Post test calculation using experimental data from the ROCOM test facility

The following tables contain an overview on the post test calculations of ROCOM experiments using CFD or system codes. In the tables the identifier for the experiment, the project, in that frame the experiment was conducted, and a short description of the experimental boundary conditions are shown. There can be found also the code used for the calculations together with the name of the organisation which performed the corresponding calculation.

Detailed information on the experiments and the calculations can be found in the references shown in the last column of the tables. The references not being a part of the HZDR publication data base are listed below the tables.

Stationary mixing experiments

Experiment (Identifier)

Source

Boundary conditions

Code

Organization

Reference

Lnnnn

BMWA-1501216

Four-loop operation at nominal flow (equal loop flow rates)

CFX-4

 

TRIO_U

FLUENT

HZDR

Hertlein, 2003(1)

Höhne, 2003(2)

Moretti, 2004

Knnnn

BMWA-1501216

Four-loop operation at 100 m3/h (equal loop flow rates); short injection

CFX-4

HZDR

Höhne, 2003(3)

Lnrnn

BMWA-1501216

Three-loop operation at nominal flow

CFX-4

HZDR

Höhne, 2003(4)

Lnrnr

BMWA-1501216

Two-loop operation at nominal flow

CFX-4

HZDR

Höhne, 2003(5)

Lnrrr

BMWA-1501216

One-loop operation at nominal flow

CFX-4

HZDR

Höhne, 2003(6)

ROCOMstat_01

FLOMIX-R

Four-loop operation at nominal flow (equal loop flow rates)

CFX-4

CFX-5

CFX-5

FLUENT

FLUENT

ATHLET

RELAP5-3D

HZDR

HZDR

GRS

VUJE Trnava

AEKI Budapest

KI Moscow

UniPisa

Hemström, 2005

Rohde, 2005(7)

Höhne, 2005(8)

Rohde, 2007(9)

Toppila, 2005(10)

Höhne, 2007(11)

Frisani, 2007(12)

ROCOMstat_02

FLOMIX-R

Four-loop operation at 25 % of nominal flow (equal loop flow rates)

CFX-10

 

RELAP5-3D

UniPisa

 

UniPisa

Moretti, 2007(13)

Moretti, 2008(14)

Frisani, 2007(15)

ROCOMstat_04

FLOMIX-R

Three-loop operation (equal loop flow rates)

FLUENT

 

 

 

ATHLET

VUJE Trnava

 

 

 

KI Moscow

Hemström, 2005

Rohde, 2005(16)

Rohde, 2007(17)

Toppila, 2005(18)

Höhne, 2007(19)

ROCOMstat_08

FLOMIX-R

Four-loop operation (different loop flow rates)

CFX-4

FLUENT

HZDR

AEKI Budapest

Hemström, 2005

Rohde, 2005(20)

Rohde, 2007(21)

ROCOMstat_09

FLOMIX-R

Four-loop operation (different loop flow rates)

FLUENT

AEKI Budapest

Hemström, 2005

Rohde, 2005(22)

Rohde, 2007(23)

Toppila, 2005(24)

Transient mixing experiments

Experiment

(Identifier)

Source

Boundary conditions

Code

Organization

Reference

Tnrrr_a09

BMWA-1501216

Start-up of the pump in loop 1 to nominal flow rate within 14 s

CFX-4

HZDR

 

Grunwald, 2003(25)

Prasser, 2003(26)

Höhne, 2003(27)

Tnrrr_a12

BMWA-1501216

Start-up of the pump in loop 1 to nominal flow rate within 14 s

CFX-4

HZDR

 

Grunwald, 2003(28)

Höhne, 2003(29)

Tyrrr_b02

BMWA-1501216

Start-up of circulation in loop 1 to flow rate level of 10 % within 15 s

CFX-4

HZDR

 

Grunwald, 2003(30)

Tyrrr_c02

BMWA-1501216

Start-up of circulation in loop 1 to flow rate level of 10 % within 30 s

CFX-4

HZDR

 

Grunwald, 2003(31)

ROCOM_01

FLOMIX-R

Start-up of the pump in loop 1 to nominal flow rate within 14 s (slug = 40 m3)

CFX-4

 

HZDR

 

Hemström, 2005

Rohde, 2005(32)

Rohde, 2007(33)

ROCOM_02

FLOMIX-R

Start-up of the pump in loop 1 to nominal flow rate within 14 s (slug = 20 m3)

CFX-4

CFX-5

 

FLUENT

CFX-5

 

ATHLET

HZDR

HZDR

 

FORTUM

NRG

 

KI Moscow

Hemström, 2005

Rohde, 2005(34)

Kliem, 2019(35)

Höhne, 2005(36)

Höhne, 2005b(37)

Rohde, 2007(38)

Höhne, 2007(39)

ROCOM_03

FLOMIX-R

Start-up of the pump in loop 1 to nominal flow rate within 14 s (slug = 4 m3)

CFX-4

CFX-5

HZDR

NRG

Hemström, 2005

Lycklama, 2005(40)

 

ROCOM_08

FLOMIX-R

Start-up of the pump in loop 1 to 50 % flow rate within 28 s

CFX-4

CFX-5

HZDR

NRG

Hemström, 2005

 

ROCOM_09

FLOMIX-R

Start-up of the pump in loop 1 to 25 % flow rate within 56 s

RELAP5-3D

UniPisa

Frisani, 2007(41)

Density driven mixing experiments

Experiment

Source

Boundary conditions

Code

Organization

Reference

T6655_01

SAAT-29/01 (VGB)

Start-up of circulation in two loops to flow rate level of 5 % within 25 s (slugs in loop 1 and 2), no density difference

CFX-5

 

 

ATHLET

HZDR

 

 

GRS

Höhne, 2006a(42)

Höhne, 2006b(43)

Höhne, 2008(44)

Horche, 2009

T6655_11

SAAT-29/01 (VGB)

Start-up of circulation in two loops to flow rate level of 5 % within 25 s (slugs in loop 1 and 2), density difference: 2.0 %

ATHLET

GRS

Horche, 2009

T6655_21

SAAT-29/01 (VGB)

Start-up of circulation in two loops to flow rate level of 5 % within 25 s (slugs in loop 1 and 2), density difference: 2.0 %

CFX-5

 

 

 

 

FLUENT

 

 

 

ATHLET

HZDR

 

 

 

 

TÜV Nord

 

 

 

GRS

Höhne, 2006a(45)

Höhne, 2006c(46)

Höhne, 2006d(47)

Höhne, 2008(48)

Vaibar, 2008a(49)

Schaffrath, 2005

Schaffrath, 2005a

Schaffrath, 2005b

Schaffrath, 2007

Horche, 2009

T6655_y1

SAAT-29/01 (VGB)

Start-up of circulation in two loops to flow rate level of 5 % within 25 s (slugs in loop 1 and 2) ; density difference: 0.25 %

CFX-5

CFX-11

ATHLET

GRS

GRS

GRS

Burwell, 2005(50)

Herb, 2008

Horche, 2009

T6655_x1

SAAT-29/01 (VGB)

Start-up of circulation in two loops to flow rate level of 5 % within 25 s (slugs in loop 1 and 2) ; density difference: 0.5 %

ATHLET

GRS

Horche, 2009

T7777_00

HZDR

Start-up of circulation in all loops to flow rate level of 7 % within 30 s (slugs in loop 1 and 2); no density difference

CFX-10

HZDR

Kliem, 2008(51)

Durrr_kr5v2 (D10M05)

FLOMIX-R

ECC injection; density difference: 10 %, Flow rate: 5 %

CFX-4

CFX-5

CFX-5

TRIO_U

 

 

 

 

 

 

 

 

CFX-10

HZDR

HZDR

GRS

CEA

 

 

 

 

 

 

 

 

HZDR

Höhne, 2003a(52)

Höhne, 2004(53)

Höhne, 2004a(54)

Höhne, 2004b(55)

Bieder, 2005(56)

Höhne, 2005a(57)

Höhne, 2006(58)

Höhne, 2006d(59)

Höhne, 2007a(60)

Hemström, 2005

Rohde, 2005(61)

Rohde, 2007(62)

Höhne, 2007b(63)

Drrrr_lr4v1 (D04M00)

FLOMIX-R

ECC injection; density difference: 5 %, Flow rate: 0 %

CFX-5

NRG

Hemström, 2005

Lycklama, 2006(64)

Drrrr_lr5v1 (D05M00)

FLOMIX-R

ECC injection; density difference: 10 %, Flow rate: 0 %

CFX-4

HZDR

Höhne, 2003a(65)

Dxrrr_kr0v2 (D00M15)

BMWA-1501287

ECC injection; density difference: 0 %, Flow rate: 15 %

CFX-4

CFX-10

HZDR

 

Höhne, 2003a(66)

Vaibar, 2008

Vaibar, 2008a(67)

Höhne, 2008a(68)

Höhne, 2009(69)

Durrr_kr1v2 (D02M05)

BMWA-1501287

ECC injection; density difference: 2 %, Flow rate = 5 %

CFX-10

HZDR

 

Vaibar, 2008

Vaibar, 2008a(70)

Höhne, 2008a(71)

Höhne, 2009(72)

Durrr_kr4v2 (D05M05)

BMWA-1501287

ECC injection; density difference: 5 %, Flow rate: 5 %

CFX-10

HZDR

 

Vaibar, 2008

Vaibar, 2008a(73)

Höhne, 2008a(74)

Höhne, 2009(75)

Dyrrr_kr5v2

(D10M10)

BMWA-1501287

ECC injection; density difference: 10 %, Flow rate: 10 %

CFX-4

HZDR

Höhne, 2003a(76)

Höhne, 2008a(77)

Höhne, 200(78)9

Dyrrr_kr4v2 (D05M10)

BMWA-1501287

ECC injection; density difference: 5 %, Flow rate: 10 %

CFX-10

HZDR

 

Vaibar, 2008

Vaibar, 2008a(79)

Höhne, 2008a(80)

Höhne, 2009(81)

Dxrrr_kr5v2 (D10M15)

BMWA-1501287

ECC injection; density difference: 10 %, Flow rate: 15 %

CFX-10

HZDR

 

Vaibar, 2008

Vaibar, 2008a(82)

Höhne, 2008a(83)

Höhne, 2009(84)

ROCOM PKLIII-T2.3

OECD-PKL3

Asymmetric ECC injection during stagnant conditions

CATHARE-2

ATHLET 3.1A

TRACE

STAR-CCM+

CFX-16

BELV

GRS

PSI

HZDR

Bousbia, 2018(85)

ROCOM E2.3

HZDR

Two slugs with reduced density and reduced boron cocentration driven by natural circulation

ATHLET 3.1A

CFX-19.5

HZDR

Diaz Pescador, 2020(86)

Grahn, 2021(87)

 

Velocity measurements using laser Doppler anemometry

Experiment

(Identifier)

Source

Boundary conditions

Code

Organization

Reference

Lnnnn

BMWA-1501216

Stationary four-loop operation at 50 m3/h (equal loop flow rates)

CFX-4

HZDR

Höhne, 2001(88)

Höhne, 2003(89)

Lnnnn

BMWA-1501216

Stationary four-loop operation at 150 m3/h (equal loop flow rates)

CFX-4

HZDR

Höhne, 2001(90)

Höhne, 2003(91)

Lnnnn

BMWA-1501216

Stationary four-loop operation at 185 m3/h (equal loop flow rates)

CFX-4

 

TRIO_U

FLUENT

HZDR

Höhne, 2001(92)

Höhne, 2003(93)

Moretti, 2004

Lnnnn

BMWA-1501216

Stationary four-loop operation at 250 m3/h (equal loop flow rates)

CFX-4

HZDR

Höhne, 2001(94)

Höhne, 2003(95)

Lnnnr

BMWA-1501216

Stationary three-loop operation at nominal flow

CFX-4

HZDR

Höhne, 2001(96)

Höhne, 2003(97)

Lnrnr

BMWA-1501216

Stationary two-loop operation at nominal flow

CFX-4

HZDR

Höhne, 2001(98)

Höhne, 2003(99)

Lnrrr

BMWA-1501216

Stationary one-loop operation at nominal flow

CFX-4

HZDR

Höhne, 2001(100)

Höhne, 2003(101)

ROCOMstat_01

FLOMIX-R

Stationary four-loop operation at nominal flow (equal loop flow rates)

CFX-4

CFX-5

FLUENT

FLUENT

HZDR

HZDR

VUJE Trnava

AEKI Budapest

Toppila, 2005(102)

Rohde, 2005(103)

Hemström, 2005

 

ROCOMstat_04

FLOMIX-R

Stationary three-loop operation (equal flow rate)

FLUENT

VUJE Trnava

Toppila, 2005(104)

Rohde, 2005(105)

ROCOMstat_09

FLOMIX-R

Stationary four-loop operation (different loop flow rates)

FLUENT

AEKI Budapest

Toppila, 2005(106)

Tnrrr_01

 

BMWA-1501216

Start-up of the pump in loop 1 to nominal flow rate with 15 s

CFX-4

CFX-10

HZDR

Höhne, 2001(107)

Höhne, 2003(108)

Grunwald, 2003(109)

Cartland, 2007(110)

Tnrrr_02

 

BMWA-1501216

Start-up of the pump in loop 1 to nominal flow rate with 1 s

CFX-4

CFX-10

HZDR

Höhne, 2001(111)

Höhne, 2003(112)

Grunwald, 2003(113)

Cartland, 2007(114)

  • Hemström, B. et al. (2005), Validation of CFD codes based on mixing experiments, FLOMIX-R project (Final report on WP 4), 567 p, Vattenfall Utveckling
  • Moretti, F. (2004), Numerical investigation of the coolant mixing in the ROCOM test facility by the TRIO_U and FLUENT CFD codes, Diploma thesis, Universita’ di Pisa, Facolta’ di Ingegneria, 171p.
  • Schaffrath A.; Fischer, K.-C.; Hahm, T., Wussow, S. (2005), Validation of the CFD Code Fluent by Post Test Calculation of the ROCOM Experiment T6655 21, The 11th International Topical Meeting on Nuclear Reactor Thermal-Hydraulics (NURETH-11), Popes’ Palace Conference Center, Avignon, France, paper 141
  • Schaffrath A.; Fischer, K.-C.; Hahm, T., Wussow, S. (2005a), Validation of the CFD code FLUENT by post test calculation of a ROCOM experiment with density driven coolant mixing, Kerntechnik, vol. 70, pp. 189-198
  • Schaffrath A.; Fischer, K.-C.; Hahm, T., Wussow, S. (2005b), Verification of the CFD code FLUENT by post test calculation of the ROCOM experiment T6655_21, atw - International Journal for Nuclear Power, vol. 50, p. 323
  • Schaffrath A.; Fischer, K.-C.; Hahm, T., Wussow, S. (2007), Validation of the CFD code FLUENT by post-test calculation of a density-driven ROCOM experiment, Nucl. Eng. Design, vol. 237, pp. 1899-1908
  • Vaibar, R. (2008), Numerical and experimental approach of turbulent buoyancy driven flow in reactor safety research, PhD Thesis, University of West Bohemia, Pilsen, 204 p.
  • Herb, J. (2008), CFD Simulationen zum Mischen von Deionat and boriertem Kühlmittel im Primärkreis, GRS-A-4329, Garching, 66 S.
  • Horche, W. (2009), Modellierung des ROCOM-Versuchsstandes und Nachrechnung von Experimenten aus der Serie T6655 mit ATHLET, GRS-A-3453, Garching, 85 S.

Kontakt/Ansprechpartner

S. Kliem(115)


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