CANARINA:
DESCAR:
INPUT DATA:
ALGORITHMS:
POLLUTANTS:
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In the center of the program window, we will draw and we will calculate the different polluting processes. We can draw using two different planes: parallel to the surface of the water (XY) and perpendicular to the surface of the water (XZ). There is a grid in the XY-plane. The coordinate origin is on the left bottom corner (X=0, Y=0) in XY-planes (parallel to the surface of the water). In addition, the coordinate origin is on the left bottom corner (X=0, Z=0) in XZ-planes (perpendicular to the surface of the water).
XY-Planes (parallel to water surface):
In such a case, the program window is a XY-plane (parallel to the water surface). A pollutant point source (outfall pipeline) 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. If you select XY-Plane, a grid appears. On the left bottom corner, two different text boxes appear: The position of the XY-plane with respect to the water surface (XY-plane height) and the pollutant concentration value (grams per cubic meter, g/m3). Point the mouse where you want in the program window and the concentration value will be shown in the text box. Remember that 1g/m3=1mg/L. The pollutant concentrations will be calculated in a parallel plane to the water surface (XY-Plane). The plane height will be determined by the user (zr).
All the points of the XY-plane will be to a zr height. The zr 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 (zr values). In this way, the physical form of the pollutant plume can be studied.
XZ-Planes (perpendicular to water surface):
In such a case, the program window is a XZ-plane (perpendicular to the water surface). A pollutant point source (outfall pipeline) 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 (grams per cubic meter, g/m3). Point the mouse where you want in the program window and the concentration value will be shown in the text box. Remember that 1g/m3=1mg/L.The pollutant concentrations will be calculated in a perpendicular plane to the water 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.
INPUT DATA: Data I - Data II - Data III - Import - Commands - Graphs I - Graphs II
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
pollution and water
CANARINA: Home - Air pollution · DISPER - Noise pollution · CUSTIC - Water pollution · DESCAR - Contact us
DESCAR: DESCAR: water pollution - Data I - Algorithms I - Pollutants I
SOLUTIONS: DESCAR: water pollution - Advantages - Price
INPUT DATA: Data I - Data II - Data III - Import - Commands - Graphs I - Graphs II
ALGORITHMS: Algorithms I - Algorithms II - Algorithms III - Algorithms IV - Algorithms V - Algorithms VI
POLLUTANTS: Pollutants I - Pollutants II - The sea I - The sea II - Pycnocline
DESCAR software solutions: This application has been used in great number of environmental reports, courses and water pollution studies in the last years. We currently have users in more than 10 countries. Water pollution reports and courses in Spain:
Shropshire - outfall pipe -
Derbyshire -
basin modeling -Aberdeen - modeling management - design modeling - systems modeling -
Lancashire - stormwater modeling -
Oxfordshire - transport modeling - water pollution effect
Armagh - watershed modeling - plant modeling - project modeling -
Bangor - gis modeling - road modeling - urban modeling -
Birmingham - runoff modeling - wastewater modeling -
Bradford - river modeling - lake modeling - water resources modeling -
Bath - sewage outfall - pipe outfall - sewer outfall -
Belfast - flood modeling - groundwater modeling - hydrology modeling - water pollution effect
Brighton & Hove - environmental modeling - wastewater outfall - simulation modeling -
Bristol - drainage outfall - storm water outfall - outfall stormwater - outfall design -
Oxford - turbulent modeling - thermal modeling - particle modeling -
Peterborough - contamination modeling - water quality modeling - area modeling -
Cambridge - outfall channel - pond outfall - fluent modeling -
Nottingham - outfall protection - outfall structure - modeling theory -
Plymouth - construction modeling - water pollution modeling - water modeling -
Portsmouth - river outfall -stream modeling - analysis modeling -
Salford - ocean outfall - outfall system - sewer outfall - water pollution effect
Salisbury - wastewater outfall - marine outfall - sewage outfall -
Preston - outfall monitoring - surface modeling - sewer modeling -
Ripon - solution modeling - outfall construction - storm water modeling -
Essex - outfall canal - northern outfall -
St David's - storm water pollution prevention - water air and soil pollution - prevention of water pollution -
Stirling - effect of water pollution - stop water pollution - storm water pollution prevention plan -
Stoke-on-Trent - storm water pollution -pictures of water pollution - water pollution causes -
Sunderland - federal water pollution control act - types of water pollution -
Swansea - npdes outfall - ocean outfall design - septic tank outfall -
Truro - people opposed to outfall pollution - outfall locations - outfall map -
Wakefield - outfall line - concrete outfall - ms4 outfall -
Wells - coastal plain outfall - what is an outfall - south bay ocean outfall -
Westminster - left bank outfall drain - cso outfall - adequate outfall - water pollution effect
Cheshire -
heat simulation -Worcestershire -
annual water quality report -Northamptonshire -
water supply water quality regulations -Durham -
simulation theory -Cambridge - surface simulation - treatment simulation - numerical simulation - water pollution effect
Nottingham - solution simulation - number simulation - thesis simulation -
Plymouth - water quality standards - water quality uk - improve water quality -
Portsmouth - water quality objectives - poor water quality - salinity and water quality -
Oxford - water quality management - water quality assessment - water quality monitoring -
Peterborough - water quality testing - drinking water quality - water quality modeling -
Preston - water quality - irrigation water quality - water supply water quality regulations 2000 -
Ripon - water quality rating - coastal water quality - water quality study -
Sheffield - fluid simulation - outfall stormwater - diffusion simulation -
St Albans - outfall structure - simulation dynamics - water simulation -
Salford - importance of water quality - water quality trading - surface water quality -
Salisbury - water quality for agriculture - water quality pollution - water quality improvement -
St David's - wastewater simulation - simulation analysis - outfall design -
Stirling - outfall channel - construction simulation - simulation modelling -
Swansea - particle simulation - solid simulation - simulation engineering - water pollution effect
Truro - outfall water - flow simulation - mathematical simulation -
Stoke-on-Trent - drainage outfall - fluid mechanics simulation - drainage simulation -
Sunderland - simulation modeling - hydrodynamic simulation - turbulence simulation -
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.