For example, Lavandula angustifolia ‘Nana Alba’, pictured, has narrow leaves ( angustifolia) and is compact (‘Nana’) with white flowers (‘Alba’). To request the meteorological data for specific points, please email to | View Google Earth Map for Locations of Data Points One-Hour NO 2 Modeling DataĪDEQ compiled five-year hourly ozone ambient air quality monitoring data for 12 ozone monitors across Arizona and one monitor in California. Latin names can give you useful information about a plant, including its colour, where it originates from and growth habit. The Permittee may open the KMZ file in Google Earth and find the points of interest for a particular project.
#Latin for dispersio full#
A full listing of these points is shown in the following KMZ file. The dataset has approximately 2,000 data points (a point is the center of a grid cell) within the State of Arizona. The EPA has generated a nationwide prognostic meteorological dataset for 2013-2015 (12km WRF simulations for CONUS and MMIF processed data for each 12km grid cell). The ADJ_U* option was used to process all meteorological data | View Data > EPA's 2013 - 2015 Prognostic Meteorological Data Data are available for the five-year period of 2014 to 2018 for eleven stations across Arizona and one station in California. It is recommended but not required that the Permittee attaches a completed modeling checklist to a modeling report when submitting a permit application | See Checklist > ADEQ AERMET Pre-processed Meteorological DataĪDEQ processed the meteorological data using AERMET version 19191 and AERMINUTE version 15272 and AERSURFACE version 13016. This checklist provides assistance to the Permittee required to perform modeling analyses for a minor NSR permit. ADEQ Modeling Guidance for PermitsĪDEQ has developed a guidance document to help applicants understand air quality modeling procedures with regard to Air Quality Permit applications for sources located in Arizona under ADEQ jurisdiction | See Guidance > ADEQ Modeling Checklist for Minor NSR Permits For example, these models are used to determine compliance with National Ambient Air Quality Standards (NAAQS) and other regulatory requirements, such as New Source Review (NSR) and Prevention of Significant Deterioration (PSD) regulations.
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How are dispersion models used?ĭispersion models can be used to determine whether a new source will adversely impact an area or to predict whether the control of an individual source will have a beneficial effect. Based on emissions source and meteorological data as well as topography information, a dispersion model calculates an estimate of the downwind concentration of pollutants as they travel away from emissions sources. Air dispersion modeling provides a visual mathematical simulation of how air pollutants disperse in the ambient atmosphere.