power conversion unit · 2012-11-21 · reactor core barrel conditioning system generator power...
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Power Conversion UnitPower Conversion Unit
Scott R. Penfield, Jr., PE
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 2
OutlineOutline
• Basics of Gas Turbine Cycles in HeliumBrayton cycle overviewHelium properties and implicationsKey influences in cycle performanceBases for key design selections
• PBMR Power Conversion Unit (PCU) OverviewTop-level PCU functionsProcess Flow DiagramOverall physical layout, key componentsPower level control concepts
• PCU Subsystems, ComponentsTurbomachineryHeat exchangers Gas cycle valvesGas cycle pipes
Related Systems• Helium Inventory Control System• Helium Pressure Boundary
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Power Conversion UnitPower Conversion UnitBasics of Gas Turbine Cycles in HeliumBasics of Gas Turbine Cycles in Helium
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 4
NoteNote
The illustrative data shown in this section of the presentation are not necessarily specific to the PBMR.
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 5
Typical Closed GT CycleTypical Closed GT Cycle
LPC HPC TURBINE GENERATOR
INTERCOOLER
PRECOOLER RECUPERATOR
REACTOR
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 6
GT Cycle TS DiagramGT Cycle TS Diagram
TurbineCore
Recupera
tor
LP Side
Precooler
LPC
Recuperator
HP Side
ICHx
HPC
Entropy
Tem
pera
ture
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 7
Key Cycle ParametersKey Cycle Parameters
• Physical Properties of Helium
• Heat Rejection Temperature (Input Requirement)
• Thermal/Electrical Power Output
• Reactor Outlet/Turbine Inlet Temperature
• Primary System Pressure
• Cycle Pressure Losses
• Recuperator Effectiveness
• Intercooling
• Pressure Ratio
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 8
Fluid Helium Air
Cycle State Point Compressor
Inlet Turbine
Inlet Compressor
Inlet Turbine
Inlet Pressure, bar 25 90 1 15 Temperature, °C 25 900 25 1290 Molecular weight 4.003 28.97 Gas constant, J/kg·°K 2077 287 Specific heat, kJ/kg 5.193 5.190 1.00 1.16 Viscosity, μPa·s 19.9 51.8 18.6 43.8 Thermal conductivity, W/m·K 0.157 0.407 0.026 0.073 Adiabatic coefficient, γ 1.666 1.665 1.4 1.33 Sonic velocity, m/sec 1027 2031 347 772 Prandtl number 0.671 0.672 0.72 0.70 Density, kg/m3 3.99 3.66 1.19 3.40 Dielectric strength (at ambient temperature)
Approximately linear from 200 volts/cm @ 5 torr to 1000 volts/cm @ 600 torr
350 volts/cm @ 0.6 torr 5,000 volts/cm @ 2 torr
Helium and AirHelium and AirFluid Properties ComparisonFluid Properties Comparison
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 9
Significance of Helium PropertiesSignificance of Helium Properties
• Low Molecular WeightRequires larger volumes of gas to carry equivalent energy
• High Specific HeatCan carry larger amounts of energy per unit of mass
Partially offsets low molecular weight effects
• High Thermal ConductivityImproves film coefficients for heat transfer
• High Sonic VelocityAvoids sonic effects in T/M designs
Higher flow rates, loads during blowdown
• Lower dielectric strengthIncreased difficulty for electrical insulation design
• Chemically InertTendency for self-welding of metallic components
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 10
Efficiency vs. Ambient TemperatureEfficiency vs. Ambient Temperature
ESR2-1.gif
Note:Curve is for recuperated non-intercooled cycle
GT-HTGR Design Point
SC-HTGR Design Point
(18C) (28C)
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 11
Representative Site Temperature ProfilesRepresentative Site Temperature Profiles
DOE 2-1.gif
WE
T B
ULB
TEM
PE
RA
TUR
E (F
)
0 2.0 16.7 35 51.7 70 90 99.9
90
80
70
60
50
40
30
20
10
0
-10
-20
Middletown
River BendSan Onofre
BlytheINEL
TYPICAL GT-HTGR DESIGN POINT (18C)
SC-HTGR DESIGN POINT (28C)
ISO REFERENCE (15C)
CUMULATIVE TIME (PERCENT)
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 12
Power OutputPower Output
• Thermal Power Limited by:Characteristics of fuel
Core design considerations (e.g., neutron control)
Passive safety objectives of modular designs
• Electrical Power Determined byThermal power produced in reactor
Efficiency of power conversion cycle
Ambient temperature
Overhead loads
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 13
Reactor Outlet TemperatureReactor Outlet Temperature
BASISBASIS:• Recuperator 95%
Effectiveness • Cycle Pressure Drop 6% • Compressor Inlet 30ºC
Temperature• Efficiency of Turbines 90%
and Compressors • Non-intercooled Cycle
WS1-2b-3.gif
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Cycle PressureCycle Pressure
• High pressure reduces velocity for given mass flow, reduces cycle pressure losses
• Recuperator size decreases with higher pressure for given losses
• Turbomachine size decreases, optimum speed increases with higherpressure, due to aerodynamic considerations
Optimum speeds (5000-10,000+ rpm) are substantially higher than synchronous speeds (3000-3600 rpm)
• Limited by:Pressure vessel design
Maintenance considerations (helium leakage)
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 15
Cycle Pressure LossesCycle Pressure Losses
• One of the major determinants of cycle efficiency
• Primarily a function of the individual component designs and layout of the power conversion cycle
• Ducts and pathways for routing helium from component to component are key factors
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Cycle Pressure LossesCycle Pressure Losses
BASISBASIS:• Reactor Outlet 850ºC
Temperature• Compressor Inlet 30ºC
Temperature• Efficiency of Turbines 90%
and Compressors • Non-intercooled Cycle
Pressure Ratio
WS1-2b-2.gif
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 17
Bypass FlowsBypass Flows
• Bypass flows can have a substantial adverse effect on cycle efficiency
• Bypass flows are used to cool parts of the turbine hot section and various static structures in the reactor and PCS
Cooling flow derived from the LP or HP compressor outlets
Minimized by careful design and appropriate selection of materials
• Pressure balancing utilizes bypass flows to offset unbalanced axial pressure loads on turbomachinery
• Leakage flows are unintentional bypass flows, primarily through various static seals
Leakage is more difficult to control in helium environment
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Recuperator EffectivenessRecuperator Effectiveness
Simple Cycle Efficiency (No Recuperator)Simple Cycle Efficiency (No Recuperator)
WS5-1c-2.gif
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Recuperator EffectivenessRecuperator Effectiveness
BASISBASIS:
• Reactor Outlet 850ºC Temperature
• Cycle Pressure Drop 6%
• Compressor Inlet 30ºC Temperature
• Efficiency of Turbines 90% and Compressors
• Non-Intercooled Cycle
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 2017
Recuperator Area vs. EffectivenessRecuperator Area vs. Effectiveness
• Recuperator surface area strongly impacted by effectiveness requirement
• Compact plate-fin surface geometries needed to minimize recuperator size for installation in power conversion vessel
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 21
Effect of System Pressure Losses and Effect of System Pressure Losses and Recuperator Effectiveness on Cycle Efficiency Recuperator Effectiveness on Cycle Efficiency
ESR5-1.gif
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 22
Effect of Intercooling Effect of Intercooling
BASISBASIS:• Curves shown are for indirect cycle
case with TIT = 810ºC• One stage of intercooling provides
greatest benefit at optimum pressure ratio of ~2
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Typical Design Point
Typical Design MapTypical Design Map
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 24
PCU Configuration HierarchyPCU Configuration Hierarchy
Modular HTGRs
Brayton Cycle
Combined Cycle Gas Turbine
Steam Cycle
Brayton Cycle
Direct Cycle Indirect Cycle
Secondary Working Fluid
[See Direct Cycle Options]DistributedIntegrated
Magnetic vs. Lubricated Bearings
Intercooled vs. Non-Intercooled
Recuperated vs. Simple
Submerged vs. External Generator
Vertical
Synchronous vs. Asynchronous
Single Shaft
Magnetic vs. Lubricated Bearings
Intercooled vs. Non-Intercooled
Recuperated vs. Simple
Submerged vs. External Generator
Vertical vs. Horizontal
Synchronous vs. Asynchronous TC/Gen
Single vs. Multishaft
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Bases for Key PBMR Design SelectionsBases for Key PBMR Design Selections
• Direct CycleReduced capital costIncreased cycle efficiencyAllows adaptation of proven materials and technologies (turbomachinery and heat exchangers) with modest R&D needs
• Distributed Power Conversion UnitConservative design, requiring less developmentMaintenance access
• Recuperated and IntercooledCycle efficiency
• Single Shaft Turbocompressor (TC)/GeneratorImproved controllability, transient response (loss of load)
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Bases for Key PBMR Design SelectionsBases for Key PBMR Design Selections
• Asynchronous Turbocompressor (TC)/Generator with Gearbox for Speed Reduction
TC optimization for helium (higher speed)Flexibility for 50/60Hz
• Horizontal TC/GeneratorConventional designMaintenance access
• External GeneratorConventional designLow windage lossesMaintenance accessAvoids contamination potential
• Oil Lubricated BearingsConventional design
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PBMR Configuration SelectionsPBMR Configuration Selections
PBMR
Brayton Cycle
Direct Cycle
Distributed
Lubricated Bearings
Intercooled
Recuperated
External Generator
Horizontal
Asynchronous TC/Gen
Single Shaft
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Power Conversion UnitPower Conversion UnitSystem OverviewSystem Overview
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 29
Key PCU FunctionsKey PCU Functions
• Convert thermal energy produced in the reactor to mechanical and thence electrical energy
• Circulate helium within the primary circuit
• Provide a path for removal of reactor heat during startup, shutdown and other specified events
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Simplified Power Conversion PFDSimplified Power Conversion PFD
900ºC8.6MPa191kg/s
501ºC
513ºC3.0MPa
142ºC
24ºC
111ºC5.1MPa23ºC
108ºC9MPa
VALVE LEGENDDGBP – Diverse Gas Cycle Bypass ValveGBP – Gas Cycle Bypass ValveGBPC – Gas Cycle Bypass Control ValveLCV – Low Pressure Coolant ValveLPB – Low Pressure Compressor Bypass ValveRBP – Recuperator Bypass Valve
GBP/DGBP
~165MWeEfficiency: 41.2%
400MWt
371MW
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Reactor
Core Barrel Conditioning
System
Generator
Power Turbine
Recuperator
High Pressure Compressor
Low Pressure Compressor
Gearbox
IntercoolerCore
Conditioning System
Pre-Cooler
Maintenance Shutoff Disk
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PCU LocationPCU Location
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Basic Brayton Cycle Control Concepts Basic Brayton Cycle Control Concepts
• Cycle power output is controlled by two complementary means
Bypass control for rapid changesInventory control for slow changes
• Bypass controlBypass valves opened/closed to reduce/increase flow through reactor for rapid power changesSignificant efficiency penalty (only want to use for short term)At higher bypass levels, collapses cycle pressure ratio for rapid shutdown (e.g., loss of generator load)
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Basic Brayton Cycle Control Concepts Basic Brayton Cycle Control Concepts
• Inventory controlAdd/withdraw helium from cycle to increase/decrease powerReduces mass flow while maintaining volumetric flow, cycle temperatures close to optimum levelsRate of 10%/min over range of 40-100% powerHigh efficiency at variable power levels
• Bypass and inventory control are used together to meet maneuvering requirements, while maintaining high efficiency overall
• Reactor power normally follows demand via negative temperature coefficient
Reactivity control used to reduce outlet temperature for certain transients (e.g., loss of load)
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PCU Control ElementsPCU Control Elements
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Power Conversion UnitPower Conversion UnitTurbomachineryTurbomachinery
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Turbomachinery FunctionsTurbomachinery Functions
• The functions of the Turbo-Generator Set (TGS) are as follows:
To convert thermal energy from the reactor to mechanical and, thence, to electrical energy during normal power productionTo provide flow during Brayton cycle start-upTo provide flow for conditioning of MPS ComponentsTo provide flow for the removal of core decay heat (Brayton cycle not operational)To provide flow to maintain the MPS at operating temperature after a PCU trip
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PCU TurbomachineryPCU Turbomachinery
CompressorTurbine Power Split Gearbox Generator
Thrust Bearing
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Power TurbinePower Turbine
Journal Bearing Turbine
Dry Gas Seal Dry Gas Seal
Journal Bearing
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LP/HP CompressorsLP/HP Compressors
Journal BearingJournal Bearing
Thrust Bearing
Dry Gas Seal
HP Compressor LP Compressor
Dry Gas SealDry Gas Seal
Dry Gas Seal
JournalBearing
LP CompressorHP Compressor
Journal Bearing
Thrust Bearing
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 41
Reduction GearboxReduction Gearbox
• Reduction gearbox provides 2:1 speed reduction for 50Hz application
Enables turbocompressor to operate at optimum speed of 6000rpm
• Based on sun/planet gear design5 planet gears surround sun gears of input and output shafts
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 42
Reduction GearboxReduction Gearbox
POWER SPLIT GEARBOX
Powering the Future
Leistungsteilung durch 3 - 5 Räderpaare
Fa1=Fa2 Einzelheit sieheBlatt 2
Axiallager
AFL
Axiallager in Arbeits- maschine Sun Gear
Planet Gear(1 of 5)
Generator End
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 43
Dry Gas SealsDry Gas Seals
• Dry Gas Seals (DGS) enable the use of conventional bearing technology, while avoiding potential for oil contamination of primary helium.
Significant experience base in conventional applications (e.g., gas pipeline compressors)PBMR application requires modest extension of current experiencebase.Initial tests confirm feasibility of PBMR design.
• PBMR design employs 4 DGS at ends of turbine and compressors.
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 44
Dry Gas SealDry Gas Seal
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 45
DGS ConceptDGS Concept
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 46
PT Side Outboard Side
Rotor Speed3000 rpm
Fluid
[4] CleanAir Supply
Source
Clean Dry Air
[3] Mixed Fluid
Discharge SystemHelium
+ Air
[2] Dischg. Helium
Recovery System
Helium
[1] Pure Helium Gas
Supply Source
Pure Clean Helium
PTSide
Condition
Helium Atmos.(Air)
Labyrinth SealGenerator
Side Condition
Rated Condition (MCR 100%)
Dry Gas Seal SystemDry Gas Seal System
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 47
PBMR Dry Gas Seal TestingPBMR Dry Gas Seal Testing
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 48
GeneratorGenerator
• Air-cooled generator applies conventional technology
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Power Conversion UnitPower Conversion UnitHeat ExchangersHeat Exchangers
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 50
Recuperator FunctionsRecuperator Functions
• Recover heat from the turbine exhaust stream and transfer it to the reactor helium inlet stream
Major factor in achieving high plant efficiency
• Provide separation between the high and low pressure sides of the cycle
REACTORLPC HPC TURBINE GENERATOR
INTERCOOLER
PRECOOLER RECUPERATOR
REACTORLPC HPC TURBINE GENERATOR
INTERCOOLER
PRECOOLER RECUPERATOR
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 51
Typical Recuperator RequirementsTypical Recuperator Requirements
• Accommodate heat transfer requirementsHeat transferred via recuperator typically exceeds thermal rating of reactor
• Provide separation between high and low pressure sides of cycleLeakage results in degraded cycle efficiency
• Accommodate design duty cycle eventsSteady state and transient pressures and temperatures
• Integration within Power Conversion System Compact surface geometry implicitly requiredInterfaces with other components and/or ducts
• Provisions for maintenance inspection, removal, replacementModular assembly implied
• Design for service life of plant
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 52
Heatric Printed Circuit HXHeatric Printed Circuit HX
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 53
Heatric Printed Circuit HXHeatric Printed Circuit HX
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 54
Heatric Printed Circuit HXHeatric Printed Circuit HX
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 55
PBMR RecuperatorPBMR Recuperator
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 56
PBMR Recuperator ModulePBMR Recuperator Module
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 57
Precooler/Intercooler FunctionsPrecooler/Intercooler Functions
• Reject waste heat from the power conversion cycle• Remove decay heat during other defined events • Enhance compression efficiency• Maintain pressure boundary integrity
REACTORLPC HPC TURBINE GENERATOR
INTERCOOLER(ICHx)
PRECOOLER RECUPERATOR
REACTORLPC HPC TURBINE GENERATOR
INTERCOOLER(ICHx)
PRECOOLER RECUPERATOR
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 58
Precooler and IntercoolerPrecooler and IntercoolerTypical RequirementsTypical Requirements
• Accommodate heat rejection requirements for all operating conditions and events within the design basis
Part load operations under bypass valve control demand higher precooler and intercooler heat duty than full load operation
• Modest temperatures (typically < 200ºC)• Design for service life of plant
High reliability
• Pressure boundary integrity assured at HX surface or via isolation valves
Avoid helium leaks from primary loopAvoid water ingress into primary loop (primary loop depressurized)
• Accommodate mechanical, thermal-structural and seismic loads• Heat exchangers must be drainable and inspection and
maintenance access must be provided.
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 59
PBMR UPBMR U--Tube Cooler ConceptTube Cooler Concept
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Power Conversion UnitPower Conversion UnitGas Cycle ValvesGas Cycle Valves
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 61
Gas Cycle ValvesGas Cycle Valves
• The main purposes of the Gas Cycle Valves (GCV) are control and equipment protection
• The GCV consist of:Gas Cycle Bypass Valves (GBP)
Diverse Gas Bypass Control Valve (DGBP)
Low-pressure Coolant Valves (LCV)
Low-pressure Compressor Bypass Valves (LPB)
Recuperator Bypass Valves (RBP)
Gas Cycle Bypass Control Valve (GBPC)
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 62
Gas Cycle ValvesGas Cycle Valves
GBP/DGBP
VALVE LEGENDDGBP – Diverse Gas Cycle Bypass ValveGBP – Gas Cycle Bypass ValveGBPC – Gas Cycle Bypass Control ValveLCV – Low Pressure Coolant ValveLPB – Low Pressure Compressor Bypass ValveRBP – Recuperator Bypass Valve
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 63
Gas Cycle Valve FunctionsGas Cycle Valve Functions
• Gas Cycle Bypass/Diverse GCB Valves (GBP/DGBP)Prevent turbine overspeed during PCU trip and loss of load transients
• Low Pressure Coolant Valves (LCV)Prevent excessive temperatures at recuperator inlet during transients
• Low Pressure Compressor Bypass Valves (LPB)Enable low power operation at high inventory levels
• Recuperator Bypass Valves (RBP)Maximize removal of heat from reactor by preventing recuperative heat transfer
• Gas Cycle Bypass Control Valve (GBPC)Use in load following/frequency regulation
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 64
Gas Cycle ValvesGas Cycle Valves
Diverse Gas Bypass Valves (DGBP)
Gas Bypass Valves (GBP)
Low Pressure Coolant Valves (LCV)
Precooler
HP CompressorTurbine
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 65
Gas Cycle ValvesGas Cycle Valves
GBP/DGBP
VALVE LEGENDDGBP – Diverse Gas Cycle Bypass ValveGBP – Gas Cycle Bypass ValveGBPC – Gas Cycle Bypass Control ValveLCV – Low Pressure Coolant ValveLPB – Low Pressure Compressor Bypass ValveRBP – Recuperator Bypass Valve
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 66
Gas Cycle Valve FunctionsGas Cycle Valve Functions
• Gas Cycle Bypass/Diverse GCB Valves (GBP/DGBP)Prevent turbine overspeed during PCU trip and loss of load transients
• Low Pressure Coolant Valves (LCV)Prevent excessive temperatures at recuperator inlet during transients
• Low Pressure Compressor Bypass Valves (LPB)Enable low power operation at high inventory levels
• Recuperator Bypass Valves (RBP)Maximize removal of heat from reactor by preventing recuperative heat transfer
• Gas Cycle Bypass Control Valve (GBPC)Use in load following/frequency regulation
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 67
Gas Cycle ValvesGas Cycle Valves
Recuperator Bypass (RBP)
Low Pressure Compressor Bypass (LPB)
Intercooler
Recuperator
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 68
Gas Cycle ValvesGas Cycle Valves
GBP/DGBP
VALVE LEGENDDGBP – Diverse Gas Cycle Bypass ValveGBP – Gas Cycle Bypass ValveGBPC – Gas Cycle Bypass Control ValveLCV – Low Pressure Coolant ValveLPB – Low Pressure Compressor Bypass ValveRBP – Recuperator Bypass Valve
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 69
Gas Cycle Valve FunctionsGas Cycle Valve Functions
• Gas Cycle Bypass/Diverse GCB Valves (GBP/DGBP)Prevent turbine overspeed during PCU trip and loss of load transients
• Low Pressure Coolant Valves (LCV)Prevent excessive temperatures at recuperator inlet during transients
• Low Pressure Compressor Bypass Valves (LPB)Enable low power operation at high inventory levels
• Recuperator Bypass Valves (RBP)Maximize removal of heat from reactor by preventing recuperative heat transfer
• Gas Cycle Bypass Control Valve (GBPC)Use in load following/frequency regulation
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 70
Helium Inventory Control SystemHelium Inventory Control System
Gas Cycle Bypass Control Valve (GBPC) located in a line connecting the HP/LP Buffer Tanks
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Power Conversion UnitPower Conversion UnitGas Cycle Pipe SystemGas Cycle Pipe System
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 72
Gas Cycle Pipe SystemGas Cycle Pipe System
• The Gas Cycle Pipe System (GCPS) is a passive structure within the PCU.
• The GCPS consists of insulated pipes for the transport of hot (>300°C) gas
From the Core Structures outlet to the turbine inletFrom the turbine outlet to the LP recuperator inletFrom the HP recuperator outlet to the Core Structures inlet (2 pipes)Core Conditioning System pipes (one inlet and one outlet)
• The GCPS is within, not a part of, the helium pressure boundary.• The GCPS is externally cooled by gas diverted from the HP
compressor outlet.
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 73
Gas Cycle PipesGas Cycle Pipes
Core Inlet Pipes
Turbine Outlet Pipe
Core Outlet Pipe
Note:Core ConditioningSystem pipes not shown
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 74
System ReferenceSystem Reference
Hot Gas
H P Cold Gas
H P Cold Gas
Pressure Boundary Pipe(Main Power System Pressure Boundary )
Hot Gas Duct(Gas Cycle Pipe System)
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Helium Inventory Helium Inventory Control SystemControl System
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 76
HICS Systems & FunctionsHICS Systems & Functions
Inventory Control Inventory Control System (ICS)System (ICS)
•• Control of the helium mass within the MPSControl of the helium mass within the MPS
•• Storage of the helium of the MPS and FHSS during a maintenance Storage of the helium of the MPS and FHSS during a maintenance outageoutage
Helium Purification Helium Purification System (HPS)System (HPS)
•• To remove the gaseous contaminants To remove the gaseous contaminants
•• To purify the primary system after inspections and maintenanceTo purify the primary system after inspections and maintenance
Helium MakeHelium Make--up up System (HMS)System (HMS)
•• To replenish the MPS daily helium leakagesTo replenish the MPS daily helium leakages
•• To initially fill the MPS with the required amount of heliumTo initially fill the MPS with the required amount of helium
Dry Gas Seal Supply Dry Gas Seal Supply and Recovery System and Recovery System (DSRS)(DSRS)
•• To supply dustTo supply dust--free helium to the DGS of the Turbo Machinesfree helium to the DGS of the Turbo Machines
•• To recover helium from the DGS of the Turbo MachinesTo recover helium from the DGS of the Turbo Machines
•• To supply dustTo supply dust--free helium to the blowers of the CCS, the FHSS and free helium to the blowers of the CCS, the FHSS and the DSRSthe DSRS
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 77
Helium Inventory Control SystemHelium Inventory Control System
Buffer Tanks
Inventory Control System
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 78
Inventory Control System OrientationInventory Control System Orientation
Inventory Control System Tanks
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 79
PCU Control ElementsPCU Control Elements
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February 28 – March 2, 2006 PBMR Safety and Design Familiarization© Copyright 2006 by PBMR (Pty) Ltd. 80
Inventory Control SystemInventory Control System
• The primary functions of the ICS are:Control of the helium mass within the MPSStorage of the helium of the MPS and FHSS during a maintenance outage
• MPS power maneuvering via inventory controlRange: 40% to 100%Rate: 10%/min
• Method of operationPower Reduction - Helium is extracted from the high pressure section of the MPS and transferred into storage vessels (transferring into the highest pressure vessel first, and then the second highest vessel, and so on)Power Increase – Helium is injected into the low pressure section of the MPS (starting with the lowest pressure vessel, and then the second lowest pressure vessel, and so on)The MPS compressors do most of the work required to increase the pressure of the helium in order to store it in the storage vessels
• Extraction from MPS to storage vessels for maintenanceFrom 40% Max Capability Rating Inventory (MCRI) to 1 bar - 41 h
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HeliumHeliumPurification SystemPurification System
Helium Purification system
Purification System
Bypass flow rate at 100% 100 kg/h
Filters dust particles > 0.5 μm
Removes gaseous impurities: H2 : < 1.0 ppmv
C0 :< 1.0 ppmv
C02:< 0.1 ppmv
H20:< 0.1 ppmv
CH4:< 1.0 ppmv
N2: < 1.0 ppmv
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Helium Inventory Control SystemHelium Inventory Control System
Helium Make-up System
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Helium Pressure BoundaryHelium Pressure Boundary
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Pressure Boundary SystemsPressure Boundary Systems
This discussion will focus on key features of the MPS Pressure Boundary (MPS-PB).
PBMR Power Plant System Diagram
Services & AuxiliaryBuildings
Module
Main Power System
Fuel Handling andStorage System
Helium Inventory ControlSystem
Helium Pressure Boundary
Main Heat Sink System
Active Cooling System
Waste Handling System
Decontamination System
Equipment Handling Systems
HVAC System
Pressure Relief System
Specialized Doorways
Potable Water System
Demineralized Water
Compressed Air System
Primary Loop Initial Clean-upSystem
Plant Electrical System
Control & InstrumentationSystem
Fire Protection System
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Key FunctionsKey Functions
The key functions of the MPS Pressure Boundary are:Retain helium coolant inventory
Barrier to the release of circulating fission products
Limitation of air and water ingress
Provision of structural support and alignment for the Reactor Unit and PCU components
Transfer of the decay heat from the reactor core via the RPV to the Reactor Cavity Cooling System (RCCS) during loss of forced cooling events (ensure adequate core heat removal)
Ensuring that the geometry of the core stays within acceptable geometrical limits under all normal and abnormal events
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MPS Pressure BoundaryMPS Pressure Boundary
The MPS Pressure Boundary consists of:Reactor Pressure VesselPower Conversion Unit vesselsGas Cycle ValvesMaintenance Shut-off Disk VesselsCore Conditioning SystemCore Barrel Conditioning SystemPipes connecting all of the aboveVessel Support SystemMPS Pressure Relief SystemExternal Insulation System
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Bases for MPSBases for MPS--PB Operating ConditionsPB Operating Conditions
• PressureMaximum (9MPa) established by capability of PCU compressors at full inventory and rated power
Upon PCU trip at full inventory, MPS pressure rapidly equalizes at ~6.8MPa
• Temperature – Reactor Pressure VesselEstablished by heat transport path from core to Reactor Cavity Cooling system
• Temperature – Other MPS-PB components Temperature limited by insulation and/or active flow
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Reactor Pressure VesselReactor Pressure Vessel
• Dimensions:Internal Diameter: 6.2mNominal thickness: 180mmHeight: 30m
• Operating ConditionsPressure:
– Operating: 9MPa (max)– Design: 9.7MPa
Temperature– Normal: 280-300ºC– LOFC: 527ºC
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PCU VesselsPCU Vessels
• Dimensions (ID x thickness)Recuperator: 3.8m x 110mm
Precooler: 3.1m x 100mm
Intercooler: 3.1m x 100mm
• Operating ConditionsMaximum pressure
– All PCU Vessels 6.8MPa
Nominal temperature– Recuperator 150ºC
– Precooler 150ºC
– Intercooler 130ºC
Design temperature– All 250ºC
Precooler Vessel
IntercoolerVessel
RecuperatorVessels
Maintenance Shut-off DiskVessels
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Major PCU PipesMajor PCU Pipes
• DimensionsRecuperator to RPV: 1.12m x 50mm
RPV to turbine: 1.95m x 50mm
Turbine to 2.3m x 65mmrecuperator:
• Maximum PressureRecuperator to RPV: 9MPa
RPV to turbine: 9MPa
Turbine to recuperator: 6.8MPa
• TemperatureNominal: 150ºC
Design 250ºC
Turbine Outlet Pipe
Reactor Outlet Pipe
Reactor Inlet Pipe (1 of 2)
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Vessel Support SystemVessel Support System
• FunctionTransfers the weight of the MPS-Pressure Boundary System to the building and maintains its orientation under all postulated abnormal conditions
• Reactor Pressure Vessel Support SystemProvides the vertical and horizontal support for the RPVConstrains the RPV in a seismic eventFixed at intersection of RPV vertical axis and outlet pipe
• Power Conversion Vessel Support SystemProvides the vertical and horizontal support for the Power Conversion Unit vessels