26–30 Jun 2017
Europe/Vienna timezone

SIMPAX: A Prototype Software Application Simulating the Impact of Radioxenon Emissions from Civil Sources on IMS Stations

Not scheduled
Poster 2. Events and Nuclear Test Sites

Speaker

Abdelhakim Gheddou (CTBTO Preparatory Commission)

Description

The Comprehensive Nuclear-Test-Ban Treaty (CTBT) established a global monitoring system for atmospheric xenon radioactivity as part of the International Monitoring System (IMS).
During the International Noble Gas Experiment (INGE), a significant correlation between radio-xenon background and geographical region was observed. Investigations on the radio-xenon background have highlighted that different nuclear civil applications were contributing to this background. The major contributors to this background are a few Medical Isotope Production Facilities dispersed all around the world; other smaller contributors are Nuclear Power Plants and Hospitals.

The radio-xenon background makes the discrimination between radio-xenon detections from civil nuclear applications and from nuclear testing a very complex task. The scientific challenge is to develop algorithms and tools that facilitate the understanding of the background. The longer-term vision is to eventually predict the impact of civil sources on the radio-xenon detections at the IMS stations. With the goal of gaining first experience and scientific insight, a prototype software application is developed at the International Data Centre (IDC) to calculate hypothetical radio-xenon concentrations at IMS stations, based on a combination of source-receptor sensitivity (SRS) fields and estimated civil radio-xenon releases. The software tool is baptized SIMPAX – Prototype (Simulated IMPAct of Xenon).

The contribution aims at presenting the key features of SIMPAX prototype in terms of simulation model, input definition and output format.

Primary author

Abdelhakim Gheddou (CTBTO Preparatory Commission)

Presentation materials