RAdiation and Magnetohydro Dynamics Advanced Lab

방사선안전및자기유체역학연구실

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O Magnetohydrodynamics Application
The research is focused on the magnetohydrodynamic (MHD)analysis and experimental characterization for the liquid metal transportation in fast reactor, accelerator, and MHD plasma electricity generation system for the future green energy. The MHD pump is also developed for circulation of lead and lithium target material on accelerated beam.)
O Environmental Radiation Safety and Nuclear Decommissioning
The research covers the establishment of the environmental radiation monitoring system around nuclear installations. The main interest is concerned with radiation monitoring and radioactivity analysis of the radioactive wastes from nuclear power plants. The D&D technology for the environmental restoration of the dismantled nuclear power plant (NPP) site is developed.

Major research field

Nuclear D&D, MHD pump for micro reactor and accelerator, MHD plasma generation, Environmental radiation monitoring

Desired field of research

Non-contact MHD based metallic radioactive waste transportation

Research Keywords and Topics

In-situ radiation monitoring system for NPP D&D site
Radiological dose assessment of residents near the nuclear installations and radiation worker
Development of the system for quick environmental radiation monitoring
Development of alpha/beta/gamma portable monitoring technology for nuclear D&D
Development of block chain based radioactive waste management IOT platform
Development of treatment of the contaminated tanks from nuclear decommissioning
Development of radiocarbon treatment system
Development of the liquid lithium transportation MHD pumping system in the accelerator
Design analysis of MHD plasma generation system for new renewable energy
Development of the MHD pump for liquid metal reactor

Research Publications
MORE

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT / Development of mobile scanning system for effective in-situ spatial prediction of radioactive contamination at decommissioning sites / Lee, Chanki; Park, Se-Won; Kim, Hee Reyoung / 2020-06
INTERNATIONAL JOURNAL OF ENERGY RESEARCH / The variable analysis of an MHD generator with electrical output of 10 kW for application to bi-plant method electricity generation / Lee, Geun Hyeong; Kim, Hee Reyoung / 2020-08
IEEE TRANSACTIONS ON NUCLEAR SCIENCE / Development of In Situ Selective Beta-Ray Distribution Detection Technology Based on Gamma-Ray Sensitivity Difference / Bae, J. W.; Lee, U.; Lee, C. W.; Kim, Hee Reyoung / 2018-03

Patents

Assembled magnetohydrodynamic pump for gen-IV small modular lead-bismuth cooled fast reactor, Jaesik Kwak / Hee Reyoung Kim / 2018.
Large Area Beta-ray Monitoring System Using Scintillating Fiber / UkJae Lee, Hee Reyoung Kim / 2018.

국가과학기술표준분류

  • EG. 원자력
  • EG06. 핵연료주기·방사성폐기물 관리기술
  • EG0606. 원자력시설 제염/해체 및 환경복원 기술

국가기술지도분류

  • 환경/에너지 프론티어 진흥
  • 031700. 미래형/일체형원자로기술

녹색기술분류

  • 에너지원기술
  • 원자력/핵융합
  • 233. 고속로 기술 기타 기술

6T분류

  • 기타 분야
  • 기타 분야
  • 070000. 위의 미래유망신기술(6T) 103개 세분류에 속하지 않는 기타 연구