Translations:Phytoépuration eaux usées/116/en : Différence entre versions

Version actuelle datée du 2 octobre 2020 à 22:04

Informations concernant le message (contribuer)

https://www.wbdg.org/resources/phyto-purification-systems https://www.lenntech.com/phytodepuration.htm

Définition du message (Phytoépuration eaux usées)

L’assainissement a pour objectif de transformer les eaux polluées par l’activité humaine (domestique, agricole, industrielle) en eau assimilable par le milieu naturel. Il existe de nombreuses solutions d’assainissement à l’échelle collective comme des solutions individuelles dites autonomes. Toutes reposent sur l’activité bactériologique pour dépolluer l’eau souillée. De même, chaque système, en sortie, renvoie l’eau dans le milieu naturel par infiltration ou champ d’épandage. En sortie d’assainissement l’eau n’est pas potable. Elle est très riche en minéraux assimilables par le sol et les plantes, comparable à un engrais. Le renvoie dans le milieu aquatique est interdit sauf en cas d’impossibilité d’épandage ou d’infiltration. Le milieu aquatique est plus sensible que le sol, l’apport d’eau chargée en nutriments comporte un fort risque de perturbation du milieu naturel allant jusqu’à son asphyxie ou [https://fr.wikipedia.org/wiki/Eutrophisation eutrophisation].

L’assainissement a pour objectif de transformer les eaux polluées par l’activité humaine (domestique, agricole, industrielle) en eau assimilable par le milieu naturel. Il existe de nombreuses solutions d’assainissement à l’échelle collective comme des solutions individuelles dites autonomes. Toutes reposent sur l’activité bactériologique pour dépolluer l’eau souillée. De même, chaque système, en sortie, renvoie l’eau dans le milieu naturel par infiltration ou champ d’épandage. En sortie d’assainissement l’eau n’est pas potable. Elle est très riche en minéraux assimilables par le sol et les plantes, comparable à un engrais. Le renvoie dans le milieu aquatique est interdit sauf en cas d’impossibilité d’épandage ou d’infiltration. Le milieu aquatique est plus sensible que le sol, l’apport d’eau chargée en nutriments comporte un fort risque de perturbation du milieu naturel allant jusqu’à son asphyxie ou [https://fr.wikipedia.org/wiki/Eutrophisation eutrophisation].

TraductionThe purpose of water sanitation is to transform water that has been polluted by human activity (domestic, agricultural, industrial) into water that can be assimilated into the natural environment. There are numerous water sanitation solutions from the collective level that exist as individual solutions, referred to as "autonomous." All of these are based on bacteriological activity to clean up contaminated water. Likewise, each system, at its output, returns the water to the natural environment by infiltration or by leach field. The output of this water sanitation is not potable. It is highly rich in minerals that the sun and plants may assimilate, comparable to a fertilizer. Returning it to the aquatic environment is prohibited in most cases, except when infiltration or leaching is not possible. As the aquatic environment is more sensitive than the soil, the input of nutrient-laden water involves a high risk of disrupting the natural environment, or even causing asphyxiation or [https://en.wikipedia.org/wiki/Eutrophication eutrophication].

The purpose of water sanitation is to transform water that has been polluted by human activity (domestic, agricultural, industrial) into water that can be assimilated into the natural environment. There are numerous water sanitation solutions from the collective level that exist as individual solutions, referred to as "autonomous." All of these are based on bacteriological activity to clean up contaminated water. Likewise, each system, at its output, returns the water to the natural environment by infiltration or by leach field. The output of this water sanitation is not potable. It is highly rich in minerals that the sun and plants may assimilate, comparable to a fertilizer. Returning it to the aquatic environment is prohibited in most cases, except when infiltration or leaching is not possible. As the aquatic environment is more sensitive than the soil, the input of nutrient-laden water involves a high risk of disrupting the natural environment, or even causing asphyxiation or eutrophication.

Version du 29 septembre 2020 à 22:55 (voir la source) Kkrussel (discussion \| contributions) ← Modification précédente		Version actuelle datée du 2 octobre 2020 à 22:04 (voir la source) Kkrussel (discussion \| contributions)
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−	The purpose of water sanitation is to transform water that has been polluted by human activity (domestic, agricultural, industrial) into water that can be assimilated into the natural environment. There are numerous water sanitation solutions ~~in existence on a~~ collective ~~scale* [especially in France]~~ as individual solutions, ~~declared~~ autonomous. All of these are based on bacteriological activity to clean up contaminated water. Likewise, each system, in its output, returns the water to the natural environment by infiltration or by leach field. The output of this water sanitation is not potable. It is highly rich in minerals that the sun and plants may assimilate, comparable to a fertilizer. Returning it to the aquatic environment is prohibited~~, save for~~ in cases ~~in which~~ infiltration or leaching is not possible ~~[translator note: depending on your country]~~. As the aquatic environment is more sensitive than the soil, the input of nutrient-laden water involves a high risk of disrupting the natural environment, ~~going as far as asphyxiation~~ or ~~[https://en.wikipedia.org/wiki/Eutrophication eutrophication].~~	+	The purpose of water sanitation is to transform water that has been polluted by human activity (domestic, agricultural, industrial) into water that can be assimilated into the natural environment. There are numerous water sanitation solutions from the collective level that exist as individual solutions, referred to as "autonomous." All of these are based on bacteriological activity to clean up contaminated water. Likewise, each system, at its output, returns the water to the natural environment by infiltration or by leach field. The output of this water sanitation is not potable. It is highly rich in minerals that the sun and plants may assimilate, comparable to a fertilizer. Returning it to the aquatic environment is prohibited in most cases, except when infiltration or leaching is not possible. As the aquatic environment is more sensitive than the soil, the input of nutrient-laden water involves a high risk of disrupting the natural environment, or even causing asphyxiation or [https://en.wikipedia.org/wiki/Eutrophication eutrophication].
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−	The purpose of sanitation is to transform water polluted by human activity (domestic, agricultural, industrial) into water that can be assimilated by the natural environment. There are many sanitation solutions on a collective scale such as individual solutions so-called autonomous. All rely on bacteriological activity to clean up contaminated water. Likewise, each system, at the outlet, returns the water to the natural environment by infiltration or sewage farm. At the sanitation outlet, the water is not drinkable. It is very rich in minerals that can be assimilated by the soil and plants, similar to a fertilizer. Returning it to the aquatic environment is prohibited except in the event of impossibility of manure spreading or infiltration. The aquatic environment is more sensitive than the soil, the intake of nutrient-laden water carries a high risk of disturbing the natural environment, going as far as its asphyxiation or [https://en.wikipedia.org/wiki/Eutrophication eutrophication].