In the high-temperature engineering test reactor (HTTR), the vessel cooling system (VCS) which is arranged around the reactor pressure vessel (RPV) removes residual heat and decay heat from the reactor core when the forced core cooling is lost. The test of loss of forced cooling (LOFC) when one of two cooling lines in VCS lost its cooling function was carried out to simulate the partial loss of cooling function from the surface of RPV using the HTTR at the reactor thermal power of 9 MW, under the condition that the reactor power control system and the reactor inlet coolant temperature control system were isolated, and three helium gas circulators (HGCs) in the primary cooling system (PCS) were stopped. The test results showed that the reactor power immediately decreased to almost zero, which is caused by negative feedback effect of reactivity, and became stable as soon as HGCs were stopped. On the other hand, the temperature changes of permanent reflector block, RPV, and the biological shielding concrete were quite slow during the test. The temperature decrease of RPV was several degrees during the test. The numerical result showed a good agreement with the test result of temperature rise of biological shielding concrete around 1 °C by the numerical method that uses a calibrated thermal resistance by using the measured temperatures of RPV and the air outside of biological shielding concrete. The temperature increase of water cooling tube panel of VCS was calculated to be about 15 °C which is sufficiently small in the view point of property protection. It was confirmed that the sufficient cooling capacity of VCS can be maintained even in case that one of two water cooling lines of VCS loses its function.

References

1.
Saito
,
S.
,
Tanaka
,
T.
,
Sudo
,
Y.
, and
Baba
,
O.
,
1994
, “
Design of High Temperature Engineering Test Reactor (HTTR)
,” Japan Atomic Energy Research Institute, lbaraki, Japan, Report No. JAERI-1332.
2.
Takamatsu
,
K.
,
Tochio
,
D.
,
Nakagawa
,
S.
, and
Takada
,
S.
,
2014
, “
Experiments and Validation Analysis of HTTR on Loss of Forced Cooling Under 30% Reactor Power
,”
J. Nucl. Sci. Technol.
,
51
(
11–12
), pp.
1427
1443
.
3.
Takada
,
S.
,
Iigaki
,
K.
,
Shinohara
,
M.
, and
Tochio
,
D.
,
2014
, “
Near Term Test Plan Using HTTR (High Temperature Engineering Test Reactor)
,”
Nucl. Eng. Des.
,
271
, pp.
472
478
.
4.
Shinohara
,
M.
,
Yanagi
,
S.
,
Tochio
,
D.
,
Shimazaki
,
Y.
, Nojiri, N., Ohwada, H., Sato, N., Sagawa, H., and Umeda, M.,
2011
, “
Safety Demonstration Test Using the High Temperature Engineering Test Reactor (HTTR): Cold Test of the Loss of Forced Cooling
,” Japan Atomic Energy Agency, Ibaraki, Japan, JAEA-Technology Report No.
2011-029
.https://inis.iaea.org/search/search.aspx?orig_q=RN:43088317
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