Phytoépuration eaux usées/en : Différence entre versions

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, 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, excepting 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 eutrophication.

Types of pollution and sanitation

Water pollution is grouped into four families:

• Organic pollution (carbon, nitrogen, phosphorus) mainly comes from substances of biological origin (excrement, urine, manure, slurry, etc.). These particles are oxidizable, that is to say, that in the presence of oxygen, bacteria are able to degrade them and transform them into minerals.

• Microbiological pollution is linked to organic pollution. Full of excrement, wastewater is rich in pathogenic microorganisms: viruses, bacteria, etc. which are harmful to health and the environment. High bacterial competition inhibits the development and proliferation of these parasites.

• Chemical pollution is comprised of all the major pollutants resulting from human activity such as medicines, pesticides, hydrocarbons, metals and heavy metals. These chemicals are dangerous for the environment which they pollute lastingly by their high toxicity and low biodegradability. Current sanitation systems (collective or not) are very inefficient in the face of this complex and varied pollution. Pollutants therefore end up in the natural environment and are bio-accumulated. In this way, they move up the food chain and increase their concentration at each new level.

• Suspended solids (SS) are insoluble solid particles. In the long term, they lead to filtration systems clogging.

Phyto-purification - Planted Filters

Like all the other sanitation systems (water treatment plants, septic systems, and other septic-based systems...) phyto-purification is based on the principle of separating solids from liquids as well as the bacteriological degradation of particles. Phyto-purification (or planted filters) is based on three actors:

- Bacteria. It degrades the organic particles to render them assimilable to the natural environment.

- The substrate, comprised of gravel or aggregate, creates a habitat for the bacteria, which settle upon the surface of each material. It plays an equally important role for the root systems of the plants. With a granule size going from finer to coarser, the substrate is also a filter, permitting the passage of water while blocking the bigger materials.

- The plants, with the development of their roots and the movement of of their overground parts, clean the filter which, contrary to all the other solutions, self-maintains it.

Benefits and drawbacks of Phyto-purification

Phyto-purification is an effective solution for the quality of wastewater sanitation. Contrary to the other systems, a plant-based filter consumes no electrical energy (mixing, foaming, pump...) and requires no complex maintenance such as draining sludge and directing it to a treatment place. Self-sufficient energetically and logistically, phyto-purification is the most ecological solution for wastewater sanitation.

Phyto-purification is an extensive solution which takes up the space (more space than a compact filter, but less space than a sand filter) of between 2 and 4m²/population equivalent (PE). The filters are sized by the accommodation capacity of the housing, not by the number of inhabitants, with one main room = 1 PE. For example, a house with 3 bedrooms, 1 kitchen-dining room, and 1 living room has 5 main rooms. The sanitation system must then have a capacity of 5 PE. Individual sanitation being means-based and not end-based would require, at minimum, 10m² of planted filters.

Filters that are installed like this, thanks to the diversity of the filtering plants, play an aesthetic role in gardens. In addition, they replicate wetlands, a necessary element in the development of natural life. Numerous helpers (insects, birds, amphibeans...) return--it's a great path toward biodiversity. Phyto-purification is different from lagoon-based systems in that there is no water on the surface of the filters, but instead gravel--therefore, no risk of the proliferation of mosquitos.

However, the installation of planted filters remains a greater investment than that of a conventional solution (For 5 PE: approximately 10,000 € for planted filters, versus 7,000 € for an all-water septic system). The system becomes profitable at around 15 years, as it demands neither management by a professional workforce, tank drainage (there is no tank), nor energy (apart from cases requiring a sewage pump station for powering the filters, but this costs only a few euros per year where necessary).

If your housing is part of collective or public sanitation (all to the sewer), you cannot run an autonomous sanitation system. But don't lose hope, phyto-purification is the dominant sanitation system in France for towns of less than 1000 inhabitants. Your wastewater may already be in the roots of plants!

Building Your Own and Approvals

To limit pollution in the natural environment, sanitation systems are subject to regulation. A performance requirement is requested by the sanitation collective (>20 PE). Individual sanitation must meet an obligation of means.

Individual phyto-purification must therefore be approved to be set up, which is to say, if one wishes to go ahead with planted filters at their home, it is necessary to commission a study and installation by a company that insures the system has received a ministerial approval.

In France, the Service Public d'Assainissement Non Collectif (SPANC) or Public Service of Non-Collective Sanitation is charged with the regulation of all the domestic wastewater sanitation systems not linked to collective networks of water sanitation.

Be that as it may, doing one's own construction is possible by calling on a certified guide who will administer soil studies and measurements and who will provide materials and all guidance necessary for a long-lasting and effective result. Self-built systems save at least 30% of costs on the global system and take the individual further in terms of control and knowledge of one's habitat.

The system presented was produced with Kévin Quentric, self-building guide affiliated with the network Aquatiris. This tutorial retraces the key milestones of an installation, providing an evaluation of the capacity of self-building and the value of the planted filters. To act in compliance with French law, it would be beneficial to connect with a company whose solutions are authorized.