Radiation Dose Modeling in · PDF file1 Radiation Dose Modeling in FLUENT® Clifford K. Ho....
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Radiation Dose Modeling in FLUENTRadiation Dose Modeling in FLUENT®®
Clifford K. Ho
Sandia National Laboratories Albuquerque, NM
Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin Company for the United States Department of Energy’s National Nuclear Security Administration under contract DE-AC04-94AL85000.
WEF Disinfection 2009 Workshop: Modeling UV Disinfection using CFD
February 28, 2009
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Modeling ApproachModeling Approach
Hydraulic Model
Hydraulic Model
UV Radiation
Model
UV Radiation
Model
Dose ModelDose Model
Geometric Model
Geometric Model
Inactivation and Reduction
Equivalent Dose
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OverviewOverview Radiation Dose Modeling in FLUENTRadiation Dose Modeling in FLUENT®®
• Discrete Ordinates Radiation Model
• Particle Tracking and Dose
• Calculation of RED
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Discrete Ordinates Radiation ModelDiscrete Ordinates Radiation Model
• Solves the radiative transfer equation over a domain of discrete solid angles
• Calculates radiation intensity as a function of absorption, scattering, reflection, and emission
• Integrated within FLUENT CFD/hydraulic model
– Impacts of geometry within the reactor (shadowing, reflection) readily implemented
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Turn on Radiation Model in FLUENTTurn on Radiation Model in FLUENT
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DO Model ParametersDO Model Parameters
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Impact of Theta x PhiImpact of Theta x Phi Discretization on Simulated Incident Discretization on Simulated Incident
Radiation FieldRadiation Field
theta x phi = 2 x 2 theta x phi = 5 x 5
Calgon 12” Sentinel® UV Reactor
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Specify UV Transmittance of WaterSpecify UV Transmittance of Water
/ 1(1/ )
ax
o
o
IUVT eI
I I Intensity reduction at x cma Absorptioncoefficient m
−= =
= =
=
• Define > Materials...
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Specify UV Radiation Boundary ConditionSpecify UV Radiation Boundary Condition
• Define > Boundary Conditions...
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Applying Wall ReflectionApplying Wall Reflection• Define > Boundary Conditions...
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Incident Radiation FieldsIncident Radiation Fields
0
100
200
300
400
500
600
-0.2 -0.1 0 0.1 0.2
z (m)
UV
Inte
nsity
(W/m
^2)
Fluent (reflection)Fluent (No Reflection)
y = 0 mx = 0.39 mUVT = 88%
With Wall Reflection
No Wall Reflection
X
Z
Simulated UV radiation field with and without wall reflection (Calgon 12” Sentinel® UV Reactor)
UVT=88%
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OverviewOverview Radiation Dose Modeling in FLUENTRadiation Dose Modeling in FLUENT®®
• Discrete Ordinates Radiation Model
• Particle Tracking and Dose
• Calculation of RED
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Particle Tracking and DoseParticle Tracking and Dose
• Define injection points
• Define particle tracking model
• Define user-defined function to accumulate dose for each particle
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Define Injections andDefine Injections and Particle Tracking ModelParticle Tracking Model
• Define > Injections...
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-0.2
-0.1
0
0.1
0.2
-0.2 -0.1 0 0.1 0.2x (m)
y (m
)
-0.2
-0.1
0
0.1
0.2
-0.2 -0.1 0 0.1 0.2x (m)
y (m
)
Injection PreInjection Pre--ProcessorProcessor
• Defines arbitrary number of injection points in a circular region (e.g., pipe inlet) and writes to a file for FLUENT
– www.sandia.gov/cfd-water
250 points 1,000 points
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Particle TrackingParticle Tracking Discrete Random Walk modelDiscrete Random Walk model
Calgon 12” Sentinel® UV Reactor
No-DRW
DRW
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Calculating Dose from Particle TracksCalculating Dose from Particle Tracks
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UserUser--Defined Function (UDF)Defined Function (UDF) Particle Dose CalculationParticle Dose Calculation
• Dose UDF (“libudf”) for Windows and Unix can be found at www.sandia.gov/cfd-water
– Extract “libudf” directory into same directory as case and data files being used in FLUENT
• Load the Dose UDF into FLUENT– Define > User-Defined > Functions > Compiled...– Specify “libudf” for the library name
Dose (J/m2) = Incident radiation (W/m2) x Exposure time (s)
For each particle:
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Dose UDF SettingsDose UDF Settings
• Define > Models > Discrete Phase...
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Display Particle TracksDisplay Particle Tracks• Display > Particle Tracks...
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Particle Tracks Colored by DoseParticle Tracks Colored by Dose
Calgon 12” Sentinel® UV Reactor
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Particle Tracks Colored by DoseParticle Tracks Colored by Dose
Calgon 12” Sentinel® UV Reactor
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Output Dose ResultsOutput Dose Results
• Report > Discrete Phase > Sample
• Generates “[outlet].dpm” file
– Cumulative particle doses (J/m2) are contained in this file
– Can be read by Excel
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View Dose HistogramView Dose Histogram
• Report > Discrete Phase > Histogram
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OverviewOverview Radiation Dose Modeling in FLUENTRadiation Dose Modeling in FLUENT®®
• Discrete Ordinates Radiation Model
• Particle Tracking and Dose
• Calculation of RED
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Calculate Reduction EquivalentCalculate Reduction Equivalent Dose (RED)Dose (RED)
• Use appropriate dose-response curve to calculate survival ratio (N/No) for each particle
• Sum particle survival ratios and divide by total number of particles to yield cumulative survival (and inactivation) ratios
• Use dose-response curve to get RED
Dose
log Inactivationlog (No /N)
No = initial number of microbesN = number of infectious microbes remaining after UV exposure
Detailed procedure outlined in Munoz et al. (2007)
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RED PostRED Post--ProcessorsProcessors
• Takes data from “[outlet].dpm” and calculates RED and log inactivation
• Available at www.sandia.gov/cfd-water– (1) Windows-based executable and source file– (2) Excel spreadsheet
Output from FluentRED.exe
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So now we have a simulated RED...So now we have a simulated RED... Now what???Now what???
• Compare simulated RED to measured RED– Evaluate the model
• Use simulated RED as a metric to compare alternative reactor/piping designs
– Installed vs. validated configurations
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Measured RED vs. Simulated REDMeasured RED vs. Simulated RED
y = 0.9535xR2 = 0.9279
0
10
20
30
40
50
60
70
80
90
100
0 10 20 30 40 50 60 70 80 90 100
Predicted RED (mJ/cm^2)
Mea
sure
d R
ED (m
J/cm
^2)
y=x
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SummarySummary
• Simulating UV dose distributions in FLUENT– Discrete ordinates radiation model in FLUENT
generates UV incident radiation field• Honors geometry used in hydraulic CFD simulation
(e.g., shadowing, reflection)– Particle tracking yields dose distribution– Dose distribution yields RED
• Tutorial and tools are available at:– www.sandia.gov/cfd-water
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FluentUVFluentUV
• Wizard-like template for generating models and grids of UV reactors and piping in FLUENT
• Muhammad.Sami @ansys.com
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AcknowledgmentsAcknowledgments
• AwwaRF (Project #4107)– Alice Fulmer, Project Manager
• Project Advisory Committee– Brian Bernados, Joel Ducoste, Steve Deem, Dennis Greene,
Michael Montysko
• Calgon Carbon Corporation– Keith Bircher
• Infilco Degremont, Inc. (DENARD)– Robert Kelly and Bruno Ferran
• Trojan Technologies Inc.– Ted Mao
Sandia Corporation gratefully acknowledges that the Awwa Research Foundation is the joint owner of the technical information upon which this manuscript is based. Sandia thanks AwwaRF for their financial, technical, and administrative assistance in funding and managing the project through which this information was discovered. The comments and views detailed herein may not necessarily reflect the views of the Awwa Research Foundation, its officers, directors, affiliates, cofunding organizations, or agents.