Nuclear Energy and Safety
person in charge | 김민주 | Related research area | |
---|---|---|---|
Contacts | 052-217-1454 | kimminjoo@unist.ac.kr | |
Goverment department | [MSIT]과학기술정보통신부/[MOE]교육부 | Announcing institute | [NRF]한국연구재단 |
○ Nuclear Energy Development Program
Intended to advance nuclear energy and secure core technology by developing future-based core technology in order to safely provide energy, solve climate change, and improve national welfare
Funded Fields : Future nuclear reactor system, nuclear fuel cycle, Koreas Original Nuclear Technology (KonFI)
Funded Period : 5 years (3+2 years)
Eligibility : Universities, research institutes, companies
Budget : Total KRW 142 billion
Funding Details :
Design technology for 4th-generation nuclear energy systems (SFR and VHTR)
Development for Pyro processing for the recycling of used nuclear fuel
○ Nuclear Energy Research Infrastructure Program
Supports the establishment of facilities and equipment for nuclear R&D and its joint utilization, as well as systematically fostering core human resources in the field of nuclear energy
Funded Fields : Establishment and operation of research facilities and equipment, joint utilization of research facilities, core basic research for nuclear energy, and the education of researchers
Funded Period : 1 ~ 5 years
Eligibility : Universities, research institutes, companies
Budget : Total KRW 21.6 billion
Funding Details :
Expansion of facilities and equipment for R&D which are necessary for performing nuclear energy R&D, and joint utilization of large-scale nuclear energy research facilities
Basic research in the field of nuclear core technology and human resource training
○ Radiation Technology Development Program
Designed to secure the public safety by gaining a foothold in creating value added technology, promoting health, and developing advanced non-destructive testing and nuclear activity detection technology using radiation technology
Funded Fields : Radiation fusion, medical technology and advanced non-destructive testing technology, Prediction/Detection/Reduction Technology of Radioactive Contamination and related fields
Funded Period : 2~5 years (3+2 years)
Eligibility : Universities, research institutes, companies
Budget : Total KRW 42.4 billion (per year)
Funding Details :
Development of radiation fusion and medical technologies which use radiation and radioactive isotopes
Development of advanced non-destructive testing technology which maximizes the safety of industrial and public facilities
○ Radiological Research Infrastructure Support Program
Designed to contribute to the facilitation of national research into the utilization of radiation by constructing facilities for performance evaluation and conducting experiments on radiation generation, as well as related equipment
Funded Fields : Construction of facilities and equipment for radiological devices
Funded Period : 5 years (3+2 years)
Eligibility : Universities, research institutes, companies
Budget : Total KRW 4.8 billion (per year)
Funding Details :
Construction of a 3,300m2 laboratory for research into radiological devices
Construction of equipment to process, assemble, and test the parts of radiological devices
○ International Cooperation Program for Nuclear Energy
Aimed at increasing international prestige by expanding nuclear energy technology overseas and participating in international activities
Funded Fields : Establishment of a future nuclear cooperation system, advancement of Korea-US nuclear cooperation
Funded Period : 5 years
Eligibility : Universities, research institutes, companies
Budget : Total KRW 6.5 billion
Funding Details :
Participating in joint research with advanced countries to secure future nuclear technology
Organizing and operating a system to revise the agreement on Korea-US nuclear cooperation
Reinforcing multilateral nuclear cooperation with international organizations and conducting bilateral joint projects
Supporting overseas expansion of nuclear technology to foreign countries and funding systems for international nuclear technology cooperation
○ Planning & Evaluation Program for Nuclear Energy R&D
Supports Planning and Evaluation for Nuclear R&D Programs
Funded Fields :Planning, management and evaluation of nuclear R&D programs
Nuclear energy R&D policies
Funded Period :1 years
Eligibility : Universities, research institutes, companies
Budget : Total KRW 3.8 billion
Funding Details :
Global nuclear technology trend analysis
Research on national nuclear R&D policies
○ National project to establish platform to develop the new concept therapy using radioisotope-applied technology (Korea Drug Development Platform using Radio-isotope
Intended to support the establishment of platform system for development of therapeutic radiopharmaceuticals and new drug candidates by radioisotope.
Funded Fields : Construction of facilities and equipment for develop the radiopharmaceuticals and new drug candidates by radio-isotope
Funded Period : 5 years
Eligibility : Universities, Research institutes
Budget : Total KRW 94.18 billion
Funding Details :
Construction of convergence translational research center
Introduction of equipment for convergence translational research center
Research of process technology for develop the therapeutic radiopharmaceuticals
Establishment of safety and efficacy verification system for radiopharmaceuticals and drug candidates
Collaboration-based research using radioisotope-applied technology
○ Korea Heavy Ion Medical Accelerator Project
Aimed at strengthening the competition of the national science and technology by securing original technology of the cutting edge radiological and medical sciences
Funded Fields : Construction of facilities and equipment for the heavy-ion treatment
Funded Period : 8 years (2010-2017)
Eligibility : Universities, research institutes
Budget : KRW 195 billion
Funding Details :
Conceptual and Technical design of the accelerator for heavy-ion therapy
Development and installation of 430MeV/u heavy-ion accelerator through domestic and international collaboration
Establishment of protocol and DB for clinical adaptation of heavy-ion therapeutic system