DESCAR

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Data I

Data II

Average

Import

Graphs I  

Graphs II

Commands

Algorithms I

Algorithms II

Algorithms III

Algorithms IV

Algorithms V

Algorithms VI

Algorithms VII

Pollutants I

Pollutants II

The sea I

The sea II

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 (z_r).

All the points of the XY-plane will be to a z_r height. The z_r 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 (z_r 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 (y_r).

All the points of the XZ-Plane will be to a y_r height. The y_r 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 (y_r values). In this way, the physical form of the pollutant plume can be studied.

Graphs I - Graphs II 

Environmental software · environmental software solutions

Shropshire  - oil modeling -

Plymouth - environment modeling - effluent management and equipment modeling - effluent processing -

Portsmouth - effluent water quality - effluent oil - effluent and environment -

Preston - effluent standards - engineering modeling - filter modeling -

Ripon - sewage treatment plant effluent - effluent flow - effluent discharge -

Salford - domestic effluent - operation modeling - discharge modeling -

Salisbury - modeling methods - wastewater treatment plant effluent - gas modeling -

Sheffield - contamination modeling - modeling management - municipal effluent -

St Albans - epa effluent - technology modeling - treatment of effluent -

Lancashire  - production modeling -

Oxfordshire  - wastewater treatment -

Derbyshire  - reverse osmosis and desalination - sewage water treatment -

Northamptonshire  - water purification -

Durham  - effluent treatment

Nottinghamshire  - mbr wastewater - standard methods for examination of water and wastewater -

Cheshire  - effluent tank - effluent river - effluent sludge -

Leicestershire  -  waste water systems - waste water disposal -

West Sussex  - wastewater training - wastewater technology - waste water system -

Warwickshire  - wastewater treatments  - waste water association  - wastewater operator certification -

Worcestershire  - municipal wastewater - wastewater process -

East Sussex  -  waste water treatment systems - onsite wastewater treatment -

Surrey  - standard methods for the examination of water and wastewater - wastewater engineering - wastewater systems -

Hertfordshire  - wastewater treatment design  -

Buckinghamshire  - wastewater reclamation - treatment of wastewater -

Bedfordshire  - waste water treatement - wastewater treatment equipment - advanced wastewater treatment -

Armagh - waste water recycling - epa wastewater - biological wastewater treatment

Bangor - tanks modeling - effluent pollution - water pollution modeling -

Bath - effluent equipment - systems modeling - epa modeling -

Belfast - effluent recycling - activated sludge effluent - filtration modeling -

Birmingham - grey water - gray water - effluent treatment -

Bradford - effluent - sewage repair - septic contractors -

Brighton & Hove - waste disposal - water recycling - septic filters -

Bristol - septic cleaners - sewage supplies - waste removal -

Cambridge - effluent gas - irrigation modeling - sedimentation modeling -

Nottingham - effluent waste water - membrane modeling - sewer modeling -

Oxford - tertiary wastewater treatment - septic tanks - water treatment

Peterborough - effluent wastewater and sand modeling - sewage treatment effluent - effluent waste -

Plymouth - tank modeling - cost modeling - process modeling -

Portsmouth - plant modeling - effluent sewer - effluent treatment plant -

Preston - solids modeling - effluent clarifier - chemical modeling -

Ripon - effluent technology - effluent drinking water - effluent sewage -

Salford - water modeling - effluent sewerage - biological modeling -

Salisbury - drinking water - groundwater - gas analyzers  and diffusers -

Sheffield - home sewage systems - water filtration - aeration and pumps -

St Albans - water treatment plant - waste treatment - drainage -

St David's - sewage plumbing - water treatment systems - septic maintenance -

Stirling - effluent removal - effluent filtration and effluent tanks - effluent water treatment plant -