Document Zbl 0433.76021

Transient, three-dimensional potential flow problems and dynamic response of the surrounding structures. II: Simultaneous coupling between fluid and structural dynamics (computer code SING-S). (English) Zbl 0433.76021

J. Comput. Phys. 34, 164-183 (1980).

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MSC:

76B99	Incompressible inviscid fluids
76-04	Software, source code, etc. for problems pertaining to fluid mechanics
65D99	Numerical approximation and computational geometry (primarily algorithms)
74F10	Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.)

Keywords:

transient; three-dimensional; dynamic response; surrounding structures; simultaneous coupling; SING-S; vibrations; boiling water reactor

Citations:

Zbl 0433.76020

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References:

[1]	Krieg, R.; Hailfinger, G., J. Computational Physics, 34, 139 (1980) · Zbl 0433.76020
[2]	Katz, F.; Krieg, R.; Ludwig, A.; Schlechtendahl, E. G.; Stölting, K., 2D fluid flow in the downcomer and dynamic response of the core barrel during PWR blowdown, (4th Int. Conf. Struct. Mech. in Reactor Technology. 4th Int. Conf. Struct. Mech. in Reactor Technology, San Francisco, Calif. (Aug. 1977))
[3]	Dienes, J. K.; Hirt, C. W.; Stein, L. R., Multi-dimensional fluid-structure interactions in a pressurized water reactor, (Comp. Methods for Fluid-Structure Interaction Problems (Nov./Dec. 1977), ASME: ASME Atlanta, Ga)
[4]	Krieg, R.; Schlechtendahl, E. G.; Scholl, K.-H., Nucl. Eng. Design, 43 (1977)
[5]	Fistedis, S. H., Structural dynamics in fast reactor accident analysis, (3rd Int. Conf. Struct. Mech in Reactor Technology. 3rd Int. Conf. Struct. Mech in Reactor Technology, London (Sept. 1975))
[6]	Citerley, R. L.; Gibson, W. C.; Ball, R. E., Response of a cylindrical fluid container to seismic motion, (American Society of Engineers, Pressure Vessel and Piping Conf.. American Society of Engineers, Pressure Vessel and Piping Conf., Mexico City (Sept. 19-24, 1976))
[7]	Park, K. C.; Felippa, C. A.; DeRuntz, J. A., Stabilization of staggered solution procedures for fluid-structure interaction analysis, (Comp. Methods for Fluid-Structure Interaction Problems. Comp. Methods for Fluid-Structure Interaction Problems, Atlanta, Ga. (Nov./Dec. 1977)) · Zbl 0389.76002
[8]	Schumann, U., Dynamics of a nuclear reactor shell structure in an incompressible fluid, (Müller, U., Recent Developments in Theoretical and Experimental Fluid Mechanics-Compressible and Incompressible Flows (1978), Springer-Verlag: Springer-Verlag New York/Berlin) · Zbl 0454.73037
[9]	Au-Yang, M. K., J. Appl. Mech. (Sept. 1976)
[10]	Horvay, G.; Bowers, G., J. Fluids Eng. (June 1975)
[11]	Chen, S. S.; Rosenberg, G. S., Nucl. Eng. Design A, 32 (1975)
[12]	Krajcinovic, D., Nucl. Eng. Design A, 30 (1974)
[13]	Housner, J. M.; Herr, R. W., Vibrations of incompressible liquid-plastic tank combinations using a series representation of the liquid, (Comp. Methods for Fluid-Structure Interaction Problems (Nov/Dec. 1977), ASME: ASME Atlanta, Ga) · Zbl 0388.73049
[14]	Chung, T. J.; Rush, R. H., J. Appl. Mech. (Sept. 1976)
[15]	Khabbaz, G. R., AIAA J., 9 (Oct. 1971)
[16]	Bedrosian, B.; Di Maggio, F. L., Int. J. Solids Structures, 8 (1972)
[17]	Berger, B. S., J. Appl. Mech. (Dec. 1974)
[18]	Zienkiewicz, O. C.; Bettess, P., Infinite elements in the study of fluid-structure interaction problems, (Proceedings Second Int. Symp.. Proceedings Second Int. Symp., Dec. 1975. Proceedings Second Int. Symp.. Proceedings Second Int. Symp., Dec. 1975, Computing Methods in Applied Sciences and Engineering (1976), Springer-Verlag: Springer-Verlag Berlin/Heidelberg/New York) · Zbl 0385.73050
[19]	Bonnemaire, L.; Berhault, B., Euromech., 96 (Dec. 1977)
[20]	Mnev, Y. N.; Pertsev, A. K., Hydro elasticity of shells (Aug. 1971), Foreign Technology Division: Foreign Technology Division Wright-Patterson Air Force Base
[21]	Belytschko, T.; Geers, T. L., Computing Methods for Fluid-Structure Interaction Problems (Nov./Dec. 1977), ASME: ASME Atlanta, Ga, Foreword to
[22]	Schweiger, W.; Mayr, M., Mech. Res. Commun., 3 (1976)
[23]	Liang, S. S.; Luk, C. H., A new approach to suppression pool hydrodynamics, (4th Int. Conf. Struct. Mech. in Reactor Technology. 4th Int. Conf. Struct. Mech. in Reactor Technology, San Francisco (August 1977))
[24]	Di Maggio, F. L.; Bleich, H. H.; McCormick, J. M., Computers and Structures, 8 (1978)
[25]	Class, G., Untersuchung der bei der Dampfkondensation im Druckabbausystem von Siedewasserreaktoren entstehenden Wandbelastungen, (Kernforschungszentrum Karlsruhe. Kernforschungszentrum Karlsruhe, KfK 2549 (1978))
[26]	Krieg, R.; Zehlein, H., Coupled problems in transient fluid and structural dynamics with application to nuclear engineering, (Int. Symposium on Innovative Num. Analysis in Appl. Eng. Science. Int. Symposium on Innovative Num. Analysis in Appl. Eng. Science, Versailles (May 1977))
[27]	Göller, B.; Hailfinger, G.; Krieg, R., Vibrations of the pressure suppression system of a boiling water reactor, (Int. Conf. Vibration in Nucl. Plant. Int. Conf. Vibration in Nucl. Plant, Keswick, U.K. (May 1978)) · Zbl 0433.76021
[28]	Class, G., Theoretische Untersuchung der Druckpulsensentstehung bei der Dampfkondendation im Druckabbausystem von Siedewasserreaktoren—Rechenprogramm KONDAS, (Kernforschungszentrum Karlsruhe. Kernforschungszentrum Karlsruhe, KfK 2487 (1977))
[29]	Kadlec, J.; Müller, R. A., Dynamic loading of containment during blowdown, Review of experimental data from Marviken and Brunsbüttel, (Transactions, Int. Seminar ELCALAP, No. Q1/2. Transactions, Int. Seminar ELCALAP, No. Q1/2, Berlin (Sept. 1975))

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