Neutronic analysis of the Diagnostic Equatorial Ports in ITER

•Reduction of the streaming around Equatorial Ports.•Solutions for the mitigation of narrow gap streaming.•Importance of the environment and the radiation cross talk. The Diagnostic Port Plugs provide an infrastructure for integrating the diagnostics necessary to operate the machine, while withstand...

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Bibliographic Details
Published in:Fusion engineering and design 2015-10, Vol.98-99, p.1427-1431
Main Authors: Suarez, Alejandro, Bertalot, Luciano, Maquet, Philippe, Pitcher, Charles Spencer, Portales, Mickael, Serikov, Arkady, Udintsev, Victor, Walsh, Michael
Format: Article
Language:English
Subjects:
Cross talk
Design engineering
Diagnostic systems
Dosage
Dose rates
ITER
Neutronics
Port plug
Ports
Shielding
Shutdowns
Tasks
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Summary:•Reduction of the streaming around Equatorial Ports.•Solutions for the mitigation of narrow gap streaming.•Importance of the environment and the radiation cross talk. The Diagnostic Port Plugs provide an infrastructure for integrating the diagnostics necessary to operate the machine, while withstanding the nuclear and mechanical loads. They have to provide neutron shielding in order to ensure accessibility to the Port Interspace (PI) region for maintenance operations. This report is about the study to mitigate the ITER Shutdown Dose Rate in Port Interspace. This is a strong design driver for the Equatorial Port Plugs (EPPs) requiring a neutron attenuation of 7 orders of magnitude while maintaining the weight limit. To achieve this challenging task, the design has evolved to an improved double labyrinth configuration with welded shims at the back of the EPP to reduce the gap with the Vacuum Vessel Port Extension. This proved to be very successful for this task. Neutron stoppers have been placed after the gaps necessary for the insertion of the Diagnostic Shielding Modules (DSMs) housed inside the EPP. Effort was also placed in the further development of the DSMs. The latest design relies on a stainless steel structure and lightweight efficient neutron absorbing materials inside. Studies of cross talk with lower ports and the influence of the streaming through the blanket area are presented to give the status of the radiation environment in the Port Interspace region and their contribution to the Shutdown Dose Rate (SDR).
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2015.06.091