Page 92 - Beyond Decommissioning
P. 92
The phases of redevelopment 73
¸
G€ unce, K., Misirlisoy, D., 2015. Questioning the adaptive reuse of industrial heritage and
its interventions in the context of sustainability. Sociology Study 5 (9), 718–727. http://
www.davidpublisher.org/Public/uploads/Contribute/56974dbdbf975.pdf (Accessed on
29 December 2018).
International Atomic Energy Agency, 1998a. Radiological characterization of shut down
nuclear reactors for decommissioning purposes. Technical Reports Series No. 389, Vienna.
International Atomic Energy Agency, 1998b. Characterization of radioactively contaminated
sites for remediation purposes. IAEA-TECDOC-1017, Vienna.
International Atomic Energy Agency, 1999. State of the art technology for decontamination and
dismantling of nuclear facilities. Technical Reports Series No. 395, Vienna.
International Atomic Energy Agency, 2004. Planning, managing and organizing the
decommissioning of nuclear facilities: lessons learned. IAEA-TECDOC-1394, Vienna.
International Atomic Energy Agency, 2008. Innovative and adaptive technologies in
decommissioning of nuclear facilities. IAEA-TECDOC-1602, Vienna.
International Atomic Energy Agency, 2009. Integrated Approach to Planning the Remedia-
tion of Sites Undergoing Decommissioning. IAEA Nuclear Energy Series No.
NW-T-3.3, IAEA, Vienna.
International Atomic Energy Agency, 2011. IAEA Recommendations on a Decommissioning
2
2
Plan, Research Reactor Decommissioning Demonstration Project (R D P) Review of a
Decommissioning Plan. IFIN-HH, Bucharest-Magurele, Romania. 4–8 July 2011.
https://www-ns.iaea.org/downloads/rw/projects/r2d2/workshop10/presentations/iaea-
recommendations-on-decommissioning-plan.pdf (Accessed on 29 December 2018).
International Atomic Energy Agency, 2014. Decommissioning of Facilities, General Safety
Requirements. Safety Standards Series No. GSR Part 6, Vienna.
International Risk Group, 2008. International Risk Group Announces a National First—The Pri-
vatization of the Environmental Liability at the Former National Aeronautics and Space
Administration Industrial Plant in Downey, CA.
Interstate Technology & Regulatory Council, 2008. Decontamination and Decommissioning of
Radiologically Contaminated Facilities. https://www.itrcweb.org/GuidanceDocuments/
RAD5.pdf (Accessed on 29 December 2018).
OECD/Nuclear Energy Agency, 2013. Radiological characterization for decommissioning of
nuclear installations. Paris 2013.
Office for Design + Architecture South Australia, 2014. Adaptive Reuse, Design Guidance
Note.
Raimi, D., Decommissioning US power plants—decisions, costs, and key issues, RFF Report,
2017 http://www.rff.org/files/document/file/RFF%20Rpt%20Decommissioning%
20Power%20Pl ants.pdf (Accessed on 29 December 2018)..
Santifaller, E., Engel, J., Zimmermann, M., 2008. Transform. Zur Revitalisierung von
Immobilien. The Revitalization of Buildings (Text in German and English). PRESTEL
Publ. ISBN: 978-3-7913-4032-6.
Scadden, R.A., 2001. Adaptive reuse of obsolete power plants. In: Presented at A&WMA 94th
Annual Conference, Orlando, Florida.
US Department of Energy, 2015. Land and asset transfer for beneficial reuse. DOE/LM-1475.
https://www.energy.gov/sites/prod/files/2015/07/f24/DOE_LM-1475.pdf (Accessed on
29 December 2018).
World Nuclear News, 2010. License transfer for Zion decommissioning. 24 August 2010. http://
www.world-nuclear-news.org/RS-Zion_decommissioning_to_start_following_licence_
transfer-2408107.html (Accessedon29 December2018).
