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Real-time monitoring/emergency response workstation using a 3-D numerical model initialized with SODAR

机译：使用sODaR初始化的三维数值模型的实时监控/应急响应工作站

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Many workstation based emergency response dispersion modeling systems provide simple Gaussian models driven by single meteorological tower inputs to estimate the downwind consequences from accidental spills or stack releases. Complex meteorological or terrain settings demand more sophisticated resolution of the three-dimensional structure of the atmosphere to reliably calculate plume dispersion. Mountain valleys and sea breeze flows are two common examples of such settings. To address these complexities, we have implemented the three-dimensional-diagnostic MATHEW mass-adjusted wind field and ADPIC particle-in-cell dispersion models on a workstation for use in real-time emergency response modeling. Both MATHEW and ADPIC have shown their utility in a variety of complex settings over the last 15 years within the Department of Energy's Atmospheric Release Advisory Capability project.

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作者
Lawver, B. S.; Sullivan, T. J.; Baskett, R. L.;
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年度 1993
页码 1-4
总页数 4
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Radiation Monitoring ; Computerized Simulation ; Dosimetry ; Meteorology ; Real Time Systems ; S Codes ; Three-Dimensional Calculations ; Meetings;

机译：辐射监测;计算机模拟;剂量学;气象学;实时系统; s代码;三维计算;会议;

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8. Real-time monitoring/emergency response workstation using a 3-D numerical model initialized with SODAR. [R] . Lawver, B. S., Sullivan, T. J., Baskett, R. L. 1993

机译：使用sODaR初始化的三维数值模型的实时监控/应急响应工作站。

Real-time monitoring/emergency response workstation using a 3-D numerical model initialized with SODAR

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