NWMO Engineer Wins Award for Best Poster

This picture depicts the NWMO’s Ulf Stahmer in front of his award-winning poster that discusses his method of presenting radiological dose in terms of a flight-time equivalent dose.

November 17, 2016

Toronto, Ont.

This picture depicts the NWMO’s Ulf Stahmer in front of his award-winning poster that discusses his method of presenting radiological dose in terms of a flight-time equivalent dose.

Ulf Stahmer’s poster depicting his concept to discuss radiological dose in terms of flight-time equivalent dose won him the best poster award at the 18th International Symposium on the Packaging and Transportation of Radioactive Materials (PATRAM 2016) held in fall 2016 in Japan.

A senior transportation engineer with the NWMO, Mr. Stahmer does engagement work around the transportation safety aspects of Adaptive Phased Management – Canada’s plan for the safe, long-term management of used nuclear fuel. In his communications with people, he wrestled with the idea of how to make the discussion of radiological dose more accessible to varied audiences.

“I wanted to be able to communicate radiation dose in a manner that would take the fear away because it’s difficult to learn if you are afraid,” he said. “There was a need to contextualize the concept in a more personal manner that people would be more apt to remember.”

After extensive thinking, pondering and calculating – literally, Mr. Stahmer developed an idea and methodology to contextualize dose. By relating the dose one would receive during a commercial flight at altitude to the time spent on the flight, radiological dose, from a large variety of sources, can be expressed in the more readily understood context of time. This method provides a more accessible way of discussing radiological dose than the internationally accepted, but less understood, unit of Sieverts.

For example, using Mr. Stahmer’s method, the world average annual natural background radiation dose of 2.4 mSv can be equated to 600 hours of flight-time equivalent dose expressed as 600 flight-hours. A 0.01 mSv dose from a dental X-ray can be expressed as 2.5 flight-hours, or the 0.07 mSv annual dose someone would receive from living in a stone or brick building is equivalent to 17.5 flight-hours.

“It’s simple, but not simple,” Mr. Stahmer said, noting it took time to develop the methodology, but the end result was exactly what he wanted. “It was exciting to see how easily people at the conference (over 600 in attendance) grasped the concept and how well understood it was. For me, the greatest reward was to see the excitement it generated from the international community represented at the conference.”

Mr. Stahmer is hoping to eventually publish his work in a journal, but in the interim, the NWMO is considering how to apply his method to the way it communicates radiological dose with the public. For his part, Mr. Stahmer is engaging in dialogues that are much more easily understood by his audiences.

 About the NWMO

The Nuclear Waste Management Organization (NWMO) is a not-for-profit organization tasked with the safe, long-term management of Canada’s used nuclear fuel inside a deep geological repository, in a manner that protects people and the environment for generations to come.

Founded in 2002, the NWMO has been guided for more than 20 years by a dedicated team of world-class scientists, engineers and Indigenous Knowledge Holders that are developing innovative and collaborative solutions for nuclear waste management. Canada’s plan will only proceed in an area with informed and willing hosts, where the municipality, First Nation and Métis communities, and others in the area are working together to implement it. The NWMO plans to select a site in 2024, and two areas remain in our site selection process: the Wabigoon Lake Ojibway Nation-Ignace area in northwestern Ontario and the Saugeen Ojibway Nation-South Bruce area in southern Ontario.

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