Peng Lai Wang scite author profile

Peng Lai Wang

2Publications

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Canadian Association of Emergency Physicians, China Academy of Engineering Physics

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The Environmental Effect of Radioactive Particles in the Contaminated Sites with Resuspended Plutonium Aerosols

Liu

Wang

Xiao

2013

AMR

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The plutonium material within the nuclear devices would be aerosolized and cause intense respirable hazards in the scenes of nuclear test and nuclear accident. The assessment of plutonium aerosol resuspension according to the typical radioactive contaminated sites would provide instructional data for the resuspended aerosol fluctuation study and edaphic cleanup, which can remedy the uselessness of aerosol diffusion model in the study of plutonium contaminated regions. The empirical model of plutonium aerosol resuspension is based on the aerophysics, the geognosy and the radiochemistry. This method was applied to analyze the representative plutonium contaminated regions. The results indicate that soil erosion is the intrinsic factor of resuspension process. The resuspended concentrations of plutonium aerosols in nuclear test sites are much less severe than those in the “non-nuclear” test sites (safety shots and simulated nuclear accident tests). Short-term, orders-of-magnitude fluctuations of the airborne concentrations are observed due to the natural and man-made disturbances. After systematic soil cleanup the resuspended plutonium aerosol concentration could fall down to the public allowable level.

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Brief Analysis of the Simulative Plutonium Aerosol Source-Term in the Circumstance of High Explosive Detonation

Liu

Wang

Xiao

2012

AMR

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The plutonium material in weapons grade nuclear device would be aerosolized and dispersed into the atmosphere if the device was involved in a high explosive detonation. It is significant to investigate the environmental and public hazard caused by the possible dispersion of plutonium. The original work is to determine the source terms of plutonium aerosol in certain nuclear accident scenario. In such scenario the inhalation of plutonium aerosols is the main human hazard source. Only the plutonium aerosols with aerodynamic diameter less than 10 μm are respirable and may ultimately lead to fatal human death. The field detonation test with plutonium by U.S. government is reviewed and the results indicate that for expected high explosive detonation scenario the plutonium source terms are 100 % aerosolization and 20 % respirable fraction. In order to find the aerosolized similarity of plutonium and several conventional metals, two detonation experiments in which the stannum foil and the vanadium powder are used as the replacement of plutonium respectively have been conducted by our group. After the detonation the metal aerosols are collected and analyzed. It has been found that the metallic powder is much easier to be aerosolized than the foil while the integrated aerosol source terms (respirable mass fractions) of stannum and vanadium are quite different with plutonium. Unlike the integrated aerosol data, the differential source terms (cumulative mass fractions via particle size) of the simulative samples are partially similar with plutonium.

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Peng Lai Wang

The Environmental Effect of Radioactive Particles in the Contaminated Sites with Resuspended Plutonium Aerosols

Brief Analysis of the Simulative Plutonium Aerosol Source-Term in the Circumstance of High Explosive Detonation

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