Computational design of an Ultra-Small Modular Reactor...
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Computational design
of an Ultra-Small
Modular Reactor
based on coupled
Serpent sequencesGeorgia Institute of Technology
10/15/2019
Naiki Kaffezakis, Stefano Terlizzi, Corey Smith,
Ian Miner, Andrew Nelson, Dan Kotlyar
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▪ The USMR Project
▪ Computational Methods
▪ Preliminary Design Studies
▪ Economic Analysis
▪ Secondary Design Analysis
▪ Ongoing Studies and Future Work
Outline
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▪ Ultra-Small Modular Reactor (USMR )
• Siting flexibilityꟷ no need of large cooling water volume
• Modularityꟷ add power in small unit increments
• Factory productionꟷ potential lower costs and higher quality
▪ Thermophotovoltaic (TPV ) power-block
• High-efficiency
• Low-cost
Objectives
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USMR Core Design
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USMR Physics
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Serpent Models
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▪ 2D Multiple concentric cylinders
▪ Uniquely defined materials with temperature dependent densities
▪ Fission rate detectors attached to regions with fissile isotopes
▪ 50,000 histories, 150 active cycles, 50 inactive cycles
▪ 1 MWd/kgU burn steps
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Finite Element Conduction Solver
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Computational Sequence
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Input File
Dimensions
Materials
Power
Profile
Conduction Solver
ConductivityTemperature
Profile
Serpent
Initial Condition Solution
Depletion
Output File
Temperature
Power
Criticality
Cycle Length
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Initial Exploration of the Design
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▪ Utilizing simplified 4-ring design
▪ Examined Variables:
• Fuel Material
• Outer Wall Temperature
• Temperature Safety Margin
• Ring Dimensions
UC2 fuel element with 1500 ̊C
outer temperature and 200 C̊
safety margin
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Results of the Preliminary Study
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UC fuelUN fuel
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Conclusions of the Preliminary Study
▪ Maximum Power Density for a critical Geometry:
• UN 2.00 W/cm3
• UC 1.60 W/cm3
• UC2 1.00 W/cm3
• CERMET (U/W) 0.15 W/cm3
▪ Preferred Design using UN fuel:
• 6.5 kW/cm, 59 year operation, 7.5 MWd/kgU
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Parameter Value
Inner Graphite Radius, cm 17.5
Fuel Radius, cm 26.5
Outer Graphite Radius, cm 33.5
Beryllium Reflector Radius, cm 34.0
Tungsten Filament Radius, cm 34.5
Initial Criticality for 200K Margin 1.0135
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▪ Top-down differential economics approach
▪ Gen IV international forum code of accounts
▪ 10’s, 20’s, 30’s, 40’s, 70’s are drawn from EEDB and scaled to output,
▪ 50’s, 80’s are calculated using material and manufacturing costs
▪ 60’s, 90’s are pulled from the licensing costs for PWR
Top-Down Economic Approach
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Account
Codes Account Description
10 Capitalized Preconstruction Costs
20 Capitalized Direct Costs
30 Capitalized Indirect Services Costs
40 Capitalized Owner's Costs
50 Capitalized Supplementary Costs
60 Capitalized Financial Costs
70 Annualized O&M Cost
80 Annualized Fuel Cost
90 Annualized Financial Cost
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▪ Focusing on a single promising case
▪ Utilizing both the average and lowest costs from each account
▪ Examining both battery and multi-batch operation
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Deterministic
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▪ Assumed normal distribution of account costs
▪ Assumed uniform distribution across design space
▪ Made 5000 random samples of designs and costs
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Stochastic
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The relative differential of LCOE based on
changing design parameters
Parameter
LCOE Relative
Differential
Capacity -0.85
Plant Size -0.30
Construction Period 0.24
Discharge Burnup -0.23
Plant Efficiency -0.15
Plant Lifetime 0.10
Ramp Period 0.10
Power Density -0.002
Enrichment 0.08
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Major Economic Factors
𝑅𝑒𝑙𝑎𝑡𝑖𝑣𝑒 𝐷𝑖𝑓𝑓𝑒𝑟𝑒𝑛𝑡𝑖𝑎𝑙 ≡
𝜕𝑦
𝑦
𝜕𝑥
𝑥
≅1
𝑁σ𝑖=1𝑁
(𝑦𝑖−𝑦𝑖−1)
𝑦𝑖−1𝑥𝑖−𝑥𝑖−1𝑥𝑖−1
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Moderating Ratio and Depletion Analysis
▪ Additional Analysis on Tuning the Moderator Ratio
▪ Interested in finding the optimal burnup to improve economics
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Vm/Vf 25 100
8% 15 24
12% 55 65
19.75% 130 137
Max Burnup MWd/kg
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TPV Survivability
Silicon Transmutation Fast Flux Damage
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Reactivity Coefficients for Transient Conduction Solver
Ongoing Work
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Reactivity Controls
Experimental Validation
Future Work
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Questions?
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Extra Slide (1)
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UC2 fuel CERMET fuel
Additional Preliminary Results
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Extra Slide (2)
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Depletion of first converged case
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Extra Slide (3)
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Economic Inputs for most promising design
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The LCOE breakdown for various other power sources
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Extra Slide (4)
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Extra Slide (5)
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Additional Economic Sensitivity Figures
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Extra Slide (6a)
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Even More Moderating Ratio Tradeoffs
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Extra Slide (6b)
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Even More Moderating Ratio Tradeoffs
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Extra Slide (6c)
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Even More Moderating Ratio Tradeoffs