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Technical Paper
Effects of Ventilation and Forced Air Movement on the Activity Concentration of 222Rn and 220Rn
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- 발행기관
- 대한방사선방어학회 바로가기
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- 간행물
- 방사선방어학회지 KCI 등재 SCOPUS 바로가기
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- 통권
- VOLUME 50 NUMBER 2 (2025.06)바로가기
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- 페이지
- pp.132-139
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- 저자
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- 언어
- 영어(ENG)
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- URL
- https://www.earticle.net/Article/A469060
원문정보
초록
- 영어
- Background: Radon (222Rn) and thoron (220Rn) are naturally occurring radioactive gases with significant differences in half-life, influencing their indoor behavior. Radon has well-documented health risks and mitigation strategies, but thoron has received less attention. This study explores thoron behavior in relation to air flow dynamics and ventilation conditions used to mitigate radon levels. Materials and Methods: Controlled experiments were conducted from February to June 2021 in an empty basement room and a laboratory simulation. Radon and thoron activity concentrations were measured using Durridge RAD7 radon monitors. Forced air movement was achieved through a fan, and ventilation conditions were simulated in the laboratory using air pumps with inline flow control valves. The exhaust state varied between closed and open air systems. Results and Discussion: The experiments revealed that while radon concentrations were stable or decreased under both forced air movement and increased ventilation rates, thoron concentrations displayed an inverse relationship with forced air movement, irrespective of an open or closed air system. Additionally, thoron required much higher ventilation rates (>50 air changes per hour [ACPH]) to reduce concentration levels that radon achieved with much lower rates (1–10 ACPH). This suggests certain ventilation strategies might inadvertently elevate thoron levels despite reducing radon levels, indicating a nuanced interaction between thoron concentration and air flow dynamics. Conclusion: This study underscores the importance of considering thoron’s unique behavior when implementing ventilation strategies for indoor radioactive gas mitigation. It calls for a nuanced approach to managing air flow dynamics to effectively reduce both radon and thoron levels. Further research is needed to refine models for ventilation strategies in radiation hazard mitigation for radon and thoron.
목차
ABSTRACT
Introduction
1. Quick Background
2. Distribution of Radon and Thoron in an Indoor Setting
3. Identified Health Risks and Mitigation Strategies
Materials and Methods
1. Study Period and Design
2. Experimental Settings and Equipment
3. Basement Room with Forced Air Movement
4. Laboratory-Based Apparatus
Results and Discussion
1. Basement Room
2. Lab-Made Apparatus for Simulating Radon and Thoron Emission
3. Experimental Pitfalls, and Where to Go from Here
4. Comparison to Other Reported Ventilation Rates
Conclusion
Article Information
References
키워드
Radon Thoron Indoor Air Quality Ventilation Radiation Mitigation저자
간행물 정보
발행기관
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- 발행기관명
- 대한방사선방어학회 [Korean Association For Radiation Protection]
- 설립연도
- 1975
- 분야
- 자연과학>기타자연과학
- 소개
- 회원 상호간의 협조와 친목을 도모함으로써 방사선방어에 관한 제반연구 및 발전에 이바지함을 물론 학술의 국제교류 및 국제학술단체와의 상호협력 증진에 기여함을 목적으로 하며, 이 목적을 달성하기 위하여 다음 각 호의 사업을 한다. 1. 방사선방어에 관한 학술연구발표회 및 강연회 등의 개최 2. 학회지 및 방사선방어에 관한 학술간행물의 발행 및 배포 3. 방사선방어에 관한 학술의 국제교류 및 협력 4. 방사선방어에 관한 국제학술자료의 조사, 수집 및 번역 5. 방사선방어에 관한 조사 및 연구용역 6. 회원의 연구활동을 위한 제반협조 7. 기타 본 학회의 목적 달성에 필요한 사항
간행물
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- 간행물명
- 방사선방어학회지 [Journal of Radiation Protection and Research]
- 간기
- 계간
- pISSN
- 2508-1888
- 수록기간
- 1976~2026
- 등재여부
- KCI 등재,SCOPUS
- 십진분류
- KDC 559 DDC 629
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