RSICC Home Page ORLIBJ32

RSICC DATA PACKAGE DLC-255

1.         NAME AND TITLE OF DATA LIBRARY

       ORLIBJ32: ORIGEN2 Libraries Based on JENDL-3.2.

2.         NAME AND TITLE OF DATA RETRIEVAL PROGRAMS

ORIGEN2.1 (included in package); SWAT (C00714MNYCP01).

3.         CONTRIBUTOR

Tokai Research Establishment, Japan Atomic Energy Research Institute (JAERI), Tokai-mura, Naka-gun, Japan,  O-arai Engineering Center, Japan Nuclear Cycle Development Institute (JNC), O-arai-machi, Higashi-Ibaraki-gun, Japan, Mitsubish Heavy Industries, LTD (MHI), Yokohama-shi, Japan, and Central Research Institute of Electric Power Industry (CRIEPI), Komae-shi, Tokyo, Japan through the OECD Nuclear Energy Agency Data Bank, Issy-les-Moulineaux, France.

4.         HISTORICAL BACKGROUND AND INFORMATION

ORLIBJ32 is a package of libraries for the ORIGEN2 code based on JENDL-3.2. The one-grouped cross section data for PWRs and BWRs was compiled using the burnup calculation results from the SWAT code. The FBR libraries were compiled by the analysis system used in JNC for FBR core calculations. The fission yield and decay constants data were also updated using the second version of the JNDC FP library.

5.         APPLICATION OF THE DATA

The set of libraries for the ORIGEN2 code, “ORLIBJ32 1.1 and ORLIBJ32 1.3" were developed based on JENDL-3.2 using the latest core parameters. The targets are the 17×17 fuel assemblies for PWRs, and Step I, II or III assembly for BWRs. For FBR libraries, several types of cores and fuels were taken for targets, and libraries for cores and blanket regions were developed. To make the libraries for LWRs, the integrated burnup code system, SWAT, was used adopting the single pin cell model. For making FBR libraries, the new system was developed based on the core calculation system used in JNC.

The analysis of PIE data from PWR fuel assemblies was carried out and the calculated results showed good agreement with the experimental data, and improvement from original libraries are shown. For FBR, the comparison of the calculated data revealed the large difference between those using the new and old data libraries.

6.         SOURCE AND SCOPE OF DATA

In ORLIBJ32, not only one-grouped cross section data but also variable actinide cross section data is prepared, written in FORTRAN 77. The routines should be linked to the original ORIGEN2.1 programs.

The LWR Libraries are prepared based on the current PWR fuel assembly specification, and the FBR libraries are based on the request by the Japanese FBR researcher. Before compiling the libraries, all of the specification of fuel assembly was reviewed and evaluated by the members of Working Group in the Japanese Nuclear Data Committee, "working group on the evaluation of the amount of isotope generation".

The following table shows a list of libraries in ORLIBJ32:

 

---------------+----------------------------------------+-----------+---------

    Library    |                  Fuels                 |    NLB    | NLIB(12)

               |                                        | S   A   F |

---------------+----------------------------------------+-----------+---------

  PWR34J32.LIB | PWR 17*17  U5 3.4% UO2 < 60 GWd/TIHM   |700 701 702|   43

  PWR41J32.LIB | PWR 17*17  U5 4.1% UO2 < 60 GWd/TIHM   |703 704 705|   44

  PWR47J32.LIB | PWR 17*17  U5 4.7% UO2 < 60 GWd/TIHM   |706 707 708|   45

---------------+----------------------------------------+-----------+---------

  BS100J32.LIB | BWR STEP-1 VR=0   UO2  < 40 GWd/TIHM   |709 710 711|   46

  BS140J32.LIB | BWR STEP-1 VR=40  UO2  < 40 GWd/TIHM   |712 713 714|   47

  BS170J32.LIB | BWR STEP-1 VR=70  UO2  < 40 GWd/TIHM   |715 716 717|   48

---------------+----------------------------------------+-----------+--------

  BS200J32.LIB | BWR STEP-2 VR=0   UO2  < 50 GWd/TIHM   |718 719 720|   49

  BS240J32.LIB | BWR STEP-2 VR=40  UO2  < 50 GWd/TIHM   |721 722 723|   50

  BS270J32.LIB | BWR STEP-2 VR=70  UO2  < 50 GWd/TIHM   |724 725 726|   51

---------------+----------------------------------------+-----------+--------

  BS300J32.LIB | BWR STEP-3 VR=0   UO2  < 60 GWd/TIHM   |727 728 729|   52

  BS340J32.LIB | BWR STEP-3 VR=40  UO2  < 60 GWd/TIHM   |730 731 732|   53

  BS370J32.LIB | BWR STEP-3 VR=70  UO2  < 60 GWd/TIHM   |733 734 735|   54

---------------+----------------------------------------+-----------+--------

  JOYOM1CO.LIB |JOYO MK-1 CORE (MOX)                    |800 801 802|   55

  JOYOM1AX.LIB |JOYO MK-1 AXIAL  BLANKET                |803 804 805|   56

  JOYOM1RD.LIB |JOYO MK-1 RADIAL BLANKET                |806 807 808|   57

---------------+----------------------------------------+-----------+--------

  MONJMXIC.LIB |MONJU INNER CORE (MOX)                  |809 810 811|   58

  MONJMXOC.LIB |MONJU OUTER CORE (MOX)                  |812 813 814|   59

  MONJMXAX.LIB |MONJU AXIAL  BLANKET                    |815 816 817|   60

  MONXMXRD.LIB |MONJU RADIAL BLANKET                    |818 819 820|   61

---------------+----------------------------------------+-----------+--------

  600MMXIC.LIB |600MW FBR INNER CORE (MOX)              |821 822 823|   62

  600MMXOC.LIB |600MW FBR OUTER CORE (MOX)              |824 825 826|   63

  600MMXAX.LIB |600MW FBR AXIAL  BLANKET                |827 828 829|   64

  600MMXRD.LIB |600MW FBR RADIAL BLANKET                |830 831 832|   65

---------------+----------------------------------------+-----------+--------

  600MMTIC.LIB |600MW FBR INNER CORE (METAL)            |833 834 835|   66

  600MMTOC.LIB |600MW FBR OUTER CORE (METAL)            |836 837 838|   67

  600MMTAX.LIB |600MW FBR AXIAL  BLANKET                |839 840 841|   68

  600MMTRD.LIB |600MW FBR RADIAL BLANKET                |842 843 844|   69

---------------+----------------------------------------+-----------+--------

  600MNIIC.LIB |600MW FBR INNER CORE (NITRIDE)          |845 846 847|   70

  600MNIOC.LIB |600MW FBR OUTER CORE (NITRIDE)          |848 849 850|   71

  600MNIAX.LIB |600MW FBR AXIAL  BLANKET                |851 852 853|   72

  600MNIRD.LIB |600MW FBR RADIAL BLANKET                |854 855 856|   73

---------------+----------------------------------------+-----------+--------

  600MRPIC.LIB |600MW FBR INNER CORE (RECYCLE PU MOX)   |857 858 859|   74

  600MRPOC.LIB |600MW FBR OUTER CORE (RECYCLE PU MOX)   |860 861 862|   75

  600MRPAX.LIB |600MW FBR AXIAL  BLANKET                |863 864 865|   76

  600MRPRD.LIB |600MW FBR RADIAL BLANKET                |866 867 868|   77

---------------+----------------------------------------+-----------+--------

  1300MXIC.LIB |1300MW FBR INNER CORE (MOX)             |869 870 871|   78

  1300MXOC.LIB |1300MW FBR OUTER CORE (MOX)             |872 873 874|   79

  1300MXAX.LIB |1300MW FBR AXIAL  BLANKET               |875 876 877|   80

---------------+----------------------------------------+-----------+--------

  PUBRMXIC.LIB |PU BURNER INNER CORE  (MOX)             |878 879 880|   81

  PUBRMXOC.LIB |PU BURNER OUTER CORE  (MOX)             |881 882 883|   82

---------------+----------------------------------------+-----------+--------

  BS2M040S.LIB |BWR STEP-2 MOX Pu: 4% STD VR= 0 <50GWd/t|900 901 902|   83

  BS2M044L.LIB |BWR STEP-2 MOX Pu: 4% LOW VR=40 <50GWd/t|903 904 905|   84

  BS2M044S.LIB |BWR STEP-2 MOX Pu: 4% STD VR=40 <50GWd/t|906 907 908|   85

  BS2M044H.LIB |BWR STEP-2 MOX Pu: 4% HG  VR=40 <50GWd/t|909 910 911|   86

  BS2M047S.LIB |BWR STEP-2 MOX Pu: 4% STD VR=70 <50GWd/t|912 913 914|   87

  BS2M084S.LIB |BWR STEP-2 MOX Pu: 8% STD VR=40 <50GWd/t|915 916 917|   88

  BS2M134S.LIB |BWR STEP-2 MOX Pu:13% STD VR=40 <50GWd/t|918 919 920|   89

---------------+----------------------------------------+-----------+--------

  PWRM0113.LIB |PWR 17*17:Pu Vector 1 :Pu enrichment 13%|921 922 923|   90

  PWRM0205.LIB |PWR 17*17:Pu Vector 2 :Pu enrichment  5%|924 925 926|   91

  PWRM0210.LIB |PWR 17*17:Pu Vector 2 :Pu enrichment 10%|927 928 929|   92

  PWRM0213.LIB |PWR 17*17:Pu Vector 2 :Pu enrichment 13%|930 931 932|   93

  PWRM0305.LIB |PWR 17*17:Pu Vector 3 :Pu enrichment  5%|933 934 935|   94

---------------+----------------------------------------+-----------+--------

 

   S: Structure and Light Nuclide, and Activation products

   A: Actinides

   F: Fission products

7.         DISCUSSION OF THE DATA RETRIEVAL PROGRAM

In ORLIBJ32 source files and libraries in CCC-371 (ORIGEN2.1) were provided with an update to the "MAIN2" subroutine to make paths to variable actinide cross section routines for demonstrating the ability of ORILIBJ32.

8.         DATA FORMAT AND COMPUTER

Linux, UNIX workstations, PC Windows, or MacOS (D00255MNYCP00).

9.         TYPICAL RUNNING TIME

Less than a minute for the included sample problems.

10.       REFERENCES

a.  Documentation available with library

Y. Ohkawachi and M. Fukushima, "Development of the Tool for Generating ORIGEN2 Library Based on JENDL-3.2 for FBR,” JNC TN9400 99-051 (1999) (in Japanese).

K.Suyama et al., "Libraries Based on JENDL-3.2 for ORIGEN2 Code: ORLIBJ32,” JAERI-Data/Code 99-003 (1999).

K.Suyama et al., "ORIGEN2 Libraries Based on JENDL-3.2 for LWR-MOX Fuels,” JAERI-Data/Code 2000-036 (2000).

b.  Background Documentation

K.Suyama et al., "Development of the Libraries for ORIGEN2 Code Based on JENDL-3.2," Proc. of 1997 Symposium on Nuclear Data, pp9-14, JAERI-Conf 98-003 (1998).

K.Suyama et al., "ORLIBJ32: The Set of New Libraries of ORIGEN2 Code Based on JENDL-3.2," Proc. of the 2000 ANS International Topical Meeting on Advances in Reactor Physics and Mathematics and Computation into the Next Millennium (PHYSOR 2000), (ISBN 0-89448-655-1: ANS Order No. 2700281), May 7-11, 2000, Pittsburgh, PA, USA.

11.       CONTENTS OF LIBRARY

The ORLIBJ32 package is transmitted on DVD and includes Windows self-extracting executables, Linux formatted tgz files, source files, data, sample input problems, sample output and reference materials.   Uncompressed files for each library are about 90 MB.

12.       DATE OF ABSTRACT

July 2012.

KEYWORDS:     BURNUP, DATA PROCESSING, UTILITY, LWR, PWR