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GAIA (Gangwon Association for Integrated Advanced) Educational System at Energy Technology University
GAIA (Gangwon Association for Integrated Advanced) Educational System at Energy Technology University
Education and research of CCUS (including reaction with steel slag), resource recycling (including steel slag and waste limestone powder), and mine water treatment
Efficiency assessment and development of operational technologies for processes in water treatment facilities
Efficiency assessment and development of operational technologies for processes in water treatment facilities
Treatment processes and operation conditions are optimized for active, semi-active, and passive treatment facilities in South Korea
Development of Source Identification and Apportionment Methods for Toxic Substances in Marine Environments
Development of Source Identification and Apportionment Methods for Toxic Substances in Marine Environments
Sources of contaminated marine sediments are identified and apportioned, using metal (Cu, Zn, Cd, Ni, and Pb) isotopes. Fractionations of metal isotopes are elucidated with experiments
Integrated environmental forensic approaches to trace source and pathways of subsurface contaminants
Integrated environmental forensic approaches to trace source and pathways of subsurface contaminants
Sources and pathways of groundwater and soil contamination are identified and apportioned, using metal (Cu, Zn, Cd, Pb) and S-O isotopes as well as PMF (positive matrix factorization)
Study on Analysis and Prediction of Treatment Efficiency of Water Treatment Facilities of Abandoned Mines
Study on Analysis and Prediction of Treatment Efficiency of Water Treatment Facilities of Abandoned Mines
Digital models for the automatic design of treatment facilities for mine drainage are developed, based on the algorithm establishment of (semi-)active and passive treatment technologies
Development of Processes to Remove Heavy Metals in Mine Drainages
Development of Processes to Remove Heavy Metals in Mine Drainages
Low-carbon water treatment technologies using steel slag to remove Mn are applied at the design stage. Efficient flow and baffle configurations for water treatment facilities are suggested
Improving Peru’s Mine Closure and Mining Environmental Liabilities Remediation Procedure in Support of SDG Achievement
Improving Peru’s Mine Closure and Mining Environmental Liabilities Remediation Procedure in Support of SDG Achievement
Treatment technologies for mine drainage are transferred to Peru which is one of the countries with substantial mineral deposits and vulnerability to the water scarcity problem
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