On Mar. 11, 2011, the 2011 off the Pacific coast of Tohoku Earthquake of magnitude 9.0 occurred. When the great earthquake occurred, the high temperature engineering test reactor (HTTR) had been stopped under the periodic inspection and maintenance of equipment and instruments. A comprehensive integrity evaluation was carried out for the HTTR facility because the maximum seismic acceleration observed at the HTTR exceeded the maximum value of design basis earthquake. The concept of comprehensive integrity evaluation is divided into two parts. One is the “visual inspection of equipment and instruments.” The other is the “seismic response analysis” for the building structure, equipment and instruments using the observed earthquake. All equipment and instruments related to operation were inspected in the basic inspection. The integrity of the facilities was confirmed by comparing the inspection results or the numerical results with their evaluation criteria. As the results of inspection of equipment and instruments associated with the seismic response analysis, it was judged that there was no problem for operation of the reactor, because there was no damage and performance deterioration. The integrity of HTTR was also supported by the several operations without reactor power in cold conditions of HTTR in 2011, 2013, and 2015. Additionally, the integrity of control rod guide blocks was also confirmed visually when three control rod guide blocks and six replaceable reflector blocks were taken out from reactor core in order to change neutron startup sources in 2015.

References

1.
Saito
,
S.
,
Tanaka
,
T.
,
Sudo
,
O.
,
Baba
,
O.
,
Shindo
,
M.
,
Shiozawa
,
S.
,
Mogi
,
H.
,
Okubo
,
M.
,
Ito
,
N.
,
Shindo
,
R.
,
Kobayashi
,
N.
,
Kurihara
,
R.
,
Hayashi
,
K.
,
Hada
,
K.
,
Kurata
,
Y.
,
Yamashita
,
K.
,
Kawasaki
,
K.
,
Iyoku
,
T.
,
Kunitomi
,
K.
,
Maruyama
,
S.
,
Ishihara
,
M.
,
Sawa
,
K.
,
Fujimoto
,
N.
,
Murata
,
I.
,
Nakagawa
,
S.
,
Tachibana
,
Y.
,
Nishihara
,
T.
,
Oshita
,
S.
,
Shinozaki
,
M.
,
Takeda
,
T.
,
Sakaba
,
N.
,
Saikusa
,
A.
,
Tazawa
,
Y.
,
Fukaya
,
Y.
,
Nagahori
,
H.
,
Kikuchi
,
T.
,
Kawaji
,
S.
,
Ishozaki
,
M.
,
Matsuzaki
,
S.
,
Sakama
,
I.
,
Hara
,
K.
,
Ueda
,
N.
, and
Kokusen
,
S.
,
1994
, “Design of High Temperature Engineering Reactor (HTTR),” Japan Atomic Energy Research Institute, Tokyo, Japan, Report, No.
JAERI-1332
.https://inis.iaea.org/search/search.aspx?orig_q=RN:27002401
2.
Takada
,
S.
,
Nishihara
,
T.
,
Iyoku
,
T.
,
Nakazawa
,
T.
, and
Komori
,
Y.
,
2010
, “
50-Day Long-Term High-Temperature Operation Was Attained by the HTTR of Japan Atomic Energy Agency
,”
J. At. Energy Soc. Jpn.
,
52
(
7
), p.
387 (
in Japanese).
3.
Takamatsu
,
K.
,
Sawa
,
K.
,
Kunitomi
,
K.
,
Hino
,
R.
,
Ogawa
,
M.
,
Komori
,
Y.
,
Nakazawa
,
T.
,
Iyoku
,
T.
,
Fujimoto
,
N.
,
Nishihara
,
T.
, and
Shinozaki
,
M.
,
2011
, “
High-Temperature Continuous Operation of the HTTR
,”
Trans. At. Energy Soc. Jpn.
,
10
(
4
), pp.
290
300 (
in Japanese).
4.
Takada
,
S.
,
2011
, “
Initiation of Safety Demonstration Test of Loss of Forced Cooling by HTTR; Completion of the First Test of Loss of Forced Cooling
,”
J. At. Energy Soc. Jpn.
,
53
(
3
), pp.
167
168 (
in Japanese).
5.
Iigaki, K., Ono, M., Shimazaki, Y., Tochio, D., Shimizu, A., Inoi, H., Takada, S., and Sawa, K., 2013, “
A Safety Evaluation of HTTR Core Components Against 2011 TOHOKU Earthquake
,”
ASME
Paper No. ICONE21-16091.
6.
Ono
,
M.
,
Tochio
,
D.
,
Shinohara
,
M.
,
Shimazaki
,
H.
,
Yanagi
,
T.
, and
Iigaki
,
K.
,
2012
, “Plant Data Evaluation of Performance Confirmation Test in HTTR After Tohoku-Pacific Ocean Earthquake,” Japan Atomic Energy Agency, Ibaraki, Japan, JAEA-Technology Report No. 2012-004 (in Japanese).
7.
Iigaki
,
K.
,
Ono
,
M.
,
Shimazaki
,
Y.
,
Tochio
,
D.
,
Shimizu
,
A.
,
Inoi
,
H.
,
Takada
,
S.
, and
Sawa
,
K.
,
2014
, “
A Safety Evaluation of HTTR Core Graphite Structures Against the Great East Japan Earthquake
,”
Mech. Eng. J.
,
1
(
4
), p.
TEP0021
.
You do not currently have access to this content.