CANARINA:
DISPER:
SOLUTIONS: DISPER
COMMANDS:
ALGORITHMS:
EMISSIONS:
GRAPHS:
XZ-Planes (perpendicular to ground surface):
In such a case, the program window is a XZ-plane (perpendicular to the ground surface). A pollutant point source (stack) is represented by a small square. In the Status bar at the bottom, we have X,Y and Z coordinate values in meters and data on our environmental system. Point the mouse where you want in the program window and the X,Y and Z values will be shown in the status bar at the bottom. On the left bottom corner, a text box appears: the pollutant concentration value (micrograms per cubic meter, ug/m3). Point the mouse where you want in the program window and the concentration value will be shown in the text box. The pollutant concentrations will be calculated in a perpendicular plane to the ground surface (XZ-Plane). The plane height will be determined by the user (yr).
All the points of the XZ-Plane will be to a yr height. The yr value is chosen by the user before the calculation. We will be able to make many calculations considering different plane heights. The different plane heights will be determined by the user (yr values). In this way, the physical form of the pollutant plume can be studied.
Example 2:
Both XY-Calculation and XZ-Calculation have been used in our simulation. In this way, the physical form of the pollutant plume can be obtained. Calculation in both XY-plane (parallel to ground surface) and XZ-plane (perpendicular to ground surface). The fucshia squares represent three point sources (stacks). The red colour represents high pollutant concentrations. Pollution map of Nitrogen oxides (NOx) produced by en industrial stack. The wind angle is 0 degrees (N), the wind velocity is 5 m/s and the pollutant flow rate is 1g/s. The fucshia squares represent the point sources (position of the stacks). We have a three-dimensional image of the pollutant plume with these two computer screens.
Pollution map produced by continuous discharge in this region. Top: the orange horizontal line indicates us the position of the XZ-Plane. Bottom: The fucshia line represents a point source (stack). The red colour represents high pollutant concentrations.
Graphs I - Graphs II - Graphs III - Graphs IV
Canarina Algoritmos Numéricos, S.L.
Environmental software solutions
Software para impacto del medio ambiente
Canary Islands, Spain
e-mail: contact us
European network on pollution · European Union
Member of MAPO: European network on Marine Pollution. Project
funded by the European Commission through the
6th Framework Programme for Research and Development
ethylene dispersion modeling
CANARINA: Home - Air pollution · DISPER - Noise pollution · CUSTIC - Water pollution · DESCAR - Contact us
DISPER: Air pollution dispersion · DISPER - Solutions - Data - Algorithms - Emissions - Graphs - ISC3 (VOL. 2)
SOLUTIONS: Air pollution dispersion · DISPER - Software solutions - Software advantages - Price - DEMO download
COMMANDS: Input data I - Input data II - Input data III - Input data IV - Temporal average - Import and export data - Software commands
ALGORITHMS: Algorithms I - Algorithms II - Algorithms III - Algorithms IV - Algorithms V - Algorithms VI - Algorithms VII - Algorithms VIII - Algorithms IX - Algorithms X
EMISSIONS: Emissions I - Emissions II - Emissions III - Pollutants I - Pollutants II
GRAPHS: Graphs I - Graphs II - Graphs III - Graphs IV
DISPER software solutions: This application has been used in great number of environmental reports, air pollution courses and air pollution studies in the last years. We currently have users in more than 10 countries.
Salford - prevention of air pollution - air control pollution - air control equipment pollution
Salisbury - data dispersion - plume dispersion - air diffusion - air quality service
Sheffield - clean air - environmental pollution - environment pollution -
St Albans - environmental issues - environment - marine pollution - water pollution -
St David's - ocean pollution - smog - types of pollution - air quality service
Stirling - air pollution market study - CO air pollution dispersion modeling in roads -
Stoke-on-Trent - NO air pollution calculation - SOx simulation near hospitals - NOx air pollution dispersion model -
Sunderland - gaussian dispersion - air stability - air polution - model dispersion -
Swansea - VOC air pollution modeling in plants - Cl2 air pollution dispersion modeling -
Truro - NH3 air pollution modeling in highways - HNO3 modeling air dispersion - air dispersion modeling -
Wakefield - air dispersion model - air dispersion modelling - air pollution dispersion -
Wells - air dispersion models - dispersion of air - dispersion of air pollutants -
Chichester - polution - indoor air quality - smog - air quality service
City of London - carbon dioxide emissions - air quality service
Coventry - emissions trading - environmental protection act - environmental design -
Derby - environmental consultants - department of environmental protection - environmental consulting -
Derry - particulate matter - water quality - air quality service
Dundee - environmental jobs - environmental engineering - environmental law -
Durham - carbon emissions - environmental management - environmental education -
Edinburgh - environmental problems - environmental policy - environmental agency -
Ely - environmental studies - emissions testing - environmental impact assessment -
Exeter - environmental defense - greenhouse gas emissions - environmental protection -
Glasgow - environmental justice - car emissions - air quality service
Gloucester - indoor air pollution - effects of pollution - what is pollution -
Hereford - thermal pollution - environment pollution - pollution statistics -
Inverness - pollution control board - air pollution control - pollution pictures -
Kingston upon Hull - particulate matter - water quality -
Lancaster - air pollutants - effects of air pollution - photochemical -
Leeds - carbon monoxide - polution - indoor air quality - smog -
Canterbury - air pollution problems - facts about air pollution - outdoor air pollution - air quality -
Cardiff - carbon dioxide - benzene - nox -
Carlisle - acid rain - clean air act - air quality -
Chester - NH3 air quality simulation - VOC air quality calculation - NOx air pollutants modeling in roads -
Chichester - photochemical - acid rain - clean air act -
City of London - causes of pollution - effects of water pollution - sea pollution -
Coventry - water quality -
Derby - environmental degradation - chemical pollutants - photochemical -
Derry - air quality - carbon monoxide - polution -
Dundee - indoor air quality - smog - particulate matter -
Durham - environmental factors - environment pollutants - environmental pollutants -
Edinburgh - carbon dioxide - benzene - nox -
Ely - groundwater pollution - stop pollution - central pollution control board -
Exeter - minnesota pollution control agency - non point source pollution -
Glasgow - chemical pollution - air and water pollution - pollution causes -
Gloucester - san joaquin air pollution - air pollution reduction - primary air pollutants -
Hereford - acid rain - clean air act - air quality -
Inverness - carbon monoxide - polution - indoor air quality -
Kingston upon Hull - smog - particulate matter - water quality -
Lancaster - vehicle emissions - emissions test - environmental services -
Leeds - carbon dioxide - benzene - nox -
Copyright © 2005 Canarina Algoritmos Numéricos, Sociedad Limitada Unipersonal CIF-B38803110 registered for electronic commerce in sheet TF-35526, sheet 1 of the volume 2.671 of the General Section, First Registration, Registro de la Propiedad Número 2 y Marcantil of , Spain. All rights reserved.