The Development of a Method for Validation of the Uncertainties of the Models Used in Thermal-Hydraulic Codes

The article deals with one of the most crucial and, at the same time, problematic stages of implementing the uncertainty analysis of thermal-hydraulic calculations by the GRS method—the validation of the statistical characteristics of model uncertainties—namely, of the circuit thermal-hydraulic bloc...

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Published in	Thermal engineering Vol. 66; no. 5; pp. 310 - 315
Main Authors	Gritsai, A. S., Migrov, Yu. A.
Format	Journal Article
Language	English
Published	Moscow Pleiades Publishing 01.05.2019 Springer Nature B.V
Subjects	Design parameters Engineering Engineering Thermodynamics Heat and Mass Transfer Hydraulics Mathematical models Nuclear Power Plants Parameter uncertainty Uncertainty analysis uncertainty analysis GRS method thermal-hydraulic design code closing relations sensitivity analysis KORSAR design code law of distribution statistics
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Abstract	The article deals with one of the most crucial and, at the same time, problematic stages of implementing the uncertainty analysis of thermal-hydraulic calculations by the GRS method—the validation of the statistical characteristics of model uncertainties—namely, of the circuit thermal-hydraulic block’s closing relations. The above relations developed, as a rule, on the semiempirical approach, are one of the main sources of uncertainty of the results calculated by the code. A task of developing the method proposed by the authors earlier that allows performing the validation procedure using verification technology and objective statistical criteria was set. The method in question allows going from an expert evaluation to the objective assessment of the model parameter uncertainties, thus enhancing the objectivity of the calculated results obtained within the framework of the GRS method. Particular problems are formulated the solution of which expands the capabilities of the method to use experimental information and to assess the uncertainties of the model parameters that cannot be directly measured experimentally. This, in turn, allows using the method for validation of the uncertainty of all most-critical model parameters of the design code. The stages of the proposed method are set forth sequentially followed by discussion of the topical problems that arise at every stage. Using practical examples, the ways of solving the formulated problems are demonstrated. The results obtained using the method for evaluation of uncertainties of a series of model parameters (closing relations) of the KORSAR thermal-hydraulic design code are provided. The results are recommended for use when analyzing uncertainties within the framework of the KORSAR code by the GRS method. Moreover, the proposed method can also be applied to other design codes.
AbstractList	The article deals with one of the most crucial and, at the same time, problematic stages of implementing the uncertainty analysis of thermal-hydraulic calculations by the GRS method—the validation of the statistical characteristics of model uncertainties—namely, of the circuit thermal-hydraulic block’s closing relations. The above relations developed, as a rule, on the semiempirical approach, are one of the main sources of uncertainty of the results calculated by the code. A task of developing the method proposed by the authors earlier that allows performing the validation procedure using verification technology and objective statistical criteria was set. The method in question allows going from an expert evaluation to the objective assessment of the model parameter uncertainties, thus enhancing the objectivity of the calculated results obtained within the framework of the GRS method. Particular problems are formulated the solution of which expands the capabilities of the method to use experimental information and to assess the uncertainties of the model parameters that cannot be directly measured experimentally. This, in turn, allows using the method for validation of the uncertainty of all most-critical model parameters of the design code. The stages of the proposed method are set forth sequentially followed by discussion of the topical problems that arise at every stage. Using practical examples, the ways of solving the formulated problems are demonstrated. The results obtained using the method for evaluation of uncertainties of a series of model parameters (closing relations) of the KORSAR thermal-hydraulic design code are provided. The results are recommended for use when analyzing uncertainties within the framework of the KORSAR code by the GRS method. Moreover, the proposed method can also be applied to other design codes.
Author	Migrov, Yu. A. Gritsai, A. S.
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Keywords	uncertainty analysis GRS method thermal-hydraulic design code closing relations sensitivity analysis KORSAR design code law of distribution statistics
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References	YudovYu. V.VolkovaS. N.MigrovYu. A.The closing relationships of the thermohydraulic model of the KORSAR computer codeTherm. Eng.200249901908 SwansonC. J.JulianB.IhasG. G.DonnellyR. J.Pipe flow measurements over a wide range of Reynolds number using liquid helium and various gasesJ. Fluid Mech.2002461516010.1017/S00221120020085950994.76508 D. A. Yashnikov, Development and Application of the Uncertainty Analysis Method of Thermohydraulic Calculations of Emergency Modes of RBMK Reactors, Candidate’s Dissertation in Engineering (NIKIET, Moscow, 2013). GricayA. S.MigrovYu. A.Assessment of uncertainties of the models used in thermal–hydraulic computer codesTherm. Eng.20156265666210.1134/S0040601515090049 General Provisions for the Safety of NP-001-15 Nuclear Power Plants (Nauchno-Tekh. Tsentr po Yad. i Radiats. Bezop., Moscow, 2016) [in Russian]. RELAP5-3D. Code Manual, Vol. I: Code Structure, System Models and Solution Methods (Idaho National Laboratory, 2005), INEEL-EXT-98-00834. D. Bestion and G. Geffraye, The CATHARE Code, CEA Grenoble Report No. SMTH/LDMS/EM/2002. LA-UR-00-910. McKeonB. J.SwansonC. J.ZaragolaM. V.DonnellyR. J.SmithA. J.Friction factors for smooth pipe flowJ. Fluid Mech.2004511414410.1017/S00221120040097961061.76503 RumyantsevA. N.Method of quantile estimates of uncertaintiesAt. Energy200710225526310.1007/s10512-007-0040-0 PonomarenkoG. L.BykovM. A.MoskalevA. M.“Using the BEPU method for the study of beyond-design emergency modes with deep cooling in VVER-1000,” Vopr. At. Nauki Tekh. Ser.: Obespechenie BezopAES, No.2009257895 G. Lerch and H. Austregesilo, ATHLET Mod 1.2 Cycle D. User’s Manual. GRS-P-1 (2001), Vol. 1. KuznetsovYu. N.Heat Transfer in the Problem of Safety of Nuclear Reactors1989MoscowEnergoatomizdat V. E. Gmurman, Fundamentals of Probability Theory and Mathematical Statistics (Vysshaya Shkola, Moscow, 2003; Elsevier, New York, 1969). BartolomeiG. G.BrantovV. G.MolochnikovYu. S.KharitonovYu. V.SolodkiiV. A.BatashovaG. N.MikhailovV. N.Experimental investigation of true volumetric steam content at boiling with underheating in pipesTeploenergetika, No.198232022 Best Estimate Safety Analysis for Nuclear Power Plants: Uncertainty Evaluation (Int. At. Energy Agency, Vienna, 2008), In Ser.: Safety Reports Series, Vol. 52. ISSN 1020-6450 WilksS. S.Determination of sample sizes for setting tolerance limitsAnn. Math. Stat.1941129196445110.1214/aoms/117773178867.0481.04 GlaeserH.GRS method for uncertainty and sensitivity evaluation of code results and applicationsSci. Technol. Nucl. Install.2008200879890110.1155/2008/798901 AfremovD. A.ZhuravlevaYu. V.MironovYu. V.NazarovV. S.RadkevichV. E.YashnikovD. A.Analysis of the uncertainty of calculations of loss-of-coolant accidents for the No. 1 unit of the Kursk nuclear power plantAt. Energy20059839439910.1007/s10512-005-0223-5 VeremeevA. A.IvashkevichA. A.SmogalevI. P.VinogradovV. N.EfanovD. A.SergeevV. V.Verifying the post-burnout heat-transfer model of the thermohydraulic code KORSARTherm. Eng.200249948952 S. N. Bogdan, O. M. Kovalevich, N. A. Kozlova, S. A. Shevchenko, and D. A. Yashnikov, “About the calculation error evaluation in the framework of the nuclear facilities safety analysis,” Yad. Radiats. Bezop., No. 2, 38–53 (2017). VasilenkoV. A.MigrovYu. A.VolkovaS. N.YudovYu. V.DanilovI. G.KorotaevV. G.Kut’inV. V.BondarchikB. R.BenediktovD. V.Experience in creating the thermohydraulic computer code of the new generation KORSAR and its main characteristicsTherm. Eng.200249800887 A. S. Gricay (1036_CR16) 2015; 62 1036_CR13 G. G. Bartolomei (1036_CR20) 1982; 3 Yu. N. Kuznetsov (1036_CR6) 1989 C. J. Swanson (1036_CR18) 2002; 461 H. Glaeser (1036_CR9) 2008; 2008 V. A. Vasilenko (1036_CR5) 2002; 49 A. A. Veremeev (1036_CR21) 2002; 49 G. L. Ponomarenko (1036_CR11) 2009; 25 D. A. Afremov (1036_CR10) 2005; 98 S. S. Wilks (1036_CR12) 1941; 12 1036_CR1 1036_CR3 1036_CR2 1036_CR4 Yu. V. Yudov (1036_CR7) 2002; 49 1036_CR8 1036_CR17 A. N. Rumyantsev (1036_CR14) 2007; 102 1036_CR15 B. J. McKeon (1036_CR19) 2004; 511
References_xml	– ident: 1036_CR17 – volume: 511 start-page: 41 year: 2004 ident: 1036_CR19 publication-title: J. Fluid Mech. doi: 10.1017/S0022112004009796 contributor: fullname: B. J. McKeon – volume: 49 start-page: 948 year: 2002 ident: 1036_CR21 publication-title: Therm. Eng. contributor: fullname: A. A. Veremeev – ident: 1036_CR15 – volume: 2008 start-page: 798901 year: 2008 ident: 1036_CR9 publication-title: Sci. Technol. Nucl. Install. doi: 10.1155/2008/798901 contributor: fullname: H. Glaeser – ident: 1036_CR13 – volume: 62 start-page: 656 year: 2015 ident: 1036_CR16 publication-title: Therm. Eng. doi: 10.1134/S0040601515090049 contributor: fullname: A. S. Gricay – volume: 3 start-page: 20 year: 1982 ident: 1036_CR20 publication-title: Teploenergetika, No. contributor: fullname: G. G. Bartolomei – volume: 25 start-page: 78 year: 2009 ident: 1036_CR11 publication-title: AES, No. contributor: fullname: G. L. Ponomarenko – volume: 12 start-page: 91 year: 1941 ident: 1036_CR12 publication-title: Ann. Math. Stat. doi: 10.1214/aoms/1177731788 contributor: fullname: S. S. Wilks – volume: 98 start-page: 394 year: 2005 ident: 1036_CR10 publication-title: At. Energy doi: 10.1007/s10512-005-0223-5 contributor: fullname: D. A. Afremov – volume: 49 start-page: 800 year: 2002 ident: 1036_CR5 publication-title: Therm. Eng. contributor: fullname: V. A. Vasilenko – ident: 1036_CR2 – ident: 1036_CR3 – ident: 1036_CR4 – volume: 102 start-page: 255 year: 2007 ident: 1036_CR14 publication-title: At. Energy doi: 10.1007/s10512-007-0040-0 contributor: fullname: A. N. Rumyantsev – ident: 1036_CR8 – volume-title: Heat Transfer in the Problem of Safety of Nuclear Reactors year: 1989 ident: 1036_CR6 contributor: fullname: Yu. N. Kuznetsov – volume: 49 start-page: 901 year: 2002 ident: 1036_CR7 publication-title: Therm. Eng. contributor: fullname: Yu. V. Yudov – volume: 461 start-page: 51 year: 2002 ident: 1036_CR18 publication-title: J. Fluid Mech. doi: 10.1017/S0022112002008595 contributor: fullname: C. J. Swanson – ident: 1036_CR1
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SubjectTerms	Design parameters Engineering Engineering Thermodynamics Heat and Mass Transfer Hydraulics Mathematical models Nuclear Power Plants Parameter uncertainty Uncertainty analysis
Title	The Development of a Method for Validation of the Uncertainties of the Models Used in Thermal-Hydraulic Codes
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