原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2013年
11期
2077-2084
,共8页
压水堆%嬗变%99Tc%129I
壓水堆%嬗變%99Tc%129I
압수퇴%선변%99Tc%129I
pressurized water reactor%transmutation%99Tc%129I
选取大亚湾压水堆作为嬗变参考堆,研究在压水堆中嬗变长寿命裂变产物99 T c和129 I的可行性。计算结果表明:在1个换料周期(18个月)内,99 T c的最大嬗变率为15.69%,129 I的最大嬗变率为9.18%。通过对不同堆芯方案进行安全性分析发现:添加99 T c和129 I后,堆芯有效增殖因数kef降低且随燃耗变化的幅度变小;堆芯径向中子通量密度分布无明显变化但径向功率峰因子降低;考虑燃料温度系数、慢化剂温度系数、硼微分价值以及控制棒价值等,得出在反应性温度系数及反应性控制方面不会导致安全问题,相反有优化作用。因此,从安全角度分析,在压水堆中嬗变99 T c和129 I是可行的。
選取大亞灣壓水堆作為嬗變參攷堆,研究在壓水堆中嬗變長壽命裂變產物99 T c和129 I的可行性。計算結果錶明:在1箇換料週期(18箇月)內,99 T c的最大嬗變率為15.69%,129 I的最大嬗變率為9.18%。通過對不同堆芯方案進行安全性分析髮現:添加99 T c和129 I後,堆芯有效增殖因數kef降低且隨燃耗變化的幅度變小;堆芯徑嚮中子通量密度分佈無明顯變化但徑嚮功率峰因子降低;攷慮燃料溫度繫數、慢化劑溫度繫數、硼微分價值以及控製棒價值等,得齣在反應性溫度繫數及反應性控製方麵不會導緻安全問題,相反有優化作用。因此,從安全角度分析,在壓水堆中嬗變99 T c和129 I是可行的。
선취대아만압수퇴작위선변삼고퇴,연구재압수퇴중선변장수명렬변산물99 T c화129 I적가행성。계산결과표명:재1개환료주기(18개월)내,99 T c적최대선변솔위15.69%,129 I적최대선변솔위9.18%。통과대불동퇴심방안진행안전성분석발현:첨가99 T c화129 I후,퇴심유효증식인수kef강저차수연모변화적폭도변소;퇴심경향중자통량밀도분포무명현변화단경향공솔봉인자강저;고필연료온도계수、만화제온도계수、붕미분개치이급공제봉개치등,득출재반응성온도계수급반응성공제방면불회도치안전문제,상반유우화작용。인차,종안전각도분석,재압수퇴중선변99 T c화129 I시가행적。
The feasibility of transmutation of long-lived fission product (LLFP) 99 Tc and 129 I in pressurized water reactor (PWR) ,baesd on Daya Bay PWR ,was analyzed .The calculation results show that the maximum transmutation rate is 15.69% for 99 Tc during one refueling cycle of 18 months ,and 9.18% for 129 I .By analyzing the safety related items of different reactor cores ,it is shown that ,after introducing LLFPs into PWR , the kef gets lower and the range of variation with burnup becomes small ,and obvious change of the radial neutron flux density of reactor core is not found ,but the radial power peaking factor is declined .And also ,there is no safety problems for reactivity coefficient and control after considering fuel temperature coefficient , moderator temperature coefficient ,differential soluble boron worth and control rod worth .On the contrary ,the above parameters get better .In summary ,transmutation of 99 Tc and 129 I in PWR is feasible .
