核技术
覈技術
핵기술
NUCLEAR TECHNIQUES
2009年
8期
580-583
,共4页
乐仁昌%王平%董雪丰%何志杰%叶全意%洪锦泉%周宝庸%陈健俤
樂仁昌%王平%董雪豐%何誌傑%葉全意%洪錦泉%週寶庸%陳健俤
악인창%왕평%동설봉%하지걸%협전의%홍금천%주보용%진건제
氡%活性炭%静置时间%γ总计数
氡%活性炭%靜置時間%γ總計數
동%활성탄%정치시간%γ총계수
Radon%Activated carbon%Delay duration%γ-rays total-counts
根据氡及其子体的相继衰变规律,对均匀吸附环境氡的活性炭的γ总计数进行了理论推导,得到了活性炭γ总计数的计算公式;并对活性炭γ总计数进行了模拟计算.结果表明:活性炭取出后γ总计数随时间的变化曲线与实测曲线相吻合;在曲线的前段,计数先增大后减小,为活性炭的静置区,静置时长(即静置区的宽度)与活性炭吸附氡的时长密切相关,与氡浓度大小无关,吸附时间越长,所需静置时间越短;在曲线的后段,计数以e-0.000125t函数逐渐衰减,这一规律与氡浓度的大小无关.
根據氡及其子體的相繼衰變規律,對均勻吸附環境氡的活性炭的γ總計數進行瞭理論推導,得到瞭活性炭γ總計數的計算公式;併對活性炭γ總計數進行瞭模擬計算.結果錶明:活性炭取齣後γ總計數隨時間的變化麯線與實測麯線相吻閤;在麯線的前段,計數先增大後減小,為活性炭的靜置區,靜置時長(即靜置區的寬度)與活性炭吸附氡的時長密切相關,與氡濃度大小無關,吸附時間越長,所需靜置時間越短;在麯線的後段,計數以e-0.000125t函數逐漸衰減,這一規律與氡濃度的大小無關.
근거동급기자체적상계쇠변규률,대균균흡부배경동적활성탄적γ총계수진행료이론추도,득도료활성탄γ총계수적계산공식;병대활성탄γ총계수진행료모의계산.결과표명:활성탄취출후γ총계수수시간적변화곡선여실측곡선상문합;재곡선적전단,계수선증대후감소,위활성탄적정치구,정치시장(즉정치구적관도)여활성탄흡부동적시장밀절상관,여동농도대소무관,흡부시간월장,소수정치시간월단;재곡선적후단,계수이e-0.000125t함수축점쇠감,저일규률여동농도적대소무관.
In this paper,a method for total-count T-ray measurement of radon in activated carbon is presented,with correction for decay and time delay for the measurement based on the decay of radon and its progeny.Simulation of the total-cotmts of γ-rays from radon-absorbed activated carbon was performed.The results show that the time-dependent calculated curve of γ-ray total-counts agrees well with the measured one.The front part of the curve,where the counts increase first and decrease later,is the time delay for the measurement.The duration of delayed measurement is closely related to the duration of radon absorbed by activated carbon,but it has nothing to do with the radon concentration.And the longer the adsorption duration,the shorter is the time delay.Then,the counts follow the function of e-0.000125t,which is also independent of the concentration of radon absorbed by activated carbon.