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ALGORITHMS:
POLLUTANTS:
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Water pollution
Natural waters contain micro-organism as well as solutes. There is a distinction between ‘pure’ water, meaning water that is fit to drink and pure water that is a single substance. A water pollutant is a substance that prevents the use of water for a specified purpose. The signs of polluted water are obvious. Poor drinking water tastes and smell bad. Many types of substances which are classified as pollutants are listed.
1. Pathogens, bacteria and viruses
2. Dissolved organic compounds and inorganic compounds
3. Wastes that have a biochemical oxygen demand
4. Nutrients that cause excessive growth of plants
5. Thermal pollution
Biochemical Oxygen Demand
The Oxygen is used for respiration of animals. Fish require the highest concentration of oxygen. If the dissolved oxygen falls below 5ppm (part per million), fish are the first to suffer and tend to die out. Then, the population of bacteria rises to abnormal levels. The imbalances between species is a sign of water pollution. Substances which use up dissolved Oxygen and add to the biochemical oxygen demand are pollutants. Such substances come from the human wastes. The amount of dissolved oxygen used up during oxidation by bacteria of the organic matter in a sample of water is called Biochemical Oxygen Demand (BOD). Water is rated as pure if BOD is 1ppm or less, fairly pure with a BOD of 3ppm and suspect when the BOD reaches 5ppm.
|
Water |
upper limit of BOD5 (European Union) (mg/L) |
|
Pure waters |
< 1 |
|
Polluted rivers (upper limit in European Union) |
> 5 |
|
Polluted rivers with salmon (upper limit in European Union) |
3 |
|
Polluted rivers with other fish (upper limit in European Union) |
6 |
|
Waste waters |
150-1000+ |
|
Industrial waste waters |
thousands |
+BOD, not BOD5
BOD is calculated in 20 days. BOD5 is calculated in 5 days, BOD=5BOD5.
Eutrophication
In order to grow, plant require about 20 different elements (carbon, hydrogen,…). In normal conditions, water always provide enough elements for plant growth. The rate of growth is limited by the supplies of nitrogen and phosphorous. Lake water may be enriched with nutrients (a process called eutrophication) which encourages plant growth and leads slowly to ageing. Ageing is accelerated when plant nutrients are fed into a lake by human activities (fertilisers, wastewater containing detergent,…). When a lake contains concentrations of nitrates and phosphates higher than the normal, algae flourish and produce a bloom, a green scum which is accompanied by an unpleasant odour in the water. The lowering of oxygen concentration leads to the death of fish. The sources of nitrates and phosphates are sewage and fertilisers. Intensively cultivated land receives generous applications of fertilisers containing nitrates and phosphates.
Nitrates: The World Health Organization recommends that the level of nitrogen in the form of nitrates should not exceed 50ppm. The averaged level in the UK is about 11ppm.
|
water |
Upper limit (different compounds with nitrogen) |
|
Rivers with water of good quality |
1mg/L |
|
Rivers with salmon |
1mg NH3-N/L |
|
Drinking water |
0.1mg NO2-N/l |
|
Rivers with salmon |
0.01mg NO2-N/l |
|
Drinking water |
40mg NO3—N/l |
|
Rivers with salmon |
1mg NO3-N/l |
Phosphates: Phosphates enter water from fertilisers and from detergents. Phosphates are added as builders to improve the cleaning power of synthetic detergents. To inhibit the growth of algae, a phosphate level below 0.5mg/L is the aim. The lakes can become eutrophic if the concentration of phosphates overcomes the 30ug/L (1ug/L=10-6g/dm3). The upper limit in European Union for polluted rivers with salmon is 65ug/L.
Pollution map produced by continuous discharge in this region. The Buoyant Jet model has been used. The blue horizontal line indicates us the position of the water surface plane. The fucshia square represents a point source (position of the outfall pipe). The red colour represents high pollutant concentrations.
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
water 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.
Bedfordshire -
waste water treatement - wastewater treatment equipment - advanced wastewater treatment -Aberdeen -
wastewater sludge - waste water plant - municipal wastewater treatment -Armagh - waste water recycling - epa wastewater - biological wastewater treatment
Bangor - tanks modeling - effluent pollution - water pollution modeling - chemical water pollution
Bath - effluent equipment - systems modeling - epa modeling -
Belfast - effluent recycling - activated sludge effluent - filtration modeling -
Birmingham - grey water - gray water - effluent treatment - chemical water pollution
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 - chemical water pollution
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 -
Essex -
outfall canal - northern outfall -Shropshire - outfall pipe -
Lancashire - stormwater modeling -
Oxfordshire - transport modeling -
Derbyshire -
basin modeling - chemical water pollutionAberdeen - modeling management - design modeling - systems modeling -
Armagh -
watershed modeling - plant modeling - project modeling -Bangor - gis modeling - road modeling - urban modeling -
Bath - sewage outfall - pipe outfall - sewer outfall - chemical water pollution
Belfast - flood modeling - groundwater modeling - hydrology modeling -
Birmingham - runoff modeling - wastewater modeling -
Bradford - river modeling - lake modeling - water resources modeling -
Brighton & Hove - environmental modeling - wastewater outfall - simulation modeling -
Bristol - drainage outfall - storm water outfall - outfall stormwater - outfall design -
Cambridge - outfall channel - pond outfall - fluent modeling -
Nottingham - outfall protection - outfall structure - modeling theory -
Oxford - turbulent modeling - thermal modeling - particle modeling -
Peterborough - contamination modeling - water quality modeling - area modeling -
Plymouth - construction modeling - water pollution modeling - water modeling -
Portsmouth - river outfall -stream modeling - analysis modeling -
Preston - outfall monitoring - surface modeling - sewer modeling -
Ripon - solution modeling - outfall construction - storm water modeling -
Salford - ocean outfall - outfall system - sewer outfall -
Salisbury - wastewater outfall - marine outfall - sewage outfall -
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.