辐射防护通讯
輻射防護通訊
복사방호통신
RADIATION PROTECTION BULLETIN
2014年
6期
6-10
,共5页
压水堆%含氚废液%疏水催化剂
壓水堆%含氚廢液%疏水催化劑
압수퇴%함천폐액%소수최화제
Pressure water reactor%Tritiated water%Hydrophobic catalyst
介绍了几种可规模除氚的氢-水同位素交换工艺及其应用情况,并结合压水堆核电站含氚废液排放的实际情况,对压水堆核电站含氚废液处理的适用性进行了分析,认为联合电解催化交换技术处理压水堆含氚废液可行性较高。
介紹瞭幾種可規模除氚的氫-水同位素交換工藝及其應用情況,併結閤壓水堆覈電站含氚廢液排放的實際情況,對壓水堆覈電站含氚廢液處理的適用性進行瞭分析,認為聯閤電解催化交換技術處理壓水堆含氚廢液可行性較高。
개소료궤충가규모제천적경-수동위소교환공예급기응용정황,병결합압수퇴핵전참함천폐액배방적실제정황,대압수퇴핵전참함천폐액처리적괄용성진행료분석,인위연합전해최화교환기술처리압수퇴함천폐액가행성교고。
Combining the discharge amount of tritiated water at PWRs ,the applicability of several hydrogen-water exchange technologies which already have large-scale industrial applications is discussed ,and the CECE process is believed to be more applicable than other detritiation technology .
