Acknowledgement
Grant : 폐광지역 도시광산 자원화단지 조성사업 타당성 기초연구
Supported by : 한국광해공단
References
- Department of Environment, 2009. Comprehensive Measures for Recycling Waste Metal Resources, MOE, Sejong, Korea, 44p.
- Mine Reclamation Group, 2014. A Feasibility Study on the Building of Urban Mining Using Abandoned Mining Facility and Abandoned Mines, Research Report (2014-072), Wonju, Korea, 205p.
- Mine Reclamation Group, 2013. A Study on the Development Model of Abandoned Mine in Korea, Research Report (2013-12), Wonju, Korea, 234p.
- Korea Institute of Geoscience and Mineral Resources, 2018. Korea Mineral Information 2017, KIGAM, Daejeon, Korea p.1-88.
- Harada, K., 2008. Concept and Technology for Utilizing Urban Mines. NIMS NOW International, 6(5), 26-34.
- KITECH. 2018. 11. 15, https://www.retech-platform.or.kr
- Resource Circulation Technology Platform, 2018.11.10., https://www.retech-platform.or.kr.
- NTIS, 2018.11.23, https://www.ntis.go.kr.
- Umicore, 2018.10.16, http://www.preciousmetals.umicore.com.
- Korea Development Institute, 2008. Preliminary Feasibility Study Guidelines for Public Institutions Projects, KDI, Seoul, Korea, p.20-156.
- Allbaro System, 2018.8.16, https://www.allbaro.or.kr.
- Korea resource recirculation information system, 2018.9.5, https://www.recycling-info.or.kr.
- Korea Environment Corporation, 2016. Waste generation and disposal nationwide, KEC, Seoul, Korea, 886p.
- Hong J.P., 2012. Study for the Ways to Activate the Urban Mining Industry in Korea : Focused on Resources of the Urban Mining Concept. MS Thesis, Yonsei University, Korea, 124p.
- Shin, H. J., Kang, H, Y., and Chung, W. J., 2013a. Importance of technology development for urban mining industry and future directions. Korean J. Metals and Materials, Trends in Metals and Materials Engineering, 26(2), 4-13.
- Shin, H.J., Kang, H.Y., and Jung, W.J., 2013b. The importance and future direction of technology development in urban mining industry. Materials Information, 26, 4-13.