900 V, 3-phase, 60 Hz
. .. . RUS IES, LTD. 4GG-UAP-20080025-12
EPS of US-APWR (requirement, design
concept and basic specification)(2/2)
Starting Time/ (1) Starting time of GTG is required within 100 seconds
by safety design and analysis of US-APWR. For GTGto reach rated voltage and frequency, and GTGbreaker should be closed within 100 seconds afterstarting signal is initiated.
/ (2) GPS 6000 can reach rated voltage and frequencywithin 40 seconds as its standard specification.
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EPS of US-APWR (requirement, designconcept and basic specification)
5000 T
Class 1E Gas Turbine Generator Continuous Rating = 4500kWe4500 -
4000 t
3500 t
3000 + C Emerge
Q
2500 +
1127 1 4214 4214
3890 4112 112 Moter Control Center
C Safety Chiller Unit
3699 CClass UEEleetrioalRoomeSupply AirHantdlingUnit
C Containment Spray / Residual Heat Remeoal Pump
ney Fend Water Pump
Spump
ing Water Pumpater Pump
Autormatic Loads-- ManualLoads
OV Operated by SP Sigral
2000 t
1500 +
1000 +
500 -
0
90_
C Safety Iriention Pump
44iMOV Operated by SI Siptal, MMotem Control Canter
r P • r iJ t [ • I I I I I I I I I I
0 10 20 30 40 50 60 70 80 90 100 110 120 130
Time(s)
140 150 160
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Applicability for US mainly codes'--, -7.standards (1/2)
Regulatory Guide 1.6 Rev 0. Independence Between RedundandStandby (Onsite) Power Sources and Between TheirDistribution Systems (Safety Guide 6)
Regulatory Guide 1.9 Rev. 4 Application and Testing of Safety-Related Diesel Generators in Nuclear Power Plants
Regulatory Guide 1.28 Rev. 3 Quality Assurance ProgramRequirements
Regulatory Guide 1.32 Rev. 3. Criteria for Power Systems forNuclear Power Plants
Regulatory Guide 1.38 Rev. 2 Quality Assurance Requirementsfor Packaging, Shipping, Receiving, Storage, and Handling ofItems for Water-Cooled Nuclear Power Plants (Rev. 2)
Regulatory Guide 1.75 Rev. 3. Physical Independence of ElectricSystems
Regulatory Guide 1.93 Rev. 0. Availability of Electric PowerSources
Regulatory Guide 1.118 Rev. 3. Periodic Testing of ElectricPower and Protection Systems
Regulatory Guide 1.137 Rev. 1. Fuel-Oil Systems for StandbyDiesel Generators
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Applicability for US mainly codes;standards(2/2)
IEEE Std 308-2001 - IEEE Standard Criteria for Class 1 E Power Systemsfor Nuclear Power Generating Stations
IEEE Std 323-2003 - IEEE Standard for Qualifying Class 1 E Equipment forNuclear Power Generating Stations
IEEE 336-2005 IEEE Guide for Installation, Inspection, and Testing forClass 1 E Power, Instrumentation, and Control Equipment at NuclearFacilities
IEEE 338-1987 - IEEE Standard Criteria for the Periodic SurveillanceTesting of Nuclear Power Generating Station Safety Systems
IEEE-344-2004 IEEE Recommended Practice for Seismic Qualification ofClass 1 E Equipment for Nuclear Power Generating Stations
IEEE-379-2000 IEEE Standard Application of the Single Failure Criterionto Nuclear Power Generating Stations Safety Systems
IEEE Std 384-1992 IEEE Standard Criteria for Independence of Class 1EEquipment and Circuits
IEEE Std 387-1995 - IEEE Standard Criteria for Diesel Generator UnitsApplied as Standby Power Supply for Nuclear Power GeneratingStations.
IEEE-415-1986 IEEE Guide for Planning of Preoperational TestingPrograms for Class 1 E Power Systems for Nuclear Power GeneratingStations.
M6 I•US ES, LTD. 4GG-UAP-20080025-16
Unit Reliability (1/3)
> More than 6000 units of GPS Gas Turbine serieshave been supplied in worldwide facilities. TheGPS Gas Turbine series had been developedaiming at Emergency or Backup generator usage.They are designed so that not only performancefor power operation may be ensured but alsoreliability required of emergency start beachieved.
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Unit Reliability (2/3) I
GPS GTG Packages have industrial based fielddata available for calculating the startingreliability collected from starting eventsconfirmed.
V Number of Units 375" Start Attempts 7394
V Failed Starts 2
Based on the field data, starting reliability iscalculated below;
(1 - 2/7394) x 100 = 99.97%3.0 x 10- per demand
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Unit Reliability (3/3)
The probability of failure to start of the GPS GTGis lower than that of any DGs (3.5 x 10 perdemand) as reported in NUREG/CR-6928"Industry-Average Performance for Componentsand Initiating Events at U.S. Commercial NuclearPower plant, February 2007".
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US-APWR
GTG GPS-6000
Principal Design Criteria
used as EPS
April 18, 2008
Mitsubishi Heavy Industries, Ltd.
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GTG Principal Design Criteria
STANDBY USE OF GAS TURBINE
IF-71
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Capability(1 /4)
TYPICAL SYSTEM LAYOUT
() Gas Turbine PackageIncludes gas turbine and generatorwith an acoustic enclosure
( Control PanelIncludes gas turbine and generatorcontrol panels.
(3) Battery PanelIncludes battery and charger.
® Exhaust Silencer
( Liquid Fuel Service Tank
® Ventilation Intake SystemIncludes fan and silencer.
(7) Ventilation Exhaust SystemIncludes fan and silencer.
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Capability(2/4)
Standby generator sets must start and supply power in theevent of the loss of power from the utility.
These functions rely on the prime-mover of the standbysystem.
Kawasaki standby GPS Series are suitable for standbypower supply when utility power is lost.
All the models are designed for automatic operation (start/powersupplylstop) and equipped with alarm/trip protection systems.
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Capability(3/4)
THE FEATURE OF Kawasaki GAS TURBINE
1. No cooling water is required.* are therefore more reliable for emergency starts.
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2. Easy to reduce the noise level (sound power level)= the sound noise frequency is very high (peak: 1 to 4 kHz).
3. Less vibrationthe gas turbine is a rotating machine.
4. Hiah seismic resistance=' Kawasaki gas turbines have high seismic performance experience
even in the area that experienced seismic intensities of 6 or 7.
5. Hiah reliability of startina
==> no warm-up running is required.
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Capability(4/4) "Lwm
THE FEATURE OF Kawasaki GAS TURBINE
6. Less maintenance
Overhaul maintenance is typically required only 1 time / 15 years.
7. High stability of the voltagelfrequency=> because the Kawasaki gas turbine has a single shaft turbine.= single shaft turbine is suitable for the stable power generation.
8. High overload capacity
=> the rotation speed of the gas turbine is very high andthe equivalent moment of inertia becomes very big.This effect gives gas turbine a high electrical overload capacityduring electrical transients.
9. Compact installation* weight 1/4, volume 1/7 compared with the same range diesel
engine.10. Clean emission
= exhaust gas is cleaner compared with the same range diesel engine.
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Ratings(l /4)
Kawasaki GPS SERIES LINE-UPItem I Model 2000 2500 H, 500 4 4 500 6 C. (1 0
Rated ForOutput Standby 250 500 750 1,250 1,500 1750 2,000 2,500 3,000 3,500 4,000 4,500 5,000 6,000(kVA) Use
v e 2o.6 E M 400-.,600 3,300.6,600
Generator F r eusncy 60110
Polo 4ill)Gas Turbine S1A-03 1T-03 S2A.01 MIA-01 MIA-03 MlA,05 M1A-23 UIT-01S MIT.03 MIT.06 M1T.23 M1T-23S lIT-33 M1T-33
kw I kVA2001250400150060001750_
1,0001/1.2501.20011,500
Selection by 1,40011,750Standard 1,600/12,000
Rated Output 2,000/12,5002,4001/3,0002,80001/3,5003,2001/4,0003,6001/4,5004,000 / 5,000
_,8001,00
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Ratings(2/4) P- ý-I&
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Exhaust Silence
LengthWidthHeightWeight
=r
ft (mm) 4.92 ( 1,500) Length ft (mm)ft (mm) 9.84 (3,000) Width ft (mm)ft (mm) 15.75 (4,800) Height ft (mm)lb (kg) 11,244 ( 5,100) Weight lb (kg)
GPS6000 PACKAGE OUTLINE DIMENSIONS
25.26 ( 7,700)9.84 ( 3,000)
11.81 ( 3,600)85,980 (39,000)
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Ratings(4/4)
GPS6000 PACKAGE SPECIFICATION
Electrical Output (at 104 * F) kW 4,800
Allowable Ambient Temperature - F 41 - 104
Starting Time Sec Within 40.0
Load Application Capacity % 100.0
Frequency Deviation ( Transient/ Steady State) % Within _6. 0 / ±0. 3
Fuel Type Kerosene / Diesel Oil /Heavy Oil
Fuel Consumption ( Kerosene / Diesel Oil / Heavy Oil) Gal I 570.6 / 541.6 / 533.6Hour
Noise Level at Im from Package dB(A) 85
Noise Level at 1m from Exhaust Silencer Outlet dB(A) .90
Gas Turbine Intake Air Flow Rate CFM 49,440
Gas Turbine Exhaust Gas Flow Rate (at EGT 1103' F) CFM 135,255
Ventilation Intake Air Flow Rate CFM 31, 783
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Engine(1 /3),-us .2k
M1T-33 Power Section
Type Simple open cycle,
single-shaft
Compressor Centrifugal Type
Combustor Single Can Type
Rotation Speed 18,000 rpm
Twmng~ne
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Engine(3/3)s~.
M1T-33 Gas Turbine SPECIFICATION
Turbine Model Kawasaki M1 T-33
Engine Type Heavy-duty, Single-shaft SimpleOpen Cycle
Compressor Type 2-Stage Centrifugal
Combustor Type Single Can
Turbine Type 3-Stage Axial
Reduction Gear Box Planetary + Parallel
Turbine Speed rpm 18,000
Output Speed rpm 1,500/1,800
Rated Power Output ( at 40 'C) kW 5,200
Dry Weight Lb (kg) 29,762 (13,500)
Recommended Lubricating Oil Type/ Brand Synthetic OilShell AST0500 / Mobil Jet2 / Castrol
AER05000 / BP BPT02380
Lubricating Oil Tank Capacity Gal 95.1
Lubricating Oil Consumption Gal I 0.053Hour
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Governor(1 /3) P
TYPICAL OPERATION, TIMING CHART
0 Typical Timing Chart Of Operation
The required time to confirm the black out
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Governor(2/3) (IMEEW 1,
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Eoio -OR3100
N.30332 En&.303I 333.
Wdert
D\ýlg 000R3
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00030 420424000> ~r
30000300 rorooss 1000000
03101-00300 30315303030
03 -
~30- 000-00403
~003
~Q3 0~003 100000
10005-0 000*30-03030
1-31-1000000
[C1-3] 0100000
[3120.111/300300
[100] 0.3 113• 01110003 0339.
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130-01 - OR 0330310
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Govern )r(3/3) A
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4GG-UAP-20080025-35
standard control system
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Starting Air(1/5)
AIR STARTING SYSTEM
-
In an air starting system,a starting battery panel isnot needed.
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Starting Air(3/5)
AIR TANK
~~T.
Pressure Switch(Reference ImaZE
This tank has starting air in itself. Thecapacity of the tank and the necessary numberof tanks depends on genset model.
A pressure switch is furnished with this tank,and the switch sends signal when air pressureinside the tank drops to the specified value.With this signal, the air compressor runs andstops.
AirStartingValve Unit Genset
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Starting Air(4/5)
STARTING VALVE UNIT
This unit consists of reduction valves,pipes, gauges, and control valves. Pressure Gauge
This unit reduces primary air pressure tothe specified pressure (secondary airpressure). The secondary air pressuredepends on the air starter.
Air Tank
Air Compressor I
Pressure Reduction Valve
1Genset
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Starting Air(5/5)
GPS6000 AIR STARTING SYSTEM DIAGRAM
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Air Intake(1/3)
AIR INTAKE AND EXHAUST SYSTEM
Vent Air Outlet
I Design Temp. Approx 160" F
4 GT Air Inlet
Vent Air InletDesignTemp :104 ' FRequired air : 31,783 dim
(for Oil cooler 14.126 dm)
(for Generator 17,657 dm)
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Air Intake(2/3)
GAS TURBINE INTAKE DUCT CRITERIA
The gas turbine intake air is guided to the inlet collector of the power section throughthe air intake duct of the enclosure.
It is designed not to bring the vent air to the air intake chamber and every air ductsystem should be designed appropriately.
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Air Intake(3/3)
GAS TURBINE INTAKE DUCT CRITERIA
The amount of inlet air pressure loss, difference between atmospheric pressure and stagnation pressure atupper inlet collector flange, has to be less than 980 Pa.
Because this pressure loss decreases the engine performance it must be fed back to the performance ofoutput.
It is necessary to design a suitable inlet sound absorber which reduces the inlet noise of gas turbine engine,according to the specifications set by customer. Spli ter-type inlet silencer is desirable, which causes little
pressure loss and hardly disturbs air flow.
When using the sound absorbing material, secure protection have to be provided not the material to beblown off the air flow. Maximum air velocity at the sound absorber surface shall not exceed 98 ft/sec (30m/sec).
To avoid F.O.D.(Foreign Object Damage), an inlet screen shall be installed at the intake dividing flange ofgas turbine engine.
-not exceed 98 ft/sec
Inlet Screen 011 ¢00.063 Inch x 2.5 mesh
4GG-UAP-20080025-43
Silencer(1 /2)
Vent Air Inlet SilencerIntegrated with the acoustic enclosure.Guaranteed noise level: 85 dB(A) @Point C
• Point A
n- Point C
GT Exhaust SilencerThe allowable pressure loss 2.940 Pa or less.
Guaranteed noise level . 90 dB(A) @Point B
GT Air Inlet SilencerIntegrated with the acoustic enclosure.The allowable pressure loss : 980 Pa or less.Guaranteed noise level 85 dB(A) @Point A
4GG-UAP-20080025-444 IIIRI i eRIP
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Silencer(2/2)
EXHAUST SILENCER ( PICTURE)
200ll' 1'1
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Fuel System(1/2) p1#TYPICAL SYSTEM FLOW DIAGRAM
AIR VENT
0<4 BALL VALVE (Nor. Open)
BALL VALVE (Nor. Close)
i FLEXBLE TUBEST•RAW
FUELPUMP
VENT AIROUTLET
t
DIMENSION A: SHALL BE 7.546 ft OR MORETO KEEP THE FUEL SUPPLY PRESSURE.
DIMENSION B : SHALL BE LESS THAN 18.04 ItTO PROHIBIT EXCESSIVE PRESSURE.
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Fuel System(2/2)
FUEL OIL PIPING SCHEMATIC(INSIDE GTG PACKAGE)
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Lubrication System (Xpsj4*LUBRICATING OIL PIPING SCHEMATIC
(INSIDE GTG PACKAGE)
REGULATUGVALVE
My PowT0.35 ±o~s w
MUMIiGTO" HRed Line: KHI'S SCOPE Blue Line: CUSTOMER'S SCOPE
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Cooling System(1/2) '-S-
VENTILATION CRITERIA
For packaging, ventilation is necessary lest the temperature inside the enclosure should exceed thepermissible limit.
There are three heat sources as follows,
a) Exhaust air from generator (air cooing type)
b) Exhaust air from oil cooler (air cooling type)
c) Heat radiation from the surface of gas turbine engine
In the case that the generator and oil cooler are of the air cooling type, a bulkhead shall be laid betweenengine room and generator room, or some other suitable ventilation system shall be designed lest exhaustair (hot air)should come near to the inlet side.
Vent. FleshAir 0
Bulkhead
Generator ExhaustHot Air
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Cooling System(2/2) 1-0 S -07-1k
VENTILATION CRITERIA
A desirable ventilation system would be such that a ventilation fan is installed at the top of engine room toexhaust air from generator and oil cooler.
The ventilation system shall be designed so that no higher temperature than 160 0F regardless of atmosphericcondition.
A motor of the explosion-proof specifications shall be selected for the ventilation fan, ff required.
A splitter tye intake and exhaust silencer shall be selected in view of pressure loss, disturbance of air flow.
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Bearings
NO1 BEARING
(ANGULAR BALL BEARING)
(THRUST RECEIVE SIDE)
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Skid
BASE SKID (STRUCTURE)The base frame and the common bed are structure steel assemblies with section beams and crossmembers welded together to form a rigid basement. The rubber vibration isolators are placed betweenthem in order to reduce vibrations. The common bed provides a support for the gas turbine engine,generator and auxiliary equipment.
Base Skid
Rubber Vibration Isolator
GTG Lifting Bracket
Base skid shall have the drain pan in order to
catch the leak fuel oil or lubricating oil.
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Piping(1 /3)
PIPING INTERFACE OF THE GAS TUBINE
(G) (H)(A) Fuel Od Inlet Port for #1 PIS SAE I '/.
(B) Fuel 04 Return Port for 01 PIS 7/8 -1 4UNFWZA '.' ,/ .
(C) Fuel Oil Inlet Port for 02 P/S SAE1 ¼/.
(D) Fuel Oi Return Port for #2 P/S 718 -1 4UNF-2A e 0 I,"
(E) Lube 04 Outlet Port for#1 P/S SAE 1%
(F) Lube 0/ Inlet Pori for #1 P/S SE I M. o'• rFspo
(G) Lube C4 Olutet Port for #2 P/S SAE 1 V' "0"'
(H) Lube Oi Inet Por1i om #2 PtS SAE I %
( I) 041 Mist Outlet SAE I %.
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Piping(2/3)
PIPING ARRANGEMENT (SAMPLE PICTURES)
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Piping(3/3)
PIPING ARRANGEMENT (SAMPLE PICTURES)
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Engine Systems, Inc (ESI)
ESI has a long term commitment to the nuclear power industry:
• ESI is a recognized leader in the supply of nuclear safety relateddiesel engines and replacement parts.
ESI has demonstrated the ability to maintain and developsuccessful OEM relationships to address the nuclear powermarket.
ESI provides services to nuclear utilities throughout the worldincluding Japan, Taiwan, Korea, Spain, Slovenia, Belgium,Mexico, Canada and the United States.
> ESI services 267 nuclear generator sets worldwide:
/ 72 internationally in the World/ 195 domestically in the United States
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ESI Quality Assurance
> ESI maintains an approved IOCFR50 Appendix B, ASME NQA-1and ANSI N45.2 Quality Assurance Program.
> ESI is ISO 9001-2000 Registered.
> ESI performs commercial grade dedication in accordance withEPRI NP-5652 guidelines.
> NRC has performed a limited scope inspection of ESI.
> ESl has been successfully audited by Nuclear ProcurementIssues Committee (NUPIC) member utilities.
> ESI is currently on the approved suppliers list of everydomestic nuclear power utility and multiple internationalnuclear power utilities.
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ESI OEM Relationships
> Electro-Motive Diesel - 1971> Woodward Governor - 1971> National Oilwell - 1988> Cooper Energy Services - 2000
,/EnterpriseCooper-Bessemer
Ingersoll-Rand Engine Starting Systems - 2001Dresser-Rand
Worthington - 2005/Terry Turbine - 2005
> Honeywell - 2005> Weschler Instruments - 2006> Norlake - 2006> Nordberg - 2007
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Engine Systems, Inc(1/2)
> NRC Limited Scope Inspection of ESI FacilitiesV Report No 99901362/2006-21,
,/ Inspection Date: November 13-16, 2006
V Inspection Scope* Compliance with 1OCFR21" Compliance with 1OCFR50 Appendix B
- Corrective Actions- Commercial Grade Dedication
V Satisfactory Results
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ESI Dedication Process(1/7) •
Dedication Process
Customer PO / Specification Review
Develop Component I Assembly Dedication Report
Procurement
Commercial Grade Survey
Quality Inspection & Test
Engineering Dedication Verification
Documentation
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ESI Dedication Process(2/7)
Purchase Order / Specification Review
> IdentifyV Component Application• Environmental Requirements (temp, humidity)
/ Seismic Requirements (earthquake)V Special Documentation Requirements
> Requisition MaterialV Add Technical Requirements
• Requirements for lot qualification" Determine if extra part is required" Determine if supplier survey is required
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ESI Dedication Process(3/7) Q_
Develop Dedication Report> Identify Form, Fit, and Function> Failure Mode Analysis
V" Effect of part failure on System,/ Credible Failure Modes of Part
> Design InformationV Catalog Information/ Manufacturer's Drawings, etc.V Coordination with CES, EMD, Woodward, Kawasaki
> Critical Characteristics,/ DimensionsV Operability,/ Material
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ESI Dedication Process(4/7)
Develop Dedication Report (continued)
> Environmental Qualificationv/ Manufacturer's specsV Environmental chamber
> Seismic QualificationV Perform an analysis/ Write seismic (shake) test procedure
> Shelf Lifev/ Identify materialsV Utilize published standards
> Maintenance / Surveillance I Replacement IntervalV- Activity required by customer to maintain qualification
> Verify operability/ Write functional test procedure
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ESI Dedication Process(5/7) Q•w
ProcurementESI specifies technical and quality requirementsfor the commercial grade item:V Gas Turbine buildup data sheetsV Material test reports for major itemsV Non-destructive examination test recordsv- Calibration records
V Witness points as agreed uponV In-process production inspection and test records/ Gas Turbine test reportV Non-conformance reports
ESI Quality Assurance conducts commercial
grade survey
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ESI Dedication Process(6/7)
Dedication Verification> Verify
/ Measured Dimensions Meet Dedication Report Values/ Functional Test Results Meet Acceptance Criteria/Material Test Results Meet Manufacturers Specs/ Environmental Specs Meet Site Requirements/ Seismic Qualification Meets Site Requirements
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ESI Dedication Process(717)
Documentation
> Dedication Report> Certificate of Conformance> Inspections results> Functional test results
> Material test results
> Seismic qualification report
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IOCFR21 Reporting
IOCFR21 - Reporting of Defects andNoncompliance
The organization that performs the dedication process isresponsible for:
V' Identifying and evaluating defects, deviations, and failureswhich could create a substantial safety hazard
V Notifying the NRC and utility of dedicated (and supplied) itemscontaining defects
V Maintaining auditable records of the dedication process.
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ESI Qualification Test(1/2)
Qualification Testing - IEEE-387 (R2001) and USNRC RG1.9 Rev.4
> Factory Acceptance Testing/ Engine Test
* Load Test at KHI FactoryV Generator Test
* NEMA MG-1 Test at Factoryv/ Combined Unit Test (ESI Factory)
* Initial Operation and Load Test* Excitation & Controls Test• Alarm Verification" Start Time & Receiver Capacity" Protective Trip Bypass* Test Mode Override
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ESI Qualification Test(2/2)
Type TestLoad capability tests (6.2.1)
* 24-Hour Load Test
* 110% Load Rejection Test
V Start and load acceptance tests (6.2.2)* 100 Start and Load Reliability Test
v/ Margin tests (6.2.3)
* 110% of most severe load step
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Summary A "P-4
Based on the analysis provided it is concludedthat the GPS-6000 GTG unit provided by KHI andDedicated (Class 1 E qualified) by Engine SystemsInc. (ESI) is adequate to support the safe andreliable operation of the US-APWR.
> For the reasons stated in this presentation theunit provides a high level of confidence that it is aviable alternative to the DG.
The KHI GPS-6000 unit meets or exceeds allrequirements set forth by US-NRC regulations.
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