• 한국환경과학회지
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• 제24권9호
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• pp.1131-1138
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• 2015

Radon exhalation rates have been determined for samples of concrete, gypsum board, marble, and tile among building materials that are used in domestic construction environment. Radon emanation was measured using the closed chamber method based on CR-39 nuclear track detectors. The radon concentrations in apartments of 100 households in Seoul, Busan and Gyeonggi Provinces were measured to verify the prediction model of indoor radon concentration. The results obtained by the four samples showed the largest radon exhalation rate of $0.34314Bq/m^2{\cdot}h$ for sample concrete. The radon concentration contribution to indoor radon in the house due to exhalation from the concrete was $31.006{\pm}7.529Bq/m^3$. The difference between the prediction concentration and actual measured concentration was believed to be due to the uncertainty resulting from the model implementation.

• 한국환경보건학회지
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• 제15권1호
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• pp.11-18
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• 1989

Indoor radon concentrations, measured in 34 houses and various types of underground environments in the Seoul area during February 1988 - January 1989, varied from 0.9 - 9.9 pCi/l. Radon concentrations in basements of the selected homes were about 1.5 times higher than those levels measured in the first floor. The radon level of the first floor in the energy efficient homes are signficantly higher than the conventional homes. Indoor radon levels in the underground pass were higher than any other types of underground environments. Variations among underground environments were much less than for homes, probably because there was less variability in ventilation.

• Journal of Radiation Protection and Research
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• 제20권2호
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• pp.79-83
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• 1995

과거 물분자와 전리방사선과의 상호작용에 의하여 생성된 방사능 극소입자에 관한 많은 연구결과가 보고되어 왔다. 특히 최근연구에서는 물분자의 방사성분해 에 의해 발생한 높은 농도의 수산화래디칼은 실내의 유기가스와 반응 후 저증기압의 화합물로 변하여 극소입자를 형성한다고 알려져왔다. 본 연구에서는 라돈의 첫째딸핵종인 Po-218에 대한 대기가스와 물분자와의 상호의존성을 조사할 목적으로, 실내가스의 최적제어가 가능한 라돈챔버를 사용하여 일련의 실험을 수행하였다. 제작된 정전기분광계를 사용하여 라돈의 첫째딸핵종인 Po-218이온에 대해 $0.07-5.0cm^2/V\;sec$ 범위의 이동도스펙트럼을 측정하였으며, 대기가스로 0.5ppm에서 5ppm까지의 $SO_2$가스를 사용하여 실험결과를 분석하였다. 라돈챔버내에 물분자의 첨가와 동 물분자의 방사성분해에 의하여 생성된 수산화래디칼에 의한 극소입자들의 형성과정을 확인하였으며 $PoO_x^+$ 이온 주변에 $SO_2$가스가 부착하면서 일어나는 화학반응에 대한 화학적 동특성연구를 수행하였다.

• Journal of Radiation Protection and Research
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• 제17권1호
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• pp.57-70
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• 1992

실내 라돈-222 자핵종의 농도에 피폭되므로서 유발될 수 있는 한국인의 초과 폐암위험을 방사선피폭의 확율론적 위험예측 모형을 이용하여 정량적으로 평가하였다. 1989년 기준 표준 생명표와 사망원인 통계연보 자료로부터 유도한 한국인의 폐암 사망률은 남, 여별로 각각 $22.4/10^5-$년 및 $9.5^/10^5-$년으로 추정 되었다. 이 폐암 사망율을 근거로 수학적으로 예상한 한 모든 사망원인하의 기저 폐암사망위험은 남, 여별로 각각 0.047(4.7%) 및 0.019(1.9%)로 1984년도 미국의 0.067(6.7%) 및 0.025(2.5%)보다 낮았다. 방사선 피폭의 확률론적 수정 상대위험 예측모형을 사용하여 예상한 한국인의 라돈자핵종 피폭당의 초과 폐암위험 계수는 남자 : 0.022/WLM, 여자 : 0.009/WLM 및 평균 : 0.017/WLM로 나타났으며 이로부터 추정한 한국인의 평균 수명중 라돈자핵종 피폭유발 초과 폐암의 사망빈도는 $230/10^6$인-WLM으로 최근 외국의 관련연구에서 보고한 $120{\sim}450/10^6-WLM$의 거의 중간치(median)정도에 해당하는 것으로 평가되었다.

• KIEAE Journal
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• 제1권2호
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• pp.21-28
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• 2001

Naturally-ocurring short-lived decay products of radon gas in indoor air are the dominant source of ionizing radiation exposure to the general public. It is written in BEIR VI Report(l999l the radon progeny were identified as the second cause of lung cancer next to cigarette or 10 % to 14 %(15,400 to 21,800 persons p.a.) of all lung cancer deaths in USA. Indoor radon concentrations in houses typically result from radon gaining access to houses mainly from the underlying soil. In the States, they have "Indoor Radon Abatement Act" which was converted from "Toxic Substance Control Act" in 1988 to establish the national long-term goal that indoor air should be as free of radon as the ambient air outside of buildings. To review and study techniques for controlling radon, two test cells were constructed for a series of tests and are under measuring indoor and soil gas (underneath of floor slab)radon concentrations according to EPA's measurement protocol. In this paper, important theoretical studies are previewed and the following paper will explain the test results and confirm the theories reviewed to find out suitable coefficients. On the basis of test analysis, it will be described and evaluated various techniques that can be used to mitigate elevated indoor concentration of radon including the control of radon and its decay products.

• 한국환경보건학회지
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• 제28권2호
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• pp.89-98
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• 2002

This study was taken in general hospital, hotel, shopping center, underground cafe, school, house, for the purpose of investigating the distribution of indoor radon concentration in urban area, by E-PERM which approved U.S. EPA, between August and November 1999. There are two sampling Places were exceed 148 ㏃/㎥(4 pCi/L; U.S EPA remedial level), difference mean is 24.0㏃/㎥ when compared with underground vs. aboveground indoor radon concentration in the same building and ratio is 1.6, so underground area is higher than aboveground (p<0.05). Influencing factors were examined. They related to the location of sampler(detector) open or near the door is lower radon concentration than inside portion, which explains probably open area has better ventilated air and dilutes indoor radon concentration. Temperature has a negative relationship (p<0.05) with indoor radon concentration and relative humidity has a positive (p<0.05) Simultaneously to investigate water radon concentration, collected piped-water and the results were very low, which is the same in piped-water concentration other countries. In conclusion, underground indoor radon concentration is higher than aboveground. Concentration was related to sampling spot, open portion is lower than inside. Higher the temperature, lower the indoor radon concentrations. On the other hand higher the relative humidity, higher the indoor radon concentrations. Indoor radon concentration is influenced by sampling point, temperature, relative humidity.

• 한국환경보건학회지
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• 제28권5호
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• pp.71-76
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• 2002

A survey of radon concentrations in both indoor and outdoor atmospheres was carried out using EIRM and Cup Monitor for the period of February 1996 to March 1997. EIRM were used to measure the indoor and outdoor radon concentration at five major cities university. Cup Monitor were also used to measure the indoor radon concentrations at shopping store, office building, apartment, hospital and house in Seoul. The mean indoor and outdoor radon concentrations at the five major cities(Seoul, Daegu, Daejon, Cwangiu and Busan) were 24.1 Bq/m$^3$and 8.62 Bq/m$^3$, respectively. The ratio of indoor to outdoor radon concentrations ranged front 1.7 to 3.9. Inspection of its seasonal distribute pattern indicates the enhancement during winter relative to summer, consistently for both indoor and outdoor air. The results of the survey showed that the concentrations in basements were clearly higher than those in usual living/working places.

• 한국컴퓨터정보학회논문지
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• 제25권1호
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• pp.117-124
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• 2020

본 연구는 실내공기질의 실시간 농도변화 분석을 통하여 일시적으로 기준값을 초과하는 항목에 대하여 원인 분석을 통하여 요양원의 쾌적한 실내공기질을 유지하기 위한 방안을 제안하고자 실시하였다. 요양원에서 미세먼지(PM10), 이산화탄소(CO2), 일산화탄소(CO), 휘발성유기화합물(VOC), 라돈(Radon) 등 5개 항목에 대하여 다목적 홀에서 봄(4월), 가을(9월)에 각1회 측정을 실시한 결과 측정 항목 모두 실내공기질 관리법에서 정한 기준을 만족하는 것으로 분석되었다. 실시간 농도 변화에 대한 분석 결과 병실의 경우 이산화탄소의 농도가 재실자 수에 의하여 기준치에 근접하는 수준을 보였으며 다목적 홀의 경우 이산화탄소 및 미세먼지는 주간보호 대상 어르신 및 근무자의 프로그램 활동과 휘발성유기화합물의 경우 식탁을 소독하기 위하여 사용하는 소독제(알코올) 및 만들기, 색칠하기 등의 프로그램 운용시 사용되는 보조도구(접착제)로 인하여 일시적으로 기준치를 초과하는 것으로 분석되었다. 결국 측정 대상 요양원에서는 온열환경을 고려하여 주기적인 환기, 천연소독제 사용 및 친환경 접착제 사용 등을 실시한다면 쾌적한 실내공기질 제공이 가능하고 요양원의 경쟁력 확보에도 기여할 것으로 판단된다.

• 한국환경보건학회지
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• 제33권4호
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• pp.264-275
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• 2007

The objective of this study was to offer basic and scientific data for decision-making of policy for improvement and management of radon, natural radiation gas, in Korea and to form the foundation of radon related international cooperation. Therefore, this study collected and re-analysed the articles on exposure of radon in various indoor environment in journals related environment in Korea since 1980 and estimated the annual exposure dose and effective dose by exposure of radon received by inhabitants in them. The highest pooled average radon concentration of $50.17{\pm}4.08\;Bq/m^3$ (95% CI : $42.17{\sim}58.17\;Bq/m^3$) was found in dwelling house among various indoor environment. All of pooled average radon concentration estimated in this study showed lower than the guideline concentration ($148\;Bq/m^3)$ of US EPA and the Korean Ministry of Environment. The annual effective dose received by inhabitants in various indoor environment was estimated 1.071 mSv/yr. That is equal to annual effective dose (1.0 mSv/yr) by exposure of radon estimated by UNSCEAR.

• Environmental Analysis Health and Toxicology
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• 제24권3호
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• pp.203-211
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• 2009

A lesser degree of research is available with respect to indoor radon characteristics associated with occupants' exposure. The present study evaluated the radon levels in several public-access buildings or underground facilities, and their temporal variation in underground facilities. Radon measurements were conducted in 2005 and 2006, utilizing a continuous radon detector. A solid alpha detector (RAD7) was utilized to measure indoor radon levels. The mean radon concentrations obtained from the building or facilities were in a descending order: platforms of Daegu subway line 2, 2005 (32 $Bq/m^3$), hot-air bathroom (14 $Bq/m^3$), basement of office building (14 $Bq/m^3$), underground parking garage (14 $Bq/m^3$), underground shop (12 $Bq/m^3$), nursery (10 $Bq/m^3$), platforms of Daegu subway line 2, 2006 (9.0 $Bq/m^3$), platforms of Daegu subway line 1, 2006 (8.9 $Bq/m^3$), supermarket (7.9 $Bq/m^3$), hospital (7.3 $Bq/m^3$), and second-floor of office building (5.7 $Bq/m^3$). In general, underground-level facilities exhibited higher radon levels as compared with ground-level facilities. It was suggested that ventilation is an important parameter regarding the indoor levels of a subway. There was a decreasing or increasing trend in hourly-radon levels in a subway, whereas no trend were observed in a basement of office building. In addition, the radon levels in the subway lines 1 and 2 varied according to the platforms. The radon levels in the present study were much lower than those of previous studies. The average annual effective dose (AED) of radiation from indoor radon exposure was estimated to be between 0.043 and 0.242 mSv/yr, depending on facility types. These AEDs were substantially lower than the worldwide average AED (2.4 mSv/yr).