Skip to main content
Erschienen in:

01.08.2019 | Research Article

Turbulent flow and vortex characteristics in a blocked subchannel of a helically wrapped rod bundle

verfasst von: Thien Nguyen, Lance White, Rodolfo Vaghetto, Yassin Hassan

Erschienen in: Experiments in Fluids | Ausgabe 8/2019

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Abstract

The study of flow and heat transfer through a bundle of rods is important, as this type of configuration is widely used in many engineering applications, for example, in heat exchangers, clusters of support structures, steam generators, and nuclear power reactors. This work experimentally investigated the flow-field characteristics of rod bundles with helically wrapped wires (wire-wrapped rod assemblies) proposed for advanced burner reactors. Subchannel blockage is one of the most interesting accident scenarios for liquid metal fast reactors as different mechanisms can lead to a partial or total subchannel blockage. It is of paramount important to understand the thermal-hydraulic behavior of the flow in the vicinity of such blockages. The flow mixing characteristics in two interior subchannels located near the core of the bundle, one without and one with the presence of a blockage, were experimentally investigated. The velocity fields within the spatial gaps of two subchannels were obtained by applying the matched-index-of-refraction and time-resolved particle image velocimetry (TR-PIV) technique for Reynolds numbers of 4000 and 17,000. The first- and second-order statistics, including the mean velocity, root-mean-square fluctuating velocity, and Reynolds stress, were computed from the obtained TR-PIV velocity vector fields. In the blocked sub-channel, the TR-PIV results revealed a large recirculation flow region in the vicinity of the blockage that was created by the interaction between inflows from neighboring subchannels. Spectral analysis was performed and the vortex shedding frequency indicated by the Strouhal number was found to be \(St=0.16\) for the two Reynolds numbers investigated. The flow characteristics of the interior subchannels were investigated via the two-point cross-correlation of fluctuating velocities. In addition, proper orthogonal decomposition (POD) analysis was applied to the instantaneous vorticity fields to extract the statistically dominant flow structures. Finally, the statistical characteristics of the vortex, such as the vortex populations, spatial distributions, and vortex strengths, were acquired by combining POD analysis and the vortex identification algorithm.

Graphic abstract

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Literatur
Zurück zum Zitat Adrian R, Christensen K, Liu ZC (2000) Analysis and interpretation of instantaneous turbulent velocity fields. Exp Fluids 29(3):275–290 Adrian R, Christensen K, Liu ZC (2000) Analysis and interpretation of instantaneous turbulent velocity fields. Exp Fluids 29(3):275–290
Zurück zum Zitat Ahmad I, Kim KY (2006) Flow and convective heat transfer analysis using RANS for a wire-wrapped fuel assembly. J Mech Sci Technol 20(9):1514–1524 Ahmad I, Kim KY (2006) Flow and convective heat transfer analysis using RANS for a wire-wrapped fuel assembly. J Mech Sci Technol 20(9):1514–1524
Zurück zum Zitat Alwafi A, Nguyen T, Hassan Y, Anand N (2019) Time-resolved particle image velocimetry measurements of a single impinging jet in the upper plenum of a scaled facility of high temperature gas-cooled reactors. Int J Heat Fluid Flow 76:113–129 Alwafi A, Nguyen T, Hassan Y, Anand N (2019) Time-resolved particle image velocimetry measurements of a single impinging jet in the upper plenum of a scaled facility of high temperature gas-cooled reactors. Int J Heat Fluid Flow 76:113–129
Zurück zum Zitat Amini N, Hassan YA (2009) Measurements of jet flows impinging into a channel containing a rod bundle using dynamic PIV. Int J Heat Mass Transf 52(23–24):5479–5495 Amini N, Hassan YA (2009) Measurements of jet flows impinging into a channel containing a rod bundle using dynamic PIV. Int J Heat Mass Transf 52(23–24):5479–5495
Zurück zum Zitat Amini N, Hassan YA (2012) An investigation of matched index of refraction technique and its application in optical measurements of fluid flow. Exp Fluids 53(6):2011–2020 Amini N, Hassan YA (2012) An investigation of matched index of refraction technique and its application in optical measurements of fluid flow. Exp Fluids 53(6):2011–2020
Zurück zum Zitat Amiri S, Taher R, Mongeau L (2017) Quantitative visualization of temperature field and measurement of local heat transfer coefficient over heat exchanger elements in sinusoidal oscillating flow. Exp Therm Fluid Sci 85:22–36 Amiri S, Taher R, Mongeau L (2017) Quantitative visualization of temperature field and measurement of local heat transfer coefficient over heat exchanger elements in sinusoidal oscillating flow. Exp Therm Fluid Sci 85:22–36
Zurück zum Zitat Atkinson C, Buchmann NA, Soria J (2015) An experimental investigation of turbulent convection velocities in a turbulent boundary layer. Flow Turbul Combust 94(1):79–95 Atkinson C, Buchmann NA, Soria J (2015) An experimental investigation of turbulent convection velocities in a turbulent boundary layer. Flow Turbul Combust 94(1):79–95
Zurück zum Zitat Berkooz G, Holmes P, Lumley JL (1993) The proper orthogonal decomposition in the analysis of turbulent flows. Annu Rev Fluid Mech 25(1):539–575MathSciNet Berkooz G, Holmes P, Lumley JL (1993) The proper orthogonal decomposition in the analysis of turbulent flows. Annu Rev Fluid Mech 25(1):539–575MathSciNet
Zurück zum Zitat Bhattacharya A, Yu S, Kawall G (2012) Numerical simulation of turbulent flow through a 37-element candu fuel bundle. Ann Nucl Energy 40(1):87–105 Bhattacharya A, Yu S, Kawall G (2012) Numerical simulation of turbulent flow through a 37-element candu fuel bundle. Ann Nucl Energy 40(1):87–105
Zurück zum Zitat Boomsma A, Bhattacharya S, Troolin D, Pothos S, Vlachos P (2016) A comparative experimental evaluation of uncertainty estimation methods for two-component PIV. Meas Sci Technol 27(9):094006 Boomsma A, Bhattacharya S, Troolin D, Pothos S, Vlachos P (2016) A comparative experimental evaluation of uncertainty estimation methods for two-component PIV. Meas Sci Technol 27(9):094006
Zurück zum Zitat Brockmeyer L, Carasik LB, Merzari E, Hassan Y (2017) Numerical simulations for determination of minimum representative bundle size in wire wrapped tube bundles. Nucl Eng Des 322:577–590 Brockmeyer L, Carasik LB, Merzari E, Hassan Y (2017) Numerical simulations for determination of minimum representative bundle size in wire wrapped tube bundles. Nucl Eng Des 322:577–590
Zurück zum Zitat Carlier J, Stanislas M (2005) Experimental study of eddy structures in a turbulent boundary layer using particle image velocimetry. J Fluid Mech 535:143–188MathSciNetMATH Carlier J, Stanislas M (2005) Experimental study of eddy structures in a turbulent boundary layer using particle image velocimetry. J Fluid Mech 535:143–188MathSciNetMATH
Zurück zum Zitat Chai X, Liu X, Xiong J, Cheng X (2019) Cfd analysis of flow blockage phenomena in a lbe-cooled 19-pin wire-wrapped rod bundle. Nuc Eng Des 344:107–121 Chai X, Liu X, Xiong J, Cheng X (2019) Cfd analysis of flow blockage phenomena in a lbe-cooled 19-pin wire-wrapped rod bundle. Nuc Eng Des 344:107–121
Zurück zum Zitat Charonko JJ, Vlachos PP (2013) Estimation of uncertainty bounds for individual particle image velocimetry measurements from cross-correlation peak ratio. Meas Sci Technol 24(6):065301 Charonko JJ, Vlachos PP (2013) Estimation of uncertainty bounds for individual particle image velocimetry measurements from cross-correlation peak ratio. Meas Sci Technol 24(6):065301
Zurück zum Zitat Chen Q, Zhong Q, Qi M, Wang X (2015) Comparison of vortex identification criteria for planar velocity fields in wall turbulence. Phys Fluids 27(8):085101 Chen Q, Zhong Q, Qi M, Wang X (2015) Comparison of vortex identification criteria for planar velocity fields in wall turbulence. Phys Fluids 27(8):085101
Zurück zum Zitat Chen S, Todreas N, Nguyen N (2014) Evaluation of existing correlations for the prediction of pressure drop in wire-wrapped hexagonal array pin bundles. Nucl Eng Des 267:109–131 Chen S, Todreas N, Nguyen N (2014) Evaluation of existing correlations for the prediction of pressure drop in wire-wrapped hexagonal array pin bundles. Nucl Eng Des 267:109–131
Zurück zum Zitat Chen S, Chen Y, Todreas N (2018) The upgraded cheng and todreas correlation for pressure drop in hexagonal wire-wrapped rod bundles. Nucl Eng Des 335:356–373 Chen S, Chen Y, Todreas N (2018) The upgraded cheng and todreas correlation for pressure drop in hexagonal wire-wrapped rod bundles. Nucl Eng Des 335:356–373
Zurück zum Zitat Cheng SK, Todreas NE (1986) Hydrodynamic models and correlations for bare and wire-wrapped hexagonal rod bundles-bundle friction factors, subchannel friction factors and mixing parameters. Nucl Eng Des 92(2):227–251 Cheng SK, Todreas NE (1986) Hydrodynamic models and correlations for bare and wire-wrapped hexagonal rod bundles-bundle friction factors, subchannel friction factors and mixing parameters. Nucl Eng Des 92(2):227–251
Zurück zum Zitat Chong MS, Perry AE, Cantwell BJ (1990) A general classification of three-dimensional flow fields. Phys Fluids A Fluid Dyn 2(5):765–777MathSciNet Chong MS, Perry AE, Cantwell BJ (1990) A general classification of three-dimensional flow fields. Phys Fluids A Fluid Dyn 2(5):765–777MathSciNet
Zurück zum Zitat Dennis DJ, Nickels TB (2008) On the limitations of Taylor’s hypothesis in constructing long structures in a turbulent boundary layer. J Fluid Mech 614:197–206MathSciNetMATH Dennis DJ, Nickels TB (2008) On the limitations of Taylor’s hypothesis in constructing long structures in a turbulent boundary layer. J Fluid Mech 614:197–206MathSciNetMATH
Zurück zum Zitat Di Piazza I, Magugliani F, Tarantino M, Alemberti A (2014) A CFD analysis of flow blockage phenomena in alfred LFR demo fuel assembly. Nucl Eng Des 276:202–215 Di Piazza I, Magugliani F, Tarantino M, Alemberti A (2014) A CFD analysis of flow blockage phenomena in alfred LFR demo fuel assembly. Nucl Eng Des 276:202–215
Zurück zum Zitat dos Santos AAC, Childs M, Nguyen TD, Hassan Y (2019) Convergence study and uncertainty quantification of average and statistical PIV measurements in a matched refractive index 5\(\times\) 5 rod bundle with mixing vane spacer grid. Exp Therm Fluid Sci 102:215–231 dos Santos AAC, Childs M, Nguyen TD, Hassan Y (2019) Convergence study and uncertainty quantification of average and statistical PIV measurements in a matched refractive index 5\(\times\) 5 rod bundle with mixing vane spacer grid. Exp Therm Fluid Sci 102:215–231
Zurück zum Zitat Dumas R (1990) Observations on the boundary layer based on measured correlations with various improvements. Near Wall Turbul 1:437–452 Dumas R (1990) Observations on the boundary layer based on measured correlations with various improvements. Near Wall Turbul 1:437–452
Zurück zum Zitat Eckstein A, Vlachos PP (2009a) Assessment of advanced windowing techniques for digital particle image velocimetry (DPIV). Meas Sci Technol 20(7):075402 Eckstein A, Vlachos PP (2009a) Assessment of advanced windowing techniques for digital particle image velocimetry (DPIV). Meas Sci Technol 20(7):075402
Zurück zum Zitat Eckstein A, Vlachos PP (2009b) Digital particle image velocimetry (DPIV) robust phase correlation. Meas Sci Technol 20(5):055401 Eckstein A, Vlachos PP (2009b) Digital particle image velocimetry (DPIV) robust phase correlation. Meas Sci Technol 20(5):055401
Zurück zum Zitat Eckstein AC, Charonko J, Vlachos P (2008) Phase correlation processing for DPIV measurements. Exp Fluids 45(3):485–500 Eckstein AC, Charonko J, Vlachos P (2008) Phase correlation processing for DPIV measurements. Exp Fluids 45(3):485–500
Zurück zum Zitat Fischer P, Lottes J, Siegel A, Palmiotti G (2007) Large eddy simulation of wire-wrapped fuel pins I: hydrodynamics of a single pin. In: Proceedings of M and C+ SNA Fischer P, Lottes J, Siegel A, Palmiotti G (2007) Large eddy simulation of wire-wrapped fuel pins I: hydrodynamics of a single pin. In: Proceedings of M and C+ SNA
Zurück zum Zitat Gajapathy R, Velusamy K, Selvaraj P, Chellapandi P (2015) CFD investigation of effect of helical wire-wrap parameters on the thermal hydraulic performance of 217 fuel pin bundle. Ann Nucl Energy 77:498–513 Gajapathy R, Velusamy K, Selvaraj P, Chellapandi P (2015) CFD investigation of effect of helical wire-wrap parameters on the thermal hydraulic performance of 217 fuel pin bundle. Ann Nucl Energy 77:498–513
Zurück zum Zitat Goth N, Jones P, Nguyen D, Vaghetto R, Hassan Y, Obabko A, Merzari E, Fischer P (2018a) Comparison of experimental and simulation results on interior subchannels of a 61-pin wire-wrapped hexagonal fuel bundle. Nucl Eng Des 338:130–136 Goth N, Jones P, Nguyen D, Vaghetto R, Hassan Y, Obabko A, Merzari E, Fischer P (2018a) Comparison of experimental and simulation results on interior subchannels of a 61-pin wire-wrapped hexagonal fuel bundle. Nucl Eng Des 338:130–136
Zurück zum Zitat Goth N, Jones P, Nguyen TD, Vaghetto R, Hassan Y, Salpeter N, Merzari E (2018b) Ptv/piv measurements of turbulent flows in interior subchannels of a 61-pin wire-wrapped hexagonal fuel bundle. Int J Heat Fluid Flow 71:295–304 Goth N, Jones P, Nguyen TD, Vaghetto R, Hassan Y, Salpeter N, Merzari E (2018b) Ptv/piv measurements of turbulent flows in interior subchannels of a 61-pin wire-wrapped hexagonal fuel bundle. Int J Heat Fluid Flow 71:295–304
Zurück zum Zitat Graftieaux L, Michard M, Grosjean N (2001) Combining PIV, POD and vortex identification algorithms for the study of unsteady turbulent swirling flows. Meas Sci Technol 12(9):1422 Graftieaux L, Michard M, Grosjean N (2001) Combining PIV, POD and vortex identification algorithms for the study of unsteady turbulent swirling flows. Meas Sci Technol 12(9):1422
Zurück zum Zitat Gurka R, Liberzon A, Hetsroni G (2006) Pod of vorticity fields: a method for spatial characterization of coherent structures. Int J Heat Fluid Flow 27(3):416–423 Gurka R, Liberzon A, Hetsroni G (2006) Pod of vorticity fields: a method for spatial characterization of coherent structures. Int J Heat Fluid Flow 27(3):416–423
Zurück zum Zitat Han J (1977) Blockages in LMFBR fuel assemblies: a review of experimental and theoretical studies. Tech. rep., Oak Ridge National Lab., TN (USA) Han J (1977) Blockages in LMFBR fuel assemblies: a review of experimental and theoretical studies. Tech. rep., Oak Ridge National Lab., TN (USA)
Zurück zum Zitat Hassan Y, Philip O (1997) A new artificial neural network tracking technique for particle image velocimetry. Exp Fluids 23(2):145–154 Hassan Y, Philip O (1997) A new artificial neural network tracking technique for particle image velocimetry. Exp Fluids 23(2):145–154
Zurück zum Zitat Hassan YA, Blanchat T (1991) Flow velocity measurements using digital pulsed laser velocimetry. Opt Eng 30(8):1220–1228 Hassan YA, Blanchat T (1991) Flow velocity measurements using digital pulsed laser velocimetry. Opt Eng 30(8):1220–1228
Zurück zum Zitat Hassan YA, Dominguez-Ontiveros E (2008) Flow visualization in a pebble bed reactor experiment using PIV and refractive index matching techniques. Nuc Eng Des 238(11):3080–3085 Hassan YA, Dominguez-Ontiveros E (2008) Flow visualization in a pebble bed reactor experiment using PIV and refractive index matching techniques. Nuc Eng Des 238(11):3080–3085
Zurück zum Zitat Holmes P, Lumley JL, Berkooz G (1998) Turbulence, coherent structures, dynamical systems and symmetry. Cambridge University Press, CambridgeMATH Holmes P, Lumley JL, Berkooz G (1998) Turbulence, coherent structures, dynamical systems and symmetry. Cambridge University Press, CambridgeMATH
Zurück zum Zitat Huang AY, Huang MY, Capart H, Chen RH (2008) Optical measurements of pore geometry and fluid velocity in a bed of irregularly packed spheres. Exp Fluids 45(2):309–321 Huang AY, Huang MY, Capart H, Chen RH (2008) Optical measurements of pore geometry and fluid velocity in a bed of irregularly packed spheres. Exp Fluids 45(2):309–321
Zurück zum Zitat Hudy LM, Naguib A, Humphreys WM (2007) Stochastic estimation of a separated-flow field using wall-pressure-array measurements. Phys Fluids 19(2):024103MATH Hudy LM, Naguib A, Humphreys WM (2007) Stochastic estimation of a separated-flow field using wall-pressure-array measurements. Phys Fluids 19(2):024103MATH
Zurück zum Zitat Hunt JC, Wray AA, Moin P (1988) Eddies, streams, and convergence zones in turbulent flows. In: Proceedings of the 1988 Summer Program of the Center for Turbulence Research (NASA Ames/Stanford University, 1988) Hunt JC, Wray AA, Moin P (1988) Eddies, streams, and convergence zones in turbulent flows. In: Proceedings of the 1988 Summer Program of the Center for Turbulence Research (NASA Ames/Stanford University, 1988)
Zurück zum Zitat Hussain AF (1986) Coherent structures and turbulence. J Fluid Mech 173:303–356 Hussain AF (1986) Coherent structures and turbulence. J Fluid Mech 173:303–356
Zurück zum Zitat Iwaki C, Cheong K, Monji H, Matsui G (2004) Piv measurement of the vertical cross-flow structure over tube bundles. Exp Fluids 37(3):350–363 Iwaki C, Cheong K, Monji H, Matsui G (2004) Piv measurement of the vertical cross-flow structure over tube bundles. Exp Fluids 37(3):350–363
Zurück zum Zitat Iwaki C, Cheong K, Monji H, Matsui G (2005) Vertical, bubbly, cross-flow characteristics over tube bundles. Exp Fluids 39(6):1024 Iwaki C, Cheong K, Monji H, Matsui G (2005) Vertical, bubbly, cross-flow characteristics over tube bundles. Exp Fluids 39(6):1024
Zurück zum Zitat Jeong HY, Ha KS, Chang WP, Kwon YM, Lee YB (2005) Modeling of flow blockage in a liquid metal-cooled reactor subassembly with a subchannel analysis code. Nucl Technol 149(1):71–87 Jeong HY, Ha KS, Chang WP, Kwon YM, Lee YB (2005) Modeling of flow blockage in a liquid metal-cooled reactor subassembly with a subchannel analysis code. Nucl Technol 149(1):71–87
Zurück zum Zitat Jones B, Planchon H, Hammersley R (1973) Turbulent correlation measurements in a two-stream mixing layer. AIAA J 11(8):1146–1150 Jones B, Planchon H, Hammersley R (1973) Turbulent correlation measurements in a two-stream mixing layer. AIAA J 11(8):1146–1150
Zurück zum Zitat Kerhervé F, Fitzpatrick J (2011) Measurement and analysis of the turbulent length scales in jet flows. Exp Fluids 50(3):637–651 Kerhervé F, Fitzpatrick J (2011) Measurement and analysis of the turbulent length scales in jet flows. Exp Fluids 50(3):637–651
Zurück zum Zitat Kolář V (2007) Vortex identification: new requirements and limitations. Int J Heat Fluid Flow 28(4):638–652 Kolář V (2007) Vortex identification: new requirements and limitations. Int J Heat Fluid Flow 28(4):638–652
Zurück zum Zitat Kostas J, Soria J, Chong M (2005) A comparison between snapshot pod analysis of PIV velocity and vorticity data. Exp Fluids 38(2):146–160 Kostas J, Soria J, Chong M (2005) A comparison between snapshot pod analysis of PIV velocity and vorticity data. Exp Fluids 38(2):146–160
Zurück zum Zitat Liberzon A, Gurka R, Tiselj I, Hetsroni G (2005) Spatial characterization of the numerically simulated vorticity fields of a flow in a flume. Theor Comput Fluid Dyn 19(2):115–125MATH Liberzon A, Gurka R, Tiselj I, Hetsroni G (2005) Spatial characterization of the numerically simulated vorticity fields of a flow in a flume. Theor Comput Fluid Dyn 19(2):115–125MATH
Zurück zum Zitat Linton D, Thornber B (2016) Direct numerical simulation of transitional flow in a staggered tube bundle. Phys Fluids 28(2):024111 Linton D, Thornber B (2016) Direct numerical simulation of transitional flow in a staggered tube bundle. Phys Fluids 28(2):024111
Zurück zum Zitat Lumley JL (1967) The structure of inhomogeneous turbulent flows. Atmos Turbul Radio Wave Propag:166–178 Lumley JL (1967) The structure of inhomogeneous turbulent flows. Atmos Turbul Radio Wave Propag:166–178
Zurück zum Zitat Maciel Y, Robitaille M, Rahgozar S (2012) A method for characterizing cross-sections of vortices in turbulent flows. Int J Heat Fluid Flow 37:177–188 Maciel Y, Robitaille M, Rahgozar S (2012) A method for characterizing cross-sections of vortices in turbulent flows. Int J Heat Fluid Flow 37:177–188
Zurück zum Zitat Merzari E, Fischer P, Yuan H, Van Tichelen K, Keijers S, De Ridder J, Degroote J, Vierendeels J, Doolaard H, Gopala V et al (2016) Benchmark exercise for fluid flow simulations in a liquid metal fast reactor fuel assembly. Nucl Eng Design 298:218–228 Merzari E, Fischer P, Yuan H, Van Tichelen K, Keijers S, De Ridder J, Degroote J, Vierendeels J, Doolaard H, Gopala V et al (2016) Benchmark exercise for fluid flow simulations in a liquid metal fast reactor fuel assembly. Nucl Eng Design 298:218–228
Zurück zum Zitat Neal DR, Sciacchitano A, Smith BL, Scarano F (2015) Collaborative framework for PIV uncertainty quantification: the experimental database. Meas Sci Technol 26(7):074003 Neal DR, Sciacchitano A, Smith BL, Scarano F (2015) Collaborative framework for PIV uncertainty quantification: the experimental database. Meas Sci Technol 26(7):074003
Zurück zum Zitat Nguyen DT, Maher B, Hassan Y (2019a) Effects of nozzle pressure ratio and nozzle-to-plate distance to flowfield characteristics of an under-expanded jet impinging on a flat surface. Aerospace 6(1):4 Nguyen DT, Maher B, Hassan Y (2019a) Effects of nozzle pressure ratio and nozzle-to-plate distance to flowfield characteristics of an under-expanded jet impinging on a flat surface. Aerospace 6(1):4
Zurück zum Zitat Nguyen T, Hassan Y (2017) Stereoscopic particle image velocimetry measurements of flow in a rod bundle with a spacer grid and mixing vanes at a low Reynolds number. Int J Heat Fluid Flow 67:202–219 Nguyen T, Hassan Y (2017) Stereoscopic particle image velocimetry measurements of flow in a rod bundle with a spacer grid and mixing vanes at a low Reynolds number. Int J Heat Fluid Flow 67:202–219
Zurück zum Zitat Nguyen T, Goth N, Jones P, Lee S, Vaghetto R, Hassan Y (2017) PIV measurements of turbulent flows in a 61-pin wire-wrapped hexagonal fuel bundle. Int J Heat Fluid Flow 65:47–59 Nguyen T, Goth N, Jones P, Lee S, Vaghetto R, Hassan Y (2017) PIV measurements of turbulent flows in a 61-pin wire-wrapped hexagonal fuel bundle. Int J Heat Fluid Flow 65:47–59
Zurück zum Zitat Nguyen T, Goth N, Jones P, Vaghetto R, Hassan Y (2018a) Stereoscopic PIV measurements of near-wall flow in a tightly packed rod bundle with wire spacers. Exp Therm Fluid Sci 92:420–435 Nguyen T, Goth N, Jones P, Vaghetto R, Hassan Y (2018a) Stereoscopic PIV measurements of near-wall flow in a tightly packed rod bundle with wire spacers. Exp Therm Fluid Sci 92:420–435
Zurück zum Zitat Nguyen T, Kappes E, King S, Hassan Y, Ugaz V (2018b) Time-resolved piv measurements in a low-aspect ratio facility of randomly packed spheres and flow analysis using modal decomposition. Exp Fluids 59(8):127 Nguyen T, Kappes E, King S, Hassan Y, Ugaz V (2018b) Time-resolved piv measurements in a low-aspect ratio facility of randomly packed spheres and flow analysis using modal decomposition. Exp Fluids 59(8):127
Zurück zum Zitat Nguyen T, Muyshondt R, Hassan Y, Anand N (2019b) Experimental investigation of cross flow mixing in a randomly packed bed and streamwise vortex characteristics using particle image velocimetry and proper orthogonal decomposition analysis. Phys Fluids 31(2):025101 Nguyen T, Muyshondt R, Hassan Y, Anand N (2019b) Experimental investigation of cross flow mixing in a randomly packed bed and streamwise vortex characteristics using particle image velocimetry and proper orthogonal decomposition analysis. Phys Fluids 31(2):025101
Zurück zum Zitat Oruç V, Akilli H, Sahin B (2016) PIV measurements on the passive control of flow past a circular cylinder. Exp Therm Fluid Sci 70:283–291 Oruç V, Akilli H, Sahin B (2016) PIV measurements on the passive control of flow past a circular cylinder. Exp Therm Fluid Sci 70:283–291
Zurück zum Zitat Pacio J, Daubner M, Fellmoser F, Litfin K, Wetzel T (2018) Heat transfer experiment in a partially (internally) blocked 19-rod bundle with wire spacers cooled by LBE. Nucl Eng Des 330:225–240 Pacio J, Daubner M, Fellmoser F, Litfin K, Wetzel T (2018) Heat transfer experiment in a partially (internally) blocked 19-rod bundle with wire spacers cooled by LBE. Nucl Eng Des 330:225–240
Zurück zum Zitat Paul S, Ormiston S, Tachie M (2008) Experimental and numerical investigation of turbulent cross-flow in a staggered tube bundle. Int J Heat Fluid Flow 29(2):387–414 Paul S, Ormiston S, Tachie M (2008) Experimental and numerical investigation of turbulent cross-flow in a staggered tube bundle. Int J Heat Fluid Flow 29(2):387–414
Zurück zum Zitat Perry A, Chong M (1993) Topology of flow patterns in vortex motions and turbulence. Eddy structure identification in free turbulent shear flows. Springer, Berlin, pp 339–361 Perry A, Chong M (1993) Topology of flow patterns in vortex motions and turbulence. Eddy structure identification in free turbulent shear flows. Springer, Berlin, pp 339–361
Zurück zum Zitat Philip O, Schmidl W, Hassan Y (1994) Development of a high speed particle image velocimetry technique using fluorescent tracers to study steam bubble collapse. Nucl Eng Des 149(1–3):375–385 Philip O, Schmidl W, Hassan Y (1994) Development of a high speed particle image velocimetry technique using fluorescent tracers to study steam bubble collapse. Nucl Eng Des 149(1–3):375–385
Zurück zum Zitat Piro M, Wassermann F, Grundmann S, Leitch B, Tropea C (2016) Progress in on-going experimental and computational fluid dynamic investigations within a CANDU fuel channel. Nucl Eng Des 299:184–200 Piro M, Wassermann F, Grundmann S, Leitch B, Tropea C (2016) Progress in on-going experimental and computational fluid dynamic investigations within a CANDU fuel channel. Nucl Eng Des 299:184–200
Zurück zum Zitat Piro M, Wassermann F, Grundmann S, Tensuda B, Kim SJ, Christon M, Berndt M, Nishimura M, Tropea C (2017) Fluid flow investigations within a 37 element CANDU fuel bundle supported by magnetic resonance velocimetry and computational fluid dynamics. Int J Heat Fluid Flow 66:27–42 Piro M, Wassermann F, Grundmann S, Tensuda B, Kim SJ, Christon M, Berndt M, Nishimura M, Tropea C (2017) Fluid flow investigations within a 37 element CANDU fuel bundle supported by magnetic resonance velocimetry and computational fluid dynamics. Int J Heat Fluid Flow 66:27–42
Zurück zum Zitat Raffel M, Willert CE, Wereley S, Kompenhans J (2013) Particle image velocimetry: a practical guide. Springer, Berlin Raffel M, Willert CE, Wereley S, Kompenhans J (2013) Particle image velocimetry: a practical guide. Springer, Berlin
Zurück zum Zitat Ranjan R, Pantano C, Fischer P (2010) Direct simulation of turbulent swept flow over a wire in a channel. J Fluid Mech 651:165–209MATH Ranjan R, Pantano C, Fischer P (2010) Direct simulation of turbulent swept flow over a wire in a channel. J Fluid Mech 651:165–209MATH
Zurück zum Zitat Ranjan R, Pantano C, Fischer P (2011) Direct simulation of turbulent heat transfer in swept flow over a wire in a channel. Int J Heat Mass Transf 54(21):4636–4654MATH Ranjan R, Pantano C, Fischer P (2011) Direct simulation of turbulent heat transfer in swept flow over a wire in a channel. Int J Heat Mass Transf 54(21):4636–4654MATH
Zurück zum Zitat Romano GP (1995) Analysis of two-point velocity measurements in near-wall flows. Exp Fluids 20(2):68–83 Romano GP (1995) Analysis of two-point velocity measurements in near-wall flows. Exp Fluids 20(2):68–83
Zurück zum Zitat Ruiz T, Sicot C, Brizzi L, Borée J, Gervais Y (2010) Pressure/velocity coupling induced by a near wall wake. Exp Fluids 49(1):147–165 Ruiz T, Sicot C, Brizzi L, Borée J, Gervais Y (2010) Pressure/velocity coupling induced by a near wall wake. Exp Fluids 49(1):147–165
Zurück zum Zitat Sciacchitano A, Wieneke B (2016) PIV uncertainty propagation. Meas Sci Technol 27(8):084006 Sciacchitano A, Wieneke B (2016) PIV uncertainty propagation. Meas Sci Technol 27(8):084006
Zurück zum Zitat Sciacchitano A, Neal DR, Smith BL, Warner SO, Vlachos PP, Wieneke B, Scarano F (2015) Collaborative framework for PIV uncertainty quantification: comparative assessment of methods. Meas Sci Technol 26(7):074004 Sciacchitano A, Neal DR, Smith BL, Warner SO, Vlachos PP, Wieneke B, Scarano F (2015) Collaborative framework for PIV uncertainty quantification: comparative assessment of methods. Meas Sci Technol 26(7):074004
Zurück zum Zitat Shaaban M, Mohany A (2019) Phase-resolved PIV measurements of flow over three unevenly spaced cylinders and its coupling with acoustic resonance. Exp Fluids 60(4):71 Shaaban M, Mohany A (2019) Phase-resolved PIV measurements of flow over three unevenly spaced cylinders and its coupling with acoustic resonance. Exp Fluids 60(4):71
Zurück zum Zitat She ZS, Jackson E, Orszag SA (1990) Intermittent vortex structures in homogeneous isotropic turbulence. Nature 344(6263):226 She ZS, Jackson E, Orszag SA (1990) Intermittent vortex structures in homogeneous isotropic turbulence. Nature 344(6263):226
Zurück zum Zitat Sirovich L, Kirby M (1987) Low-dimensional procedure for the characterization of human faces. J Opt Soc Am 4(3):519–524 Sirovich L, Kirby M (1987) Low-dimensional procedure for the characterization of human faces. J Opt Soc Am 4(3):519–524
Zurück zum Zitat Spalart PR (1988) Contributions of numerical simulation data bases to the physics, modeling, and measurement of turbulence. Adv Turbul:11 Spalart PR (1988) Contributions of numerical simulation data bases to the physics, modeling, and measurement of turbulence. Adv Turbul:11
Zurück zum Zitat Swain A, Das MK (2017) Flow boiling of distilled water over plain tube bundle with uniform and varying heat flux along the height of the tube bundle. Exp Therm Fluid Sci 82:222–230 Swain A, Das MK (2017) Flow boiling of distilled water over plain tube bundle with uniform and varying heat flux along the height of the tube bundle. Exp Therm Fluid Sci 82:222–230
Zurück zum Zitat Timmins BH, Wilson BW, Smith BL, Vlachos PP (2012) A method for automatic estimation of instantaneous local uncertainty in particle image velocimetry measurements. Exp Fluids 53(4):1133–1147 Timmins BH, Wilson BW, Smith BL, Vlachos PP (2012) A method for automatic estimation of instantaneous local uncertainty in particle image velocimetry measurements. Exp Fluids 53(4):1133–1147
Zurück zum Zitat Vaghetto R, Jones P, Goth N, Childs M, Lee S, Nguyen DT, Hassan YA (2018) Pressure measurements in a wire-wrapped 61-pin hexagonal fuel bundle. J Fluids Eng 140(3):031104 Vaghetto R, Jones P, Goth N, Childs M, Lee S, Nguyen DT, Hassan YA (2018) Pressure measurements in a wire-wrapped 61-pin hexagonal fuel bundle. J Fluids Eng 140(3):031104
Zurück zum Zitat Waltar AE, Todd DR, Tsvetkov PV (2011) Fast spectrum reactors. Springer, Berlin Waltar AE, Todd DR, Tsvetkov PV (2011) Fast spectrum reactors. Springer, Berlin
Zurück zum Zitat Wassermann F (2015) Magnetic resonance imaging techniques for thermofluid applications. PhD thesis, Technische Universität Wassermann F (2015) Magnetic resonance imaging techniques for thermofluid applications. PhD thesis, Technische Universität
Zurück zum Zitat Welch PD (1967) The use of fast fourier transform for the estimation of power spectra: a method based on time averaging over short, modified periodograms. IEEE Trans Audio Electroacoust 15(2):70–73 Welch PD (1967) The use of fast fourier transform for the estimation of power spectra: a method based on time averaging over short, modified periodograms. IEEE Trans Audio Electroacoust 15(2):70–73
Zurück zum Zitat Westerweel J (1994) Efficient detection of spurious vectors in particle image velocimetry data. Exp Fluids 16(3–4):236–247 Westerweel J (1994) Efficient detection of spurious vectors in particle image velocimetry data. Exp Fluids 16(3–4):236–247
Zurück zum Zitat Wilson BM, Smith BL (2013) Uncertainty on PIV mean and fluctuating velocity due to bias and random errors. Meas Sci Technol 24(3):035302 Wilson BM, Smith BL (2013) Uncertainty on PIV mean and fluctuating velocity due to bias and random errors. Meas Sci Technol 24(3):035302
Zurück zum Zitat Zhang K, Hou Y, Tian W, Fan Y, Su G, Qiu S (2017) Experimental investigations on single-phase convection and steam-water two-phase flow boiling in a vertical rod bundle. Exp Therm Fluid Sci 80:147–154 Zhang K, Hou Y, Tian W, Fan Y, Su G, Qiu S (2017) Experimental investigations on single-phase convection and steam-water two-phase flow boiling in a vertical rod bundle. Exp Therm Fluid Sci 80:147–154
Zurück zum Zitat Zhou J, Adrian RJ, Balachandar S, Kendall T (1999) Mechanisms for generating coherent packets of hairpin vortices in channel flow. J Fluid Mech 387:353–396MathSciNetMATH Zhou J, Adrian RJ, Balachandar S, Kendall T (1999) Mechanisms for generating coherent packets of hairpin vortices in channel flow. J Fluid Mech 387:353–396MathSciNetMATH
Metadaten
Titel
Turbulent flow and vortex characteristics in a blocked subchannel of a helically wrapped rod bundle
verfasst von
Thien Nguyen
Lance White
Rodolfo Vaghetto
Yassin Hassan
Publikationsdatum
01.08.2019
Verlag
Springer Berlin Heidelberg
Erschienen in
Experiments in Fluids / Ausgabe 8/2019
Print ISSN: 0723-4864
Elektronische ISSN: 1432-1114
DOI
https://doi.org/10.1007/s00348-019-2778-2

Weitere Artikel der Ausgabe 8/2019

Experiments in Fluids 8/2019 Zur Ausgabe

    Marktübersichten

    Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.