Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/studying-coolant-hydrodynamics-in-the-area-of-a-guide-channel-of-fuel-rOskW1eZ2a
References (26)
-
O. Kashinskii, P. Lobanov, N. Pribaturin, A. Kurdyumov, S. Volkov (2013)
Experimental study of the effect of spacer grid on the flow structure in fuel assemblies of the AES 2006 reactorThermal Engineering, 60
-
(2013)
Study of coolant mass transfer behind the VBER-300 fa mixing grids in order to substantiate their effectiveness -
(2013)
Dobr ov, Studies of local hydrodynamics and mass transfer intercell coolant flow in the vicinity of the guide channel PWR reactor fuel assemblies -
D. Sergeev, A. Kandaurov, Y. Troitskaya (2017)
The particular use of PIV methods for the modelling of heat and hydrophysical processes in the nuclear power plantsJournal of Physics: Conference Series, 891
-
S. Dmitriev, S. Borodin, M. Legchanov, D. Solntsev, V. Sorokin, A. Khrobostov (2013)
Experimental studies of hydrodynamic and mass-transfer properties of coolant flow in VVER fuel assemblies TVSAAtomic Energy, 113
-
(1973)
Introduction to Similarity Theory, 2nd ed -
(2012)
Coolant mixing investigation in VVER-1000 fuel assembly -
A. Barinov, S. Dmitriev, A. Khrobostov, O. Samoilov (2016)
Methods of Thermomechanical Reliability Validation of Thermal Water-Moderated and Water-Cooled Reactor CoresAtomic Energy, 120
-
See Fig. 17 for designations -
S. Dmitriev, D. Doronkov, M. Legchanov, A. Pronin, D. Solncev, V. Sorokin, A. Hrobostov (2016)
Investigating hydrodynamic characteristics and peculiarities of the coolant flow behind a spacer grid of a fuel rod assembly of the floating nuclear power unitThermophysics and Aeromechanics, 23
-
A. Trupp, R. Azad (1975)
The structure of turbulent flow in triangular array rod bundlesNuclear Engineering and Design, 32
-
C. Peña-Monferrer, J. Muñoz-Cobo, S. Chiva (2014)
CFD Turbulence Study of PWR Spacer-Grids in a Rod BundleScience and Technology of Nuclear Installations, 2014
-
J. Rogers, N. Todreas (1969)
COOLANT INTERCHANNEL MIXING IN REACTOR FUEL ROD BUNDLES: SINGLE-PHASE COOLANTS. -
P. Carajilescov, N. Todreas (1976)
Experimental and Analytical Study of Axial Turbulent Flows in an Interior Subchannel of a Bare Rod BundleJournal of Heat Transfer-transactions of The Asme, 98
-
S. Dmitriev, A. Gerasimov, A. Dobrov, D. Doronkov, A. Pronin, D. Solntsev, A. Khrobostov, Yu. Shvetsov, D. Shipov (2019)
Hydrodynamics and mixing of a coolant in the core of the VVER with fuel assemblies of different designsThermophysics and Aeromechanics, 26
-
(2010)
Hydrodynamics and Heat Transfer of Swirl Flows in Channels of Nuclear Power Installations -
W. Eifler, R. Nijsing (1967)
Experimental investigation of velocity distribution and flow resistance in a triangular array of parallel rodsNuclear Engineering and Design, 5
-
V. Vonka (1988)
Measurement of secondary flow vortices in a rod bundleNuclear Engineering and Design, 106
-
(2013)
Farafonov, The Main Equipment of Nuclear Power Plants with a Tank Reactor with Thermal Neutrons -
S. Dmitriev, A. Dobrov, D. Doronkov, A. Pronin, D. Solntsev, V. Sorokin, A. Khrobostov (2018)
The study of hydrodynamic processes of a coolant flow in FA-KVADRAT PWR with various mixing spacer gridsThermophysics and Aeromechanics, 25
-
J. Bakosi, M. Christon, R. Lowrie, L. Pritchett-Sheats, R. Nourgaliev (2013)
Large-eddy simulations of turbulent flow for grid-to-rod fretting in nuclear reactorsNuclear Engineering and Design, 262
-
D. Rowe, B. Johnson, J. Knudsen (1974)
Implications concerning rod bundle crossflow mixing based on measurements of turbulent flow structureInternational Journal of Heat and Mass Transfer, 17
-
(2015)
Features of the flow inside TVS-KVADRAT PWR reactor with staged mixing spacer grids with various types of deflectors -
(2015)
Application of multihole pressure probe for research of coolant velocity profile in nuclear reactor fuel assemblies -
D. Garrido (2009)
Experimental Study and Modelling of Spacer Grid Influence on Flow in Nuclear Fuel Assemblies -
(2009)
Experimental studies of the efficiency of coolant mixing to substantiate the choice of the optimal TVSA design for implementation in VVER-type reactors, Izvestiya Vuzov
- Publisher
- Springer Journals
- Copyright
- Copyright © S.M. Dmitriev, A.A. Dobrov, D.V. Doronkov, D.S. Doronkova, A.N. Pronin, E.V. Rubtsova, A.V. Ryazanov, D.N. Solntsev, and A.E. Khrobostov 2020
- ISSN
- 0869-8643
- eISSN
- 1531-8699
- DOI
- 10.1134/S086986432005008X
- Publisher site
- See Article on Publisher Site
Abstract
The article presents the results of studies of the coolant flow in fuel assemblies behind the intensifier grids of FA-Square reactors of the PWR type. The aim of this work is to evaluate the effectiveness of using various designs of the intensifier grid for the flow mixing. To achieve this goal, a number of experimental studies are carried out on an aerodynamic stand with scale models of fragments of fuel assemblies with intensifier grids of various designs. Adjacent cells of the guide channel, the design feature of which is the different spatial orientation of turbulators installed on the intensifier grids, are selected as a representative area of research. The general flow pattern is represented by vector fields of tangential velocities, as well as by graphical dependences of the distribution of transverse velocities in the gaps between the rods of the research area. To evaluate the efficiency of using various intensifier grids’ designs for the coolant flow mixing, the parameters of intracellular vortex formation and intercellular mixing are analyzed. Analysis of the spatial distribution of tangential flow velocities allows studying and detailing the coolant flow pattern behind the mixing grids with various designs of deflectors. The accumulated database on the coolant flow in the FAKVADRAT is the basis for engineering justification of the PWR reactor core designs. The results of experimental studies are used to verify CFD codes of both foreign and domestic development, as well as the programs for detailed cell-based calculation of active zones in order to reduce conservatism in justifying thermal reliability.
Journal
Thermophysics and Aeromechanics – Springer Journals
Published: Feb 20, 2021