Assessment of Impact of Russian Nuclear Fleet Operations on Russian Far Eastern Coastal Regions
The main purpose of this study is evaluation of the atmospheric transport of pollutants from the Vladivostok and Kamchatka nuclear risk sites (NRSs) - nuclear submarines and radioactive storage facilities -- located at the Russian Far East. The evaluation is given from the probabilistic point of vie...
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| Format: | Book |
| Language: | English |
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IR-02-004
2002
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| Online Access: | https://pure.iiasa.ac.at/id/eprint/6780/ https://pure.iiasa.ac.at/id/eprint/6780/1/IR-02-004.pdf |
| Summary: | The main purpose of this study is evaluation of the atmospheric transport of pollutants from the Vladivostok and Kamchatka nuclear risk sites (NRSs) - nuclear submarines and radioactive storage facilities -- located at the Russian Far East. The evaluation is given from the probabilistic point of view. The main question is: What is the probability for a radionuclide atmospheric transport to the neighboring countries in the case of an accident at the nuclear risk sites in the Russian Far East? To answer this question, we applied two research tools. The first tool is the isentropic atmospheric trajectory model to calculate trajectories originating at two NRSs. The second tool is the statistical analyses - exploratory, cluster, and probability field analyses -- to explore the structure of the calculated trajectory data sets seasonally, monthly, and year-to-year. The selected regions of potential impact due to atmospheric transport -- Japan, China, North and South Koreas, State of Alaska, and Aleutian Chain Islands. Additionally, we discussed possible approaches to investigate impacts of the radionuclide removal processes during atmospheric transport. The main findings of these study are: (1) For both NRSs: -- The westerly flow is dominant throughout the year in the boundary layer (more than 60% of the time). At altitudes of the free troposphere, the probability of transport from the west increases up to 85% of the time. -- The relatively rapid westerly flow toward the North America reaches maximum occurrence during fall-winter (8-11% of the time) and during winter-spring (12-13% of the time) for the Kamchatka and Vladivistok NRSSs, respectively. (2) For the Vladivostok NRS: -- The North China and North Japan regions are the highest risk of possible impact in comparison. The lower (and upper) bounds of the Vladivostok NRS's possible impact are about of 32 (54) and 35 (87)% for the North China and North Japan regions, respectively. -- On average, atmospheric transport to these regions could occur in 0.5 and 1.6 days, ... |
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