tfaws interdisciplinary paper session candidate benchmark ... · thermal and fluid software douglas...
TRANSCRIPT
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Presented By
Douglas P. Bell
Candidate Benchmark Cases for
Thermal and Fluid Software
Douglas P. Bell, CRTech
Thermal & Fluids Analysis Workshop
TFAWS 2018
August 20-24, 2018
NASA Johnson Space Center
Houston, TX
TFAWS Interdisciplinary Paper Session
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What is a Benchmark Case?
• Benchmark
– A standard against which things are compared or assessed
• Benchmark case
– A description of a system to be modeled
• Simple
• Easy to model
• Quick to solve
• Accepted solution
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The Case for Benchmark Cases
• Thermal and fluid software used for passive and active thermal designs lacks a standardized set of benchmark cases– NPARC has an established set for computation fluid dynamics
– NAFEMS has an established set for finite elements
• Primary focus is structural solutions, but some thermal cases have been established; most of the thermal cases are included in this paper.
• Uses for benchmark cases– Verify – compare with a closed-form solution (Roache)
– Validate – compare with an experiment or other established solution (Roache)
– Compare software products
– Evaluate software capabilities
– Train new employees
– Verify installation
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Benchmark Case Descriptions
• Reference
• Case features– Dimensions
• Solution (0D, 1D, 2D, 3D)– What is the solution dimension?
• Geometry (0D, 1D, 2D, 3D)– What model objects can be used?
– Physics• What is being solved?
– Boundary conditions• What is being applied?
– Time dependence• Steady state, transient, or both?
– Comparison• Is there a closed-form solution?
• What? No problem statement?– The answer for comparison can be determined by the governing
body or the user
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Sketch if available
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HEAT TRANSFER CASES
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HT001 – Conduction with Radiation
• Davies, Fenner, & Lewis, 1993, pp. 101-106
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
• Boundary conditions
– Temperature
– Radiation
• Time dependence
– Steady state
• Comparison
– Closed-form solution
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HT002 – Composite Wall
• Bejan, 1993, pp. 37-38
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
– Composite materials
• Boundary conditions
– Convection
• Time dependence
– Steady state
• Comparison
– Closed-form solution
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HT003 – Contact Joint
• Holman, 1986, p. 58
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
– Thermal contact
• Boundary conditions
– Temperature
• Time dependence
– Steady state
• Comparison
– Closed-form solution
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HT004 – Lumped Capacitance
• Holman, 1986, pp. 135-136
• Dimensions
– 0D (zero D) solution
– 0D, 2D, or 3D geometry
• Physics
– Lumped capacitance
• Boundary conditions
– Convection
• Time dependence
– Transient
• Comparison
– Closed-form solution
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HT005 – Conduction with Internal Heat Generation
• Casey & Simpson, 1986, p. 2.3
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
– Heat generation
• Boundary conditions
– Temperature
• Time dependence
– Transient
• Comparison
– Closed-form solution
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HT006 – Oscillating Temperature BC
• Davies, Fenner, & Lewis, 1993, p. 107
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
• Boundary conditions
– Temperature
– Transient
• Time dependence
– Transient
• Comparison
– Closed-form solution
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HT007 – Temperature-Dependent Heat Generation
• Casey & Simpson, 1986, p. 2.5
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
– Heat generation
– Variable properties
• Boundary conditions
– Temperature
• Time dependence
– Transient
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HT008 – 2D Conduction with Convection
• Casey & Simpson, 1986, p. 2.8
• Dimensions
– 2D solution
– 2D or 3D geometry
• Physics
– Conduction
• Boundary conditions
– Convection
– Temperature
• Time dependence
– Steady state
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HT009 – Temperature-Dependent Conductivity
• Casey & Simpson, 1986, p. 2.9
• Dimensions
– 1D solution
– 1D, 2D, or 3D geometry
• Physics
– Conduction
– Variable properties
• Boundary conditions
– Heat flux
– Temperature
• Time dependence
– Steady state
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HT010 – Discontinuous Flux
• Casey & Simpson, 1986, p. 2.11
• Dimensions
– 2D solution
– 2D or 3D geometry
• Physics
– Conduction
• Boundary conditions
– Heat flux
– Temperature
• Time dependence
– Steady state
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HT011 – Composite with Heat Generation
• Glass, et al., 1988, pp. 4-7
• Dimensions
– 2D solution
– 2D or 3D geometry
• Physics
– Conduction
– Heat generation
– Composite materials
• Boundary conditions
– Convection
• Time dependence
– Steady state
– Transient
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HT012 – Conduction and Radiation with Heat Generation
• Glass, et al., 1988, pp. 8-10
• Dimensions– 2D solution
– 2D or 3D geometry
• Physics– Conduction
– Composite materials
– Heat generation
– Radiation
• Boundary conditions– Radiation
– Symmetry
• Time dependence– Steady state
– Transient
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FLUID FLOW CASES
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FF001 – Multi-Inlet, Multi-Outlet Steady Flow
• Crowe, Elger, & Roberson, 2001, pp. 122-123
• Dimensions– 0D (zero D) solution
– 0D or 3D geometry
• Physics– Lumped capacitance
– Fluid flow
• Boundary conditions– Mass flow rate
• Time dependence– Steady state
• Comparison– Closed-form solution
• Variations– Transient solution
– Adiabatic and compressible
– Real gas
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FF002 – Pump and Pipe System
• Gerhart & Gross, 1985, pp. 476-480
• Dimensions– 1D solution
– 1D geometry
• Physics– Fluid flow
• Boundary conditions– Hydrostatic pressure
– Pipe system with losses
– Single-curve pump
• Time dependence– Steady state
• Comparison– Closed-form solution
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FF003 – Internal Fluid Flow with Convection
• Dimensions
– 1D solution
– 1D geometry
• Physics
– Fluid flow
– Convection
• Boundary conditions
– Temperature
– Mass flow rate
• Time dependence
– Transient
• Comparison
– Closed-form solution
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FF004 – Boiling
• Physics
– Convection
– Phase change
• Specific case not identified, yet.
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FF005 – Water Hammer
• Wylie & Streeter, 1982
• Dimensions
– 1D solution
– 1D geometry
• Physics
– Pressure wave
– Compressible liquids
• Time dependence
– Transient
• Comparison
– Method of Characteristics
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FF006 – Water Hammer (line priming)
• Dimensions
– 1D solution
– 1D geometry
• Physics
– Pressure wave
– Compressible liquids
– Flat-front propagation
• Time dependence
– Transient
• Comparison
– Method of Characteristics
• Specific case not identified, yet
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FF007 – Cryogenic Line Cooldown
• Brennan, Brentari, Smith, & Steward, 1966
• Dimensions
– 1D solution
– 1D geometry
• Physics
– Fluid flow
– Convection
– Phase change
– Cryogenic fluids
• Time dependence
– Transient
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RADIATION CALCULATION
CASES
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RC001 – Non-Grey Radiation
• Howell, Menguc, & Siegel, Thermal Radiation Heat
Transfer, 6th Edition, 2016
• Physics
– Variable properties
– Radiation
• Boundary conditions
– Temperature
• Time dependence
– Steady state
• Comparison
– Closed-form solution
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RCxxx – Radiation View Factors
• Howell, A Catalog of Radiation Heat Transfer
Configuration Factors, 2018
– Many configuration factors are cataloged with closed-form
solutions
• Physics
– Radiation
• Comparison
– Closed-form solution
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CONCLUSIONS
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Conclusions
• A set of candidate benchmark cases has been presented
– Compatible with thermal and fluid analysis software
– Addresses needs of active and passive thermal designs
– The set is incomplete
• CRTech is adding newly discovered benchmark cases to
its current set of test cases
• NESC and the TFAWS community should consider
standardizing a set of benchmark cases
– CRTech will include any standardized benchmarks in testing
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REFERENCES
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References
• Bejan, A. (1993). Heat Transfer. New York: John Wiley & Sonda, Inc.
• Brennan, J. A., Brentari, E. G., Smith, R. V., & Steward, W. G. (1966). Cooldown of Cryogenic Transfer Lines - An Experimental Report. NBS Report 9264.
• Casey, J. A., & Simpson, G. B. (1986). Benchmark Tests for Thermal Analysis. Glasgow: NAFEMS.
• Crowe, C. T., Elger, D. F., & Roberson, J. A. (2001). Engineering Fluid Mechanics. New York: John Wiley & Sons, Inc.
• Davies, G. A., Fenner, R. T., & Lewis, R. W. (Eds.). (1993). Background to Benchmarks.Glasgow: NAFEMS.
• Gerhart, P. M., & Gross, R. J. (1985). Fundamentals of Fluid Mechanics. Addison-Wesley Publishing Company.
• Glass, R. E., Burgess, M., Livesey, E., Geffroy, J., Bourdon, S., Mennerdahl, D., . . . Nagel, P. (1988). Standard Thermal Problem Set for the Evaluation of Heat Transfer Codes Used in the Assessment of Transportation Packages. Sandi National Laboratories NEACRP-L-299.
• Holman, J. P. (1986). Heat Transfer. McGraw-Hill Book Company.
• Howell, J. R. (2018). A Catalog of Radiation Heat Transfer Configuration Factors. Retrieved from http://www.thermalradiation.net/indexCat.html
• Howell, J. R., Menguc, M. P., & Siegel, R. (2016). Thermal Radiation Heat Transfer, 6th Edition (6th ed.). Boca Raton, FL: CRC Press.
• Roache, P. J. (1998). Verification and Validation in Computational Science and Engineering. Albuquerque: Hermosa Publishers.
• Wylie, E. B., & Streeter, V. L. (1982). Fluid Transients. Ann Arbor: FEB Press.
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