An et al. (2016) |
South Korea |
Evaluate the atmospheric dispersion of radioactive material (cesium-137) according to local climatic conditions and emission conditions. |
Analyze the characteristics of radioactive dispersion in the atmosphere. |
Auxier, Auxier e Hall (2017) |
United States |
Review and compare the different codes that were developed to predict the consequences of chemical weapons. |
Hysplit presents prediction capability of nuclear precipitation. |
Chai, Draxler e Stein (2015) |
United States; Canada and Europe |
Determine if global monitoring networks can be used to quantify temporal variations of emissions from a known source site. |
Assist in the creation of a transfer coefficient matrix (TCM) to test an inverse emission estimation system. |
Felsberg et al. (2018) |
Germany and France |
Evaluate the ability to simulate kriptton-85 dispersion emitted by a nuclear fuel reprocessing power plant in northwestern France. |
Simulate Kr-85 transport in Europe over three periods of time. |
GeYang e Ou (2018) |
China |
Design a set of dynamic surveillance systems against chemical accidents structured from the internet of things, embracing the principles of speed, simplicity and reliability. |
Quantitatively simulate the diffusion model of a particular type of air pollution from a chemical accident. |
Katata et al. (2015) |
Japan |
Estimate detailed atmospheric releases during the Fukushima Daiichi Nuclear Power Plant accident using a reverse estimation method that calculates radionuclide release rates by comparing air concentration measurements of a radionuclide or its ambient dose rate with those calculated by atmospheric and oceanic transport, dispersion and deposition models. |
Compare the numerical simulations of three atmospheric dispersion models (Hysplit, MLDP0 and Name) with the observations using new source term estimates. |
Leelossy et al. (2017) |
Europe |
To evaluate the performance of the online WRF-Chem Eulerian, Hysplit and Raptor Lagrangian models and to indicate uncertainties in a complex climate situation in Central Europe, on November 4, 2011. |
Hysplit has been adopted as a reference model against the online WRF-Chem Eulerian and Raptor Lagrangian models for simulating radioactive plume dispersion and spatial distribution of I-131 in Central Europe. |
Pirouzmand, Kowsar e Dehghani (2018) |
Iran |
Simulate the consequences of a blackout at the cooling station of the Bushehr-1 Nuclear Power Plant and the subsequent loss of large amounts of liquid used in this process. |
Evaluate radionuclide dispersion and transport to a limited number of fission products released under a hypothetical accident. |
Ramana, Nayyar e Schoeppner (2016) |
India |
Describe different chemical explosions and examine how such explosions could occur at the Kalpakkam Reprocessing Plant and discuss the results of a simulation of atmospheric dispersion, including a calculation of the potential radiation dose for the exposed population. |
Calculate the radioactivity atmospheric dispersion of an explosion in a reprocessing waste tank. |
Rolph, Ngan e Draxler (2014) |
United States |
Model the dispersal, deposition, decay of nuclear debris and calculate the radioactive dose rates following the detonation of six relatively small nuclear devices in the 1950s, in Nevada. |
Configure the model with various particle size and activity distributions obtained from various published sources, and calculate dose rate contours for various nuclear tests at the site studied. |
Silva et al. (2018) |
Brazil |
Simulate the air mass trajectories of two case studies: a natural event (volcano eruption) and a chemical accident that generated fire in the port region of Guarujá, São Paulo. |
Simulate the air mass trajectories of the analyzed events. |
Simsek et al. (2014) |
Europe; Turkey |
Simulate the transport and disposal of Cs-137 over Europe that occurred after the Chernobyl Nuclear Power Plant accident. |
Calculate the total Cs-137 deposition (wet and dry) and surface air concentrations that occurred in Europe and Turkey after the Chernobyl nuclear reactor accident. |
Vali et al. (2018) |
Iran |
Evaluate radiation doses for residents of Tehran province following a hypothetical accident in the Tehran Research Reactor (TRR), including determining any protective actions that may be necessary for the benefit of human health. |
Calculate the concentration of radionuclides in the air and the one deposited on the soil surface as a result of a hypothetical release of radionuclides from the TRR following a hypothetical accident scenario. |
Wu et al. (2015) |
China |
Detect the arrival of radionuclides through atmospheric transport after the Fukushima Daiichi nuclear power plant accident in Lanzhou, China. |
Simulate the path of the air masses of the Fukushima crash that arrived in Lanzhou, China. |
Zhang et al. (2015) |
Hungary |
Investigate the temporal variations of radionuclides discharged from the Fukushima Daiichi nuclear power plant accident, from aerosol sample collections in Osaka, Japan. |
Verify the direct air mass transportation from Fukushima area to Osaka city. |