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| Program name | Package id | Status | Status date |
|---|---|---|---|
| SINBAD VER.1 | NEA-1932/01 | Arrived | 11-FEB-2025 |
Machines used:
| Package ID | Orig. computer | Test computer |
|---|---|---|
| NEA-1932/01 | Many Computers |
The Shielding Integral Benchmark Archive and Database (SINBAD) contains compilations for experiments related to reactor, fusion, and accelerator shielding experiments. SINBAD Version 1 corresponds to the 2019 legacy status of the SINBAD database. The database directories have been renamed to meet the new naming scheme as proposed in the SINBAD Evaluation Guide adopted by the SINBAD Task Force in 2022.
Volume 1 of SINBAD Version 1 comprises the following data:
1.[AGH-UST, Poland] Juelich Li Metal Blanket Experiment
2.[ARCS, Austria] Simulation of the lineal energy distribution of the energy deposition in biological cells, TEPC-FLUKA Comparison
3.[Cadarache, France - Harmonie] Cadarache Sodium
4.[CEA, France] NAÏADE 1 Graphite Benchmark (60cm)
5.[CEA, France] NAÏADE 1 Iron Benchmark (60cm)
6.[CEA, France] NAÏADE 1 Light Water Benchmark (60cm)
7.[CEA, France] NAÏADE 1 Concrete Benchmark (60cm)
8.[CERN, Switzerland] ROESTI I, II and III
9.[CERN, Switzerland] CERF Bonner Sphere Spectrometer Response to Charged Hadrons
10.[CERN, Switzerland] CERF Radionuclide Production
11.[CERN, Switzerland] CERF Residual Dose Rates
12.[CERN, Switzerland] CERF Neutron Energy Spectra behind Shielding of a 120 GeV/c Hadron Beam Facility
13.[CERN, Switzerland] CERN 200 and 400 GeV/c protons activation experiments
14.[FNS/JAEA, Japan] FNS Experimental data for fusion neutronics benchmark
15.[FNS/JAEA, Japan] FNS Integral Experiment on Graphite Cylindrical Assembly
16.[FNS/JAEA, Japan] FNS Liquid Oxygen
17.[FNS/JAEA, Japan] FNS Vanadium Cube
18.[FNS/JAEA, Japan] FNS Tungsten
19.[FNS/JAEA, Japan] FNS Skyshine
20.[FNS/JAEA, Japan] FNS Dogleg Duct Streaming
21.[FNG/ENEA, Italy] FNG-ITER Neutron Streaming (integral)
22.[FNG/ENEA, Italy] FNG-ITER Dose Rate Experiment
23.[FNG/ENEA, Italy] FNG Silicon Carbide (integral)
24.[FNG/ENEA, Italy] FNG Tungsten (integral)
25.[FNG/ENEA, Italy] FNG HCPB Tritium Breeder Module (integral measurements)
26.[FNG/Italy, TUD/Germany] FNG/TUD ITER Blanket Bulk Shield (spectra measurements)
27.[FNG/Italy, TUD/Germany] FNG/TUD Silicon Carbide (spectra)
28.[FNG/Italy, TUD/Germany] FNG/TUD Tungsten (spectra measurements)
29.[TUD, Germany] TUD Iron Slab Experiment
30.[FzK, Germany] Karlsruhe Iron Sphere
31.[FzK, Germany] KANT Spherical Beryllium Shells
32.[IPPE - FzK] IPPE Vanadium Shells
33.[IPPE, Russia] IPPE Iron Shells
34.[IPPE, Russia] IPPE Th shell with 14 MeV and Cf-252 source neutrons
35.[IFPE, Russia] IPPE neutron transmission through bismuth shell
36.[IRI - TUB] Streaming Through Ducts
37.[ISPRA Univ. of Pavia, Italy - EURACOS II] Ispra Iron Benchmark
38.[ISPRA Univ. of Pavia, Italy - EURACOS II] Ispra Sodium Benchmark
39.[JAEA, Japan] Radioactivity induced by GeV-Protons and Spallation Neutrons using AGS accelerator
40.[JAEA, Japan] Intermediate and High-Energy Accelerator Shielding Benchmarks
41.[KEK/KENS, Japan] KENS p-500 MeV shielding experiment using 4m Concrete at KEK
42.[MEPhI, Russian Fed.] MEPhI empty slits streaming experiment
43.[NIRS, Japan] HIMAC experiments with He, C, Ne, Ar, Fe, Xe and Si ions on C, Al, Cu & Pb targets
44.[NIRS, Japan] HIMAC High energy Neutron (<800 MeV) Measurements in Iron
45.[NIRS, Japan] HIMAC High energy Neutron (<800 MeV) Measurements in Concrete
46.[NRI, Rez] Radiation field parameters for pressure vessel monitoring in NRI LR-0 VVER-440 reactor
47.[NRI, Rez] Radiation field parameters for pressure vessel monitoring in NRI LR-0 VVER-1000 reactor
48.[PSI, Swiss] Neutron Spectra Generated by 590-MeV Protons on Thick Pb Target
49.[RAL, England] ISIS Deep-Penetration Neutrons through Concrete and Iron Shields using p-800 MeV
50.[RDIPE, Russia] Baikal-1 Skyshine Benchmark Experiment
51.[RFNC, Russia] Photon Leakage Spectra from Al, Ti, Fe, Cu, Zr, Pb, U238 Spheres
52.[RFNC, Russia] Photon Spectra from H2O, SiO2 and NaCl
53.[RIKEN, Japan] Quasi-monoenergetic Neutron Field in 70-210 MeV Energy Range
54.[SCK/CEN, Belgium] VENUS-3 LWR-PVS Benchmark
55.[SEC NRS/FZR, Russia/Germany] Balakovo-3 VVER-1000
56.[Univ. of Osaka, Japan - OKTAVIAN] Aluminium Sphere
57.[Univ. of Osaka, Japan - OKTAVIAN] Iron Sphere
58.[Univ. of Osaka, Japan - OKTAVIAN] Nickel Sphere
59.[Univ. of Osaka, Japan - OKTAVIAN] Silicon Sphere
60.[Univ. of Osaka, Japan - OKTAVIAN] Tungsten Sphere
61.[Univ. of Osaka, Japan - OKTAVIAN] Manganese Sphere (OKTAVIAN)
62.[Univ. of Osaka, Japan - AVF Cyclotron] Transmission of Medium Energy Neutrons through Concrete Shields (AVF Cyclotron)
63.[Univ. of Osaka and Univ. of Tokyo, Japan] Neutron Production from Thick Targets of Carbon, Iron, Copper, and Lead by 30- and 52-MeV Protons
64.[Univ. of Tokyo, Japan - INS] Transmission through Shielding Materials of Neutrons and Photons Generated by 52 MeV Protons
65.[Winfrith, England - ASPIS] Winfrith Iron Benchmark
66.[Winfrith, England - ASPIS] Winfrith Iron 88 Benchmark
67.[Winfrith, England - ASPIS] Winfrith Graphite Benchmark
68.[Winfrith, England] Winfrith Water Benchmark
69.[Winfirth, England - ASPIS] Winfrith Neutron-Gamma Ray Transport through Water/Steel Arrays
70.[Winfrith, England - ASPIS] JANUS Phase I (Neutron Transport through Mild and Stainless Steel)
71.[Winfrith, England - ASPIS] JANUS Phase VIII (Neutron Transport through Sodium and Mild Steel)
72.[Winfrith, England - ASPIS] NESDIP-2 Benchmark
73.[Winfrith, England - ASPIS] NESDIP-3 Benchmark
74.[Winfrith, England - ASPIS] Winfrith Water/Iron Benchmark
75.[Wuerenlingen, Switzerland - PROTEUS] Wuerenlingen Iron Benchmark
76.[JAEA, Japan] TIARA 40 and 65 MeV Neutron Transmission through Iron, Concrete and Polyethylene
77.[Univ. of Osaka, Japan - AVF Cyclotron] Transmission through Shielding Materials of Neutrons and Photons Generated by 65 MeV Protons
78.[RDIPE, Russia] Baikal-1 Skyshine Benchmark Experiment
79.[SCK, Belgium] Venus-3
Volume 2 of SINBAD Version 1 comprises the following data:
1.[ORNL, USA] Gamma-ray Production Cross Sections from Thermal Neutron Capture in 14 elements & SS
2.[ORNL, USA] Averaged Gamma-ray Production Cross Sections from Fast Neutron Capture in 14 elements & SS
3.[ORNL, USA] JASPER Advanced Reactor Axial Shield Measurements
4.[ORNL, USA] JASPER Advanced Reactor Intermediate Heat Exchanger Measurements
5.[ORNL, USA] JASPER Advanced Reactor Radial Shield Measurements
6.[ORNL, USA] ORNL TSF Iron Broomstick
7.[ORNL, USA] ORNL TSF Oxygen Broomstick
8.[ORNL, USA] ORNL TSF Nitrogen Broomstick
9.[ORNL, USA] ORNL TSF Sodium Broomstick
10.[ORNL, USA] ORNL TSF Stainless Steel Broomstick
11.[ORNL, USA] ORNL Neutron Transport through Iron and SS - Part I
12.[ORNL, USA] ORNL Neutron Transport in Thick Sodium
13.[ORNL, USA] Pool Critical Assembly-Pressure Vessel Facility Benchmark
14.[ORNL, USA] ORNL 14-MeV Neutron SS/Borated Poly Slab
15.[University of Illinois, USA] University of Illinois Iron Sphere (D-T)
16.[University of Illinois, USA] University of Illinois Iron Sphere (CF-252)
17.[Univ. of Tokyo, Japan - YAYOI] University of Tokyo-YAYOI Iron Slab
18.[FNG/ENEA, Italy] FNG-SS Shield (integral meas.)
19.[FNG/ENEA, Italy] FNG-ITER Blanket Bulk Shield (integral meas.)
20.[NRC, USA] H.B. Robinson-2 Pressure Vessel
21.[LBNL, USA] BEVALAC Experiment with Nb Ions on Nb & Al Targets
22.[MSU, USA] Experiment with He & C ions on Al target
23.[NIST, USA] Neutron Leakage from Water Spheres
The following institutions supported the development of SINBAD Version 1 (sinbad.V1):
(in alphabetic order) AGH-UST University of Science and Technology, Krakow, (AGH-UST) AEA Technology (AEAT), Austrian Research Centre Seibersdorf (ARCS), CERN, Switzerland, Comissariat a l'Energie Atomique (CEA), EC Joint Research Centre (ISPRA), Ente per le Nuove Technologie, L'Energia e l'Ambiente (ENEA), Forschungszentrum Karlsruhe (FZK), Forschungszentrum Rossendorf e.V. (FZR), Gidropress, Podolsk, Russian Federation, Georgia Institute of Technology (GIT), High Energy Accelerator Research Organization (KEK), Institute of Nuclear Techniques, Technical University of Budapest (TUB), Institute of Physical and Chemical Research (RIKEN), Japan, Institute of Physics and Power Engineering (IPPE), Obninsk, Interfaculty Reactor Institute (IRI, now RID), Delft University of Technology, Japan Atomic Energy Institute (JAEA), Jozef Stefan Institute (IJS), Lawrence Berkeley National Laboratory (LBNL), Los Alamos National Laboratory (LANL), Moscow Engineering-Physics Institute (MEPhI), Michigan State University (MSU), National Institute of Radiological Sciences (NIRS) of Japan, National Institute of Standards and Technology, Gaithersburg (NIST), United States Nuclear Regulatory Commission (NRC), NRI Rez, Czech Republic, Oak Ridge National Laboratory (ORNL), Paul Scherrer Institute (PSI), Research and Development Institute of Power Engineering (RDIPE), Moscow, Rutherford Appleton Laboratory (RAL), Russian Federal Nuclear Center-VNIITF (RFNC), RRC "Kurchatov Institute"(RRC KI), Moscow, Research Centre Mol (SCK-CEN), Sandia National Laboratory (SNL), Scientific and Engineering Center for Nuclear and Radiation Safety (SEC NRS) of GOSATOMNADZOR, Skoda, Plzen, Czech Republic Technische Universitaet Dresden (TUD), Tohoku University, University of Illinois, University of Osaka, University of Pavia, University of Tokyo, and many experts who have contibuted to the compilation, validation and review of the data.
Keywords: accelerators, benchmarks, data base systems, data library, evaluated data, experimental data, fusion reactions, neutron, photons, shielding.
