ADMS atmospheric dispersion modeling system: Difference between revisions

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The ADMS (Atmospheric Dispersion Modelling System) is an advanced air pollution dispersion model for calculating the concentrations of air pollutants emitted both continuously from point, line, volume and area sources, or intermittently from point sources.[1] It was developed by Cambridge Environmental Research Consultants (CERC) of the United Kingdom (UK) in collaboration with the UK's Met Office, National Power plc[2] and the University of Surrey. The first version of ADMS was released in 1993 and the current version 4 was released in 2007.[1]

Typical applications

ADMS is used to model the environmental impact of existing or proposed industrial facilities. It can also be used to assess air quality with respect to the air quality standards such as the European Union Air Quality Directive,[3] the UK Air Quality Strategy,[4] the U.S. National Ambient Air Quality Standards (NAAQS) and the World Health Organization (WHO) Air Quality Guidelines.[5] Some typical applications are:

Features and capabilities

The model includes algorithms which take into account: downwash effects of nearby buildings within the path of the dispersing pollution plume; effects of complex terrain; effects of coastline locations; wet deposition, gravitational settling and dry deposition; short term fluctuations in pollutant concentration; chemical reactions; radioactive decay and gamma-dose; pollution plume rise as a function of distance; jets and directional releases; averaging time ranging from very short to annual; and condensed plume visibility. The system also includes a built-in meteorological data input preprocessor which allows a variety of input meteorological data. [1]

The model is capable of simulating passive or buoyant continuous plumes as well as short duration puff releases. It characterizes the atmospheric turbulence by two parameters, the boundary layer depth and the Monin-Obukhov length, rather the single parameter Pasquill class. [1]

ADMS can model up to 300 emission sources, of which: [1]

  • up to 300 may be point or jet sources
  • up to 30 line sources, 30 area sources and 30 volume sources, may be modelled simultaneously

The performance of the model has been validated against more than 15 measured dispersion data sets.[7]

Users of the ADMS

The users of ADMS include:

References