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These simulations are based on publicly available data and original assumptions. Audience should be aware that accuracy of calculation is limited. We would appreciate audience matter-of-factly comprehend our results. We frequently update the calculation whenever additional information is obtained.
| Date 2011-03-25 | 2011-03-26 | 2011-03-27 |
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| Items | Contents | Reference |
|---|---|---|
| Models | Meteorological model:RAMS, Particle transport model:HYPACT | ATMET |
| Period | March 12th, 2011 - April 7th, 2011 | |
| Range | 600 km x 600 km with Fukushima Daiichi Nuclear Power Plant in its center | |
| Horizontal lattice | Grid1:600×600[km]、10km mesh | |
| Vertical lattice | σ-z coordinate system, Grid with 20km altitude divided into 30 layers | |
| Radioactive material released | Iodine - 131 | |
| Release rate[Bq/s] | Assumption based on released amount estimated by Nuclear Safety Commission*1 | |
| Release height | Normal:30m, Explosion:30m-200m | Based on press release |
| Decay process | Radioactive decay, dry deposition and wet deposition by precipitation | |
| Dry deposition velocity | 0.01m/s | |
| Washout parameter α | 1.2×10-4 | |
| Washout parameter β | 0.8 | |
| Number of released particles | ca. 20 million particles | |
| Meteorological data | MSM (Meso Scale Model) isobaric surface data and AMeDAS precipitation*2 | Japan Meteorological Agency |
| Topography data | 50m mesh numerical map | Geospatial Information Authority of Japan |
*1 At this point of time, accurate release amount is still unknown. We estimated the release ratio by multiplying coefficient and dose rate at main gate of the facility.(Fig.2)
*2 Precipitation map made from AMeDAS data was derived and applied because precipitation data produced by a meteorological model was not sufficient.
(C)2011 Visible Information Center, Inc.