Periáñez R
Dpto. Física Aplicada I, E.U. Ingeniería Técnica Agrícola, Universidad de Sevilla, Ctra. Utrera km 1, 41013 Sevilla, Spain.
J Environ Radioact. 2004;77(3):301-24. doi: 10.1016/j.jenvrad.2004.03.013.
A numerical three dimensional model to simulate the transport of Cs and Pu by the Rhone River plume has been developed. The model solves the hydrodynamic equations, including baroclinic terms (that account for density variations) and a turbulence model, the suspended matter equations, including several particle classes simultaneously, settling, deposition and erosion of the sediment, and the radionuclide dispersion equations. Exchanges of radionuclides between the liquid and solid phases are described in terms of kinetic transfer coefficients. The dependence of these coefficients with water salinity is explicitly included in the model since it changes from freshwater to seawater values in the model domain. Computed activity levels in water, suspended matter and bed sediments are, in general, in agreement with measurements in the area. The model can also give a wide amount of information, as distribution coefficients for total suspended matter and sediments and for each particle class, fractions of radionuclides fixed to solid particles, and vertical profiles of radionuclides and distribution coefficients.
已开发出一个数值三维模型,用于模拟罗纳河羽流中铯和钚的输运情况。该模型求解水动力方程,包括斜压项(考虑密度变化)和湍流模型、悬浮物方程(同时包括多个颗粒类别)、沉积物的沉降、沉积和侵蚀,以及放射性核素扩散方程。放射性核素在液相和固相之间的交换通过动力学转移系数来描述。由于模型域内从淡水到海水的盐度变化,这些系数与水盐度的依赖性在模型中被明确考虑。计算得到的水中、悬浮物和床底沉积物中的活度水平总体上与该区域的测量结果一致。该模型还能给出大量信息,如总悬浮物和沉积物以及每个颗粒类别的分配系数、固定在固体颗粒上的放射性核素分数,以及放射性核素和分配系数的垂直剖面。