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DESCAR:

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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

 

 

 

 

 

 

 

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Pollutants II

                 

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Dissolved organic compounds

Natural organic compounds have been present in the environment for millions of years. Many synthetic chemicals are harmless to living things, but some interfere with biochemical processes. Some of these synthetic chemicals are purposely introduced into the environment to kill insects. Some organic compounds pollute waterways. They are especially dangerous if they are not biodegradable. Some, like DDT, are concentrated by passage through a food chain.

Acidic pollutants

A source of acidic inorganic pollutants is the drainage of water from mines. Water flowing from underground mines is usually highly acidic. In lakes and rivers, the acids react with carbonate ions to form carbon dioxide. A raised level of carbon dioxide in the water makes it more difficult for animals to respire. Extreme acid pollution kills aquatic plants and animals.

Cyanides

Cyanides are widely used in industry for cleaning metals. Cyanides enter waterways in effluents from industries. The toxic effect of cyanide is due to the formation of a complex with iron.

Aluminium

Aluminium ions are present in the water supply because aluminium sulphate is used in water treatment. There is evidence of a correlation between Alzheimer’s disease and the aluminium content of drinking water. The rate of Alzheimer’s disease in districts where the concentration of aluminium in drinking water exceeds 0.11mg/L (1mg=0.001g, 1L=1dm3) is higher than the rate in districts where the aluminium concentration is less than 0.01mg/L.

Cadmium

Pollutant cadmium in water may came from industrial discharges. Heavy metals are serious water pollutants. Cadmium is highly toxic, with a recommended upper limit of only 10ppb (part per billion, 1000ppb=1ppm).

Lead

Leaded petrol is a source of lead in the atmosphere. Particles of soot and lead compounds from vehicle exhausts can fall on land and contaminate. Lead come from lead pipes and solders, from lead glazes on pottery and glasses. The World Health Organisation recommends that the limit for lead in drinking water should be 50 ug/L.

Mercury

Mercury compounds are found in nature in low concentrations in rocks and soils. However, we find a variety of uses for mercury which add mercury to the environment. Mercury comes from mercury cathode electrolysis cell, from fungicides, paints, coal and disinfectants. It has accumulated in a number of lakes. Mercury is slowly converted into dimethylmercury and methylmercury which are soluble and can be ingested by animals. Sludge from sewage treatment plants contains about 1ppb of mercury.

Chromium

Chromium compounds are toxic and irritating. They are present in wastes from electroplating plants and tanneries.

Nickel

Nickel compounds came from electroplating plants and cause damage to brain.

Copper

Copper compounds are toxic. If the dose is high enough. It can damage brain and eyes.

Zinc

Zinc enters the water supply from galvanising plants. It is relatively non-toxic, but large doses cause vomiting.

Arsenic

Contamination by agricultural pesticides has occasionally been a source of arsenic poisoning. It comes from the combustion of fossil fuels and is concentrated in food chains. The level of arsenic in natural water is 2ppb. Ingestion of 100mg of arsenic by an adult is fatal. The recommended upper limit for drinking water is 50 ppb

Thermal pollution

The rise in temperature of the water is called thermal pollution. Water is taking from waterways, used for cooling, and returned to waterways. It decreases the solubility of oxygen, increase the metabolic rate of organism,… If the temperature rises sufficiently, fish may die.

 

POLLUTANTS: Pollutants I - Pollutants II - The sea I - The sea II - Pycnocline

 

Canarina Algoritmos Numéricos, S.L.

Environmental software solutions

Software para impacto medio ambiental  

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

solid waste

 

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.

Salisbury - oil pollution of the sea - irish sea pollution -  sea pollution effects - water pollution impacts

Sheffield - irrigation pollution - aquatic pollution - coastal pollution - water pollution impacts

St Albans - river pollution - groundwater pollution - biodiversity pollution - water pollution impacts

St David's - ground pollution - human pollution - sharks pollution - water pollution impacts

Stirling - plankton pollution - fresh water pollution - natural pollution - water pollution impacts

Stoke-on-Trent - sea habitats - coral pollution - types pollution -

Sunderland - coral reef pollution - underwater pollution - oceans pollution -

Swansea - environmental pollution - sea plants - sea habitat -

Truro - marine pollution - jellyfish pollution - sea soil -

Wakefield - sea animals - freshwater pollution - environment pollution -

Wells - international prevention of pollution of the sea - prevention of pollution of the sea by oil - sea pollutants - fish pollution -

Westminster - sea pollution prevention - national plan to combat pollution of the sea - sea pollution control -

Winchester - sea pollution images - sea pollution statistics - pollution of sea water -

Sunderland - waste discharge - sewage report - sewage treatment -

Swansea - sewer discharge - sewage flow  - oil discharge -

Truro - sewage quality - well discharge - sewage septic tank -

Wakefield - stormwater discharge - drainage discharge - municipal sewage -

Wells - sewer sewage - sewage lake - epa discharge -

Westminster - sewage water discharge - sewage effluent discharge -

Winchester - sewage treatment plant discharge - sewage discharge permit - boat sewage discharge -

Wolverhampton - discharge of sewage - sewage discharge pump - discharge of raw sewage -

Worcester - raw sewage discharge - sewage discharge standards - sewage discharge regulations -

York - discharge pump - sewage disposal - sewage waste water -

 

Derbyshire  - thermal simulation - dispersion simulation -

Dorset  - water quality - land and water pollution

Northamptonshire  - water supply water quality regulations -

Durham  - simulation theory - land and water pollution

Cheshire  - heat simulation - land and water pollution

Worcestershire  - annual water quality report - land and water pollution

Cambridge - surface simulation - treatment simulation - numerical simulation -

Nottingham - solution simulation - number simulation - thesis simulation -  

Oxford - water quality management - water quality assessment - water quality monitoring -

Peterborough - water quality testing - drinking water quality - water quality modeling -

Plymouth - water quality standards - water quality uk - improve water quality -

Portsmouth - water quality objectives - poor water quality - salinity and water quality -

Preston - water quality - irrigation water quality - water supply water quality regulations 2000 -

Ripon - water quality rating - coastal water quality - water quality study -

Salford - importance of water quality - water quality trading - surface water quality -

Salisbury - water quality for agriculture - water quality pollution - water quality improvement -

Sheffield - fluid simulation - outfall stormwater - diffusion simulation - land and water pollution

St Albans - outfall structure - simulation dynamics - water simulation -

St David's - wastewater simulation - simulation analysis - outfall design -

Stirling - outfall channel - construction simulation - simulation modelling -

Stoke-on-Trent - drainage outfall - fluid mechanics simulation - drainage simulation -

Sunderland - simulation modeling - hydrodynamic simulation - turbulence simulation -

Swansea - particle simulation - solid simulation - simulation engineering -

Truro - outfall water - flow simulation - mathematical 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.