NEA-1715/02, included references:
A. TCA Experiments
- "Precise Determination of beff for Water-Moderated U And U-Pu Cores by a
Method Using Buckling Coefficient of Reactivity", (including Supplement - Fuel
rod specification), Takenori Suzaki, Kiyoshi Sakurai, Ken Nakajima, and
Ohichiro Horiki (Japan Atomic Energy Research Institute) TCA-PU-16, and Proc.
ICNC'99 Versailles, France, p. 386 (1999)
- "Critical Experiments on Light-Water Moderated PuO2-UO2 Lattices", Iwao
Kobayashi, Harumichi Tsuruta, Takenori Suzaki, Akio Ohno, Kiyonobu Murakami,
and Shojiro Matsuura (Japan Atomic Energy Research Institute), Ryozo Yumoto,
Tadakuni Matsumoto, Hideyoshi Sasajima, and Kazuo Itagawa (Power Reactor and
Nuclear Fuel Development Corporation), Journal of Nuclear Science and
Technology 15(3), pp. 166-182 (March 1978). TCA-PU-9
- "Critical Sizes of Light-Water Moderated UO2 and PuO2-UO2 Lattices",
Haruchumi Tsuruta, Iwao Kobayashi, Takenori Suzuki, Akio Ohno, Kiyonobu
Murakami, and Syojiro Matsuura (Japan Atomic Energy Research Institute), JAERI
1254 (February 1978), TCA-PU-10
- "Measurement of Reactivity Worths of Sm, Cs, Gd, Nd, Rh, Eu, B and Er
Aqueous Solution Samples", Yuichi Komuro, Takenori Suzaki, Shoichi Ohtomo,
Kiyoshi Sakurai, and Oichiro Horiki (Japan Atomic Energy Research Institute)
JAERI-Research 97-088 (november 1997)
- "Temperature Effects on Reactivity in Light Water Moderated UO2 Cores with
Soluble Poisons", Yoshinori Miyoshi, Toshihiro Yamamoto, Takenori Suzaki, and
Iwao Kobayashi (Department of Fuel Safety Research, Japan Atomic Energy
Research Institute), Journal of Nuclear Science and Technology, 29(12), pp.
1201-1211 (December 1992). Technical Report
- "Analytical Study of Two-Region TCA Critical Experiments with PWR-Type MOX
Fuel by Using Monte Carlo Code MVP", Mafizur Rahman, Takenori Suzaki, and
Takamasa Mori (Japan Atomic Energy Research Institute), JAERI-Research 2003-007
(March2003)
- "Effects of Volume Fraction and Non-uniform Arrangement of Water Moderator
on Reactivity" X. Cao, T. Suzaki, T. Kugo, T. Mori (Japan Atomic Energy
Research Institute), JAERI-Tech 2003-069 (August 2003)
(included in February 2004)
DCA experiments
B. Research on ATR
- Substitution Measurements on 28-Fuel-Rod Critical Clusters in D20 and Their
Analysis by the Second-Order Perturbation Method, K. Shiba, Nucl. Sci. Eng.,
65, 492-507 (1978)
- Lattice Parameter Measurements on Cluster-Type Fuel for Advanced Thermal
Reactor, Y. Hachiya, N. Fukumura, A. Nishi, K. Iijima, and H. Sakata, J. Nucl.
Sci. Techn., 13(11), 618-632 (1976)
- Measurement of Local Power Peaking Factors in Heavy-Water Moderated
Plutonium Lattices, N. Fukumura, J. Nucl. Sci. Techn., 18(4), pp.285-299 (1981)
- Analysis of Heavy-Water-Moderated, Cluster-Type Fuel Lattices by Cluster
Physics Code 'MESSIAH', H. Kadotani, and Y. Hachiya, J. Nucl. Sci. Techn.,
19(9), pp.689-704 (1982)
- Fuel Temperature Coefficients of Reactivity for Heavy-Water-Moderated,
Cluster-Type Fuel Lattices, H. Sakata, Y. Hachiya, and H. Kadotani, J. Nucl.
Sci. Techn., 17(10), pp.747-763 (1980)
- Measurements of Moderator Temperature Coefficients of Reactivity for
Pressure-Tube-Type Reactors, T. Otsuka, N. Fukumura, and Y. Hachiya, Nucl. Sci.
Eng., 74, 95-105 (1980)
- Thermal-Neutron Behavior in Cluster-Type Plutonium Fuel Lattices, T.
Wakabayashi, and Y. Hachiya, Nucl. Sci. Eng., 63, 292-305 (1977)
- Critical Experiments on Gadolinium Poisoned Cluster-Type Fuel Assemblies in
Heavy Water Lattices, T. Wakabayashi, and I. Minatsuki, Nucl. Sci. Eng., 83,
50-62 (1983)
- Study on Coolant Void Reactivity of Pressure-Tube-Type Heavy Water Lattice by
the Substitution Method, Y. Kowata, and N. Fukumura, Nucl. Sci. Eng., 99,
299-312 (1988)
- Axial Dependence of Partial Void Reactivity in a Light-Water-Cooled, Heavy
WaterModerated, Pressure-Tube Reactor, N. Aihara, N. Fukumura, H. Kadotani, and
Y. Hachiya, Nucl. Sci. Eng., 109, 158-170 (1991)
- Neutron Absorber Effect on Coolant Void Reactivity in a Pressure-Tube-Type
Heavy Water Reactor, Y. Kowata, and N. Fukumura, Nucl. Sci. Eng., 108, 308-318
(1991)
- Influence of Burnable Gadolinia Poison on Coolant Void Reactivity in a
Pressure-Tube-Type Heavy Water Reactor, Y. Kowata, and N. Fukumura, Nucl. Sci.
Eng., 115, 205-218 (1993)
- Reactivity Worths of Annular Control Rods in a Pressure-Tube-Type Heavy
Water Lattice, M. Ueda, M. Matsumoto, and T. Haga, Nucl. Sci. Eng., 62, 559-570
(1977)
- Effect of a 0.3-eV Resonance Cross Section for Plutonium on the Coolant Void
Reactivity in a Heavy Water Lattice, Y. Kowata, and N. Fukumura, Nucl. Sci.
Eng., 127, 89-103 (1997)
C. Research on Criticality Safety
- Subcriticality Monitoring by Feynman-alpha Method, N.Ohtani, and T.Hazama,
The Fifth International Conference on Nuclear Criticality Safety, Albuquerque,
New Mexico, U.S.A. Sep. 17-21, 1995, Volume II 11.43 (1995).
- Improved 252Cf-Source-Driven Noise Analysis Method Based on Time Domain
Analysis, T.Hazama, The Sixth International Conference on Nuclear Criticality
Safety, Versailles, France, Sep. 20-24, 1999, Volume III, 1243-1251 (1999)
- Reduction of Delayed-Neutron Contribution to Variance-to-Mean Ratio by
Application of Difference Filter Technique, K. Hashimoto, T. Mouri, and N.
Ohtani, J. Nucl. Sci. Techn., Vol.36, No.7, pp.555-559 (1999)
D. Fast Reactor Experiments from (JNC)
- Integral Test of JENDL-3.2 Data by Re-analysis of Sample Reactivity
Measurements at Fast Critical Facilities, JNC TN9400 2001-043 (February, 2001)
O-arai Engineering Center Japan Nuclear Cycle Development Institute
E. Very High Temperature Reactor Critical (VHTRC) Assembly
- "VHTRC Temperature Coefficient Benchmark Problem"
Hideshi Yasuda, Tsuyoshi Yamane, and Toshinobu Sasa (Department of Reactor
Engineering, Tokai Research Establishment, Japan Atomic Energy Research
Institute, Tokai-mura, Naka-gun, Ibaraki-ken), JAERI-Data/Code 94-013, (October
1994)
F. Musashi Triga Experiments
- Benchmark Analysis of Criticality Experiments in the TRIGA Mark II Using a
Continuous Energy Monte Carlo Code MCNP, T. Matsumoto, J. Nucl. Sci. and Techn.
Vol 35, No. 9, pp. 662-670 (September 1998)
- A Proposal to Asian Countries with Operating Research Reactors for Making
Nuclear Criticality Safety Benchmark Evaluations, Y. Komuro, J. Nucl. Sci >
Techn. Vol 37, No. 6, pp. 548-554 (June 2000)
- Benchmark Analysis of TRIGA Mark II Reactivity Experiment Using a Continuous
Energy Monte Carlo Code MCNP, T. Matsumoto, and N. Hayakawa, J. Nucl. Sci. and
Techn. Vol 37, No. 12, pp. 1082-1087 (December 2000)