염화칼리와 석회의 동시살포가 주요 작물의 생육중에 침적한 $^{54}Mn,\;^{60}Co,\;^{85}Sr\;and\;^{137}Cs$의 뿌리흡수에 미치는 영향

최용호,조재성,이명호,최근식,이정호,Choi, Yong-Ho,Jo, Jae-Seong,Lee, Myung-Ho,Choi, Geun-Sik,Lee, Jeong-Ho 대한방사선방어학회 1995 방사선방어학회지 Vol.20 No.4

2년 간의 온실실험을 통하여 벼, 콩, 배추, 무의 생육초기에 $^{54}Mn,\;^{60}Co,\;^{85}Sr\;and\;^{137}Cs$의 혼합용액을 산성 양질사토로 상층부를 채운 재배강자내 담수 또는 토양의 표면에 가한 후 비료용 염화칼리와 소석회를 각각 $m^2$당 200g 및 83g 수준으로 동시에 처리하고 흡수억제 효과를 조사하였다. 칼리와 석회 처리시 각 핵종의 작물체 부위간 농도분포 및 작물에 따른 흡수양상의 변화는 대체로 무처리시와 비슷한 경향이었다. 토양-작물체간 핵종의 전이계수는 칼리와 석회 처리에 의해 벼에서는 $^{85}Sr$와 $^{137}Cs$, 배추에서는 네 핵종 모두, 무에서는 $^{54}Mn,\;^{60}Co,\;and\;^{137}Cs$의 경우 생육장해 없이 왜 크게 감소하였으나 이밖의 경우에는 감소효과를 인정할 수 없었다. 벼에서 전이계수의 감소 정도는 $^{85}Sr$가 60% 정도로 가장 컸고 배추와 무에서는 $^{54}Mn$가 80% 정도로 가장 컸다. 본 연구결과는 작물 생육중 농경지의 방사능 오염시 대책 수립을 위한 기초정보로 이용될 수 있다. The effects of a simultaneous application of KCl and lime on the root uptake of $^{54}Mn,\;^{60}Co,\;^{85}Sr\;and\;^{137}Cs$ by rice, soybean, Chinese cabbage and radish were investigated through 2 years' greenhouse experiments. At their early growth stages, a mixed solution of the radionuclides was applied to the water or soil surfaces of the culture boxes filled with an acidic loamy-sandy soil for the upper 20cm and $83g/m^2$ of fertilizer KCl and $200g/m^2$ of slake lime were applied to the surfaces. Distribution of radioactivities among plant parts and change in uptake pattern with plant species were not, on the whole, significantly affected by the application. It reduced effectively soil-to-plant transfer factors of $^{85}Sr\;and\;^{137}Cs$ for rice, of all for Chinese cabbage and of $^{54}Mn,\;^{60}Co,\;and\;^{137}Cs$ for radish without their growth inhibition. In rice, $^{85}Sr$ showed the highest decrease $({\sim}60%)$ while, in Chinese cabbage and radish, $^{54}Mn$ did $({\sim}80%)$. The exprimental results can become valuable reference data to establish countermeasures against a radioactive contamination of farm-land during plant growth.

용담호 진안천 유역의 비점오염유출특성1

최용호 ( Yong-ho Choi ),정용훈 ( Yong-hoon Jeong ),곽동희 ( Dong-heui Kwak ) 한국물환경학회 2021 한국물환경학회·대한상하수도학회 공동 춘계학술발표회 Vol.2021 No.-

용담호 진안천 유역의 비점오염유출특성

최용호 ( Yong-ho Choi ),정용훈 ( Yong-hoon Jeong ),곽동희 ( Dong-heui Kwak ) 한국물환경학회 2021 한국물환경학회·대한상하수도학회 공동 춘계학술발표회 Vol.2021 No.-

오이의 재배기간중 처리한 방사성 핵종의 토양-작물체간 전이계수 및 지하이동

최용호,박효국,김상복,최근식,이정호 ( Yong Ho Choi,Hyo Kook Park,Sang Bog Kim,Geun Sik Choi,Jeong Ho Lee ) 한국환경농학회 1997 한국환경농학회지 Vol.16 No.4

In greenhouse, a mixed solution of Mn-54, Co-60, Sr-85 and Cs-137 was applied to the soil of culture boxes 2 days before sowing cucumber and at 4 different times during its growth for measuring their transfer factors (TFs) for fruit and migration in soil. TFs varied with radionuclide, application time and harvest time by factor of up to about 60. Variations in TFs with application time showed different patterns among radionuclides. TFs decreased on the whole in the order of Sr-85$gt;Mn-54$gt;Co-60$gt;Cs-137. TFs of Mn-54, Co-60 and Cs-137 mixed with topsoil before sowing were a little higher than those for the soil-surface application made at an early growth stage while no difference in Sr-85 TF was found. After harvest, soil concentrations of the radionuclides applied at an early growth stage were examined. They decreased with increasing soil depth and 80∼99% of the radioactivity remained in top 3㎝. Soil pemeation of the radionuclides migration decreased in the order of Sr-85$gt;Mn-54$gt;Co-60$gt;Cs-137. The present data can be utilized in estimating radionuclide concentration in cucumber fruit, taking proper measures for its harvest and consumption and designing the best way of soil decontamination following an radioactive deposition during the cucummber growing season.

원자력 사고시 주민 보호조치 결정 지원을 위한 비상 환경감시

최용호,최근식,한문희,이한수,이창우,Choi, Yong-Ho,Choi, Geun-Sik,Han, Moon-Hee,Lee, Han-Soo,Lee, Chang-Woo 대한방사선방어학회 2005 방사선방어학회지 Vol.30 No.3

원자력 사고로 인한 비상시에는 적기에 주민 보호조치를 취해야 한다. 주민 보호조치에 대한 결정기준은 국제적으로 비용-이득 분석에 의해 산정된 일반개입준위와 일반조치준위를 사용토록 제안되어 있다. 운영개입준위는 이러한 일반준위를 직접 또는 쉽게 측정할 수 있는 물리량으로 나타낸 것이다. 비상시 보호조치의 필요성을 판단하기 위해서는 운영개입준위를 적용하고 수정하는 데 요구되는 환경감시 자료를 신속히 생산하는 것이 중요하다. 비상대응의 일환으로서 이를 위해 무슨 일들이 어떻게 수행되어야 하는지 고찰하였다. 비상시 환경감시를 효과적으로 수행하기 위해서는 평상시에 조직과 설비의 유지 관리, 각종 절차 수립, 지원용 전산체제 개발, 주기적인 교육과 훈련 등 철저한 준비가 필요하다. 일반개입준위와 운영개입준위에 관한 우리나라의 규정이 보완 또는 신설될 필요가 있음이 지적되었다. In a nuclear emergency, protective actions for the public should be taken in time. It is internationally proposed that generic intervention levels (GILs) and generic action levels, determined based on cost-benefit analyses, be used as the decision criteria for protective actions. Operational intervention levels (OILs) are directly or easily measurable quantities corresponding to these generic levels. To assess the necessity of protective actions in a nuclear emergency, it is important that the environmental monitoring data required for applying and revising OILs should be promptly produced. It is discussed what and how to do for this task in the course of the emergency response. For an emergency environmental monitoring to be performed effectively, a thorough preparedness has to be made including maintenance of the organization and equipments, establishment of various procedure manuals, development of a supporting computer system and periodical training and exercises. It is pointed out that Korean legal provisions concerning GILs and OILs need to be amended or newly established.

경주 방사성 폐기물 처분장 주변 논에 대한 방사성 요오드와 테크네튬의 토양-쌀알 전이계수

최용호,임광묵,전인,박두원,금동권,한문희,Choi, Yong-Ho,Lim, Kwang-Muk,Jun, In,Park, Doo-Won,Keum, Dong-Kwon,Han, Moon-Hee 한국방사성폐기물학회 2010 방사성폐기물학회지 Vol.8 No.4

Radiotracer experiments were performed over two years using pot cultures in a greenhouse to investigate soil-torice seeds transfer factors of radioiodine and technetium for paddy fields around the radioactive-waste disposal site in Gyeongju. Before transplanting rice seedlings, the top about 20 cm soils were thoroughly mixed with $^{125}I$ (2007) and $^{99}Tc$ (2008), and the pots were irrigated to simulate flooded rice fields. Transfer factors were determined as the ratios of the radionuclide concentrations in dry rice seeds (brown rice) to those in dry soils. Transfer factors of radioiodine and technetium were in the ranges of $1.1{\times}10^{-3}{\sim}6.4{\times}10^{-3}$ (three soils) and $5.4{\times}10^{-4}{\sim}2.5{\times}10^{-3}$ (four soils), respectively, for different soils. It seems that the differences in the clay content among soils played a more important role for such variations than those in the organic matter content and pH. As the representative values of radioiodine and technetium transfer factors for rice seeds, $2.9{\times}10^{-3}$ and $1.1{\times}10^{-3}$, respectively, were proposed. In order to obtain more highly representative values in the future, investigations for the sites of interest need to be carried out continuously.

벼 재배기간중 논 토양에 처리한 54Mn , 60Co , 85Sr , 137Cs 의 용탈

최용호,조재성,이창우,정규회,이정호 ( Yong Ho Choi,Jae Sung Jo,Chang Woo Lee,Kyu Hoi Chung,Jeong Ho Lee ) 한국환경농학회 1996 한국환경농학회지 Vol.15 No.2

Leaching of ^(54)Mn, ^(60)Co, ^(85)Sr and ^(137)Cs in paddy soil was studied using lysimeter cultures in a greenhouse. The radionuclides were applied to the water surfaces shortly before transplanting and five different times between transplanting and harvest. Fertilizer KCl and slaked lime were added simultaneously in the rate of 83kg and 200kg, respectively, per l0a following the first application after transplanting. Percolating water was sampled until two days before harvest. Concentrations of the radionuclides in percolating water decreased in the order of ^(85)Sr > ^(54)Mn > ^(60)Co > ^(137)Cs on the whole. Time taken to reach the maximum was the shortest for ^(137)Cs(< one week) and the longest for ^(54)Mn and ^(85)Sr. Six days` water dropping started 47 days after transplanting reduced the concentrations of ^(54)Mn, ^(60)Co, ^(85)Sr and ^(137)Cs by factors of 30-180, 3-75, 2-4 and 3-6, respectively, depending on the application time. After the significant decrease, ^(54)Mn concentration tended to gradually increase but ^(137)Cs did to the contrary Percent leaching varied 0.09-6.2% for ^(54)Mn, 0.009-0.9% for ^(60)Co, 1.4-14.4% for ^(85)Sr and 0.002-0.06% for ^(137)Cs, with the application time. The highest leaching came from the application at 40 days after transplanting for all the radionuclides. The addition of KCl and lime increased percent leaching of the radionuclides by factors of 9, 85, 4 and 9, respectively.

벼의 종실 발육단계에 따른 주간 및 야간 HTO 증기 피폭시 TFWT 및 OBT 농도

최용호,임광묵,이원윤,강희석,최희주,이한수,실비아디아바테,지그프리드슈트락,Choi, Yong-Ho,Lim, Kwang-Muk,Lee, Won-Yun,Kang, Hee-Suk,Choi, Heui-Joo,Lee, Han-Soo,Diabate, Silvia,Strack, Siegfried 대한방사선방어학회 2003 방사선방어학회지 Vol.28 No.1

벼를 쌀알의 발육단계별로 주간 및 야간에 1 시간 동안 HTO 증기에 피폭시키고 작물체 부위별로 조직자유수 $^3H$ (TFWT) 및 유기결합형 $^3H$ (OBT) 농도를 조사하였다. 피폭종료 직후$(h_0)$ 잎의 TFWT 농도는 주간실험에서는 공기수분중 1 시간 평균 HTO 농도의 100% 내외였으나 야간실험에서는 $30{\sim}40%$에 불과하였다. 주 야간 피폭 모두 TFWT 농도는 초기에는 급히 감소하다가 나중에는 훨씬 천천히 감소하였고 수확시에는 $h_0$에 비해 수백${\sim}$수만 배 낮았다. OBT 농도는 부위 및 피폭시기에 따라 변화양상이 달랐고 $h_0$와 수확시 간 차이는 대체로 10 배 이내였다. 야간피폭 중에도 주간피폭의 약 1/3 수준으로 OBT가 생성되었다. 공기중 HTO의 수확시 쌀알내 OBT로의 전환 정도는 주간피폭시 야간피폭보다 수 배 높았고 주 야간 피폭 모두 쌀알의 발육 최성기 피폭시에 가장 높았다. 벼가 쌀알의 발육기에 HTO에 피폭되면 OBT에 의한 섭취피폭선량이 TFWT보다 훨씬 클 것으로 추정되었다. Rice plants at different seed-developing stages were exposed to HTO vapor in an exposure box for 1 h during daytime and nighttime to investigate the levels of tissue free water $^3H$ (TFWT) and organically bound $^3H$ (OBT) in different plant parts. In the daytime experiment, TFWT concentrations in leaves at the end of exposure $(h_0)$ were around 100% of the 1 hour mean HTO concentrations in air moisture whereas in the nighttime experiment, they were as low as $30{\sim}40%$ of the air concentration. TFWT concentrations in both experiments decreased very rapidly in the beginning but much mote slowly later and those at harvest were hundreds to hundred thousands times lower than those at $h_0$. OBT concentrations varied with time in different manners depending on plant parts and exposure times and differed between at $h_0$ and at harvest by factors of less than 10 on the whole. Even during nighttime exposures, OBT was produced at about a third the rate for daytime exposures. The degree of the conversion of airborne HTO into OBT in mature rice seeds, being several times higher in the daytime experiment than in the nighttime experiment, was highest after the exposure peformed at the most actively seed-developing stage for both experiments. It is estimated that OBT would contribute much more to the ingestion radiation dose than TFWT if rice plants are exposed to HTO vapor for the seed-developing period.

Experimental Studies for Analyzing Direct Contamination Pathway $^{54}Mn,\;^{57}Co,\;^{85}Sr,\;^{103}Ru$ and $^{134}Cs$ in Rice

최용호,임광묵,박효국,이원윤,이창민,Choi, Yong-Ho,Lim, Kwang-Muk,Park, Hyo-Guk,Lee, Won-Yun,Lee, Chang-Mi Korean Association for Radiation Protection 2000 방사선방어학회지 Vol.25 No.1

For analyzing the direct contamination pathway of radionudides in rice plants, a Solution containing $^{54}Mn,\;^{57}Co,\;^{85}Sr,\;^{103}Ru$ and $^{134}Cs$ was applied to the aboveground Parts of the between RI application and harvest. Its highest observed value was 0.94. The fractions of the initial plant deposition that remained in rice plants at harvest were in the range of $19{\sim}47%,\;17{\sim}43%,\;19{\sim}42%,\;23{\sim}61%$ and $11{\sim}69%$ for $^{54}Mn,\;^{57}Co,\;^{85}Sr,\;^{103}Ru$ and $^{134}Cs$, respectively, when no decay was assumed. The translocation factors of those radionuclides in hulled seeds were in the range of $6.9{\times}10^{-4}3.8{\times}10^{-2},\;3.6{\times}10^{-3}{\sim}1.6{\times}10^{-1},\;5.8{\times}10^{-4}{\sim}3.2{\sim}10^{-2},\;1.6{\times}10^{-4}{\sim}7.6{\times}10^{-3}$ and $3.2{\times}10^{-2}{\sim}2.0{\times}10^{-1}$, respertively, and were highest when they were applied at the stage of active seed development. It was indicated that the remaining percentage and translocation factor would not be greatly affected by the difference in the rain frequency if it is within a factor of 2. These results can be utilzed for predicting the radionuclide concentrations in rice seeds when an accidental deposition of those radionuclides occurs during the rice-growing season. 벼의 방사성 핵종 직접오염 경로를 분석하기 위하여 동위원소 실험온실내에서 $^{54}Mn,\;^{57}Co,\;^{85}Sr,\;^{134}Cs$의 혼합용액을 벼의 생육중 여섯 차례에 걸쳐 작물체 지상부에 처리하였다. 작물체 차단계수는 핵종 간에 차이가 없었고 처리시기가 수확기에 가까울수록 증가하여 최고 약 0.94에 달리하였다. 작물계에 침적한 각 핵종의 수확시 잔류율은 방사능 붕괴가 없다고 가정할 예 처리시기에 따라 각각 $19{\sim}47%,\;17{\sim}43%,\;19{\sim}42%,\;23{\sim}61%,\;11{\sim}69%$였다. 종실 전류계수는 처리시기에 따라 각각 $6.9{\times}10^{-4}{\sim}3.8{\times}10^{-2},\;3.6{\times}10^{-3},\;1.6{\times}10^{-1}{\sim}5.8{\times}10^{-4}{\sim}3.2{\times}10^{-2},\;1.6{\times}10^{-4}{\sim}7.6{\times}10^{-5},\;3.2{\sim}10^{-2}{\sim}2.0{\times}10^{-1}$의 범위였고 모두 종실의 발육성기 처리시 가장 높았다. 강우 빈도의 차이가 2배 이내일 때는 강우빈도가 잔류율과 전류계수에 큰 영향을 미치지 않는 것으로 나타났다. 본 연구결과는 벼의 생육중 사고침적시 쌀알 내 핵종농도 예측에 활용될 수 있다.

요오드 증기($I_2$)의 무 작물체에 대한 침적속도 및 뿌리 전류계수 : 피폭실험 결과

최용호,임광묵,전인,박두원,금동권,Choi, Yong-Ho,Lim, Kwang-Muk,Jun, In,Park, Doo-Won,Keum, Dong-Kwon 한국방사성폐기물학회 2010 방사성폐기물학회지 Vol.8 No.2

In order to measure the deposition velocity of $I_2$ vapor for radish plants and its translocation factor for their roots, radish plants were exposed to $I_2$ vapor for 80 min. at different growth stages between 29 and 53 d after sowing. The exposure was performed in a transparent chamber during the morning time. Deposition velocities ($ms^{-1}$) were on the whole in the range of $1.0{\times}10^{-4}{\sim}2.0{\times}10^{-4}$ showing an increasing tendency with an increase in the biomass density. The results showed some agreement with existing reports that a higher relative humidity would lead to a higher deposition velocity. The acquired deposition velocities were lower than by factors of several tens than some field measurements probably due to a very low wind speed (about $0.2\;ms^{-1}$) in the chamber. Translocation factors (ratio of the total iodine in the roots at harvest to the total plant deposition), estimated in a more or less conservative way, were $1.3{\times}10^{-3}$ for an exposure at 29 d after sowing and $5.0{\times}10^{-3}$ for an exposure at 53 d after sowing. In using the present experimental data, meteorological conditions and chemical and physical forms of iodine need to be carefully considered.