Water & Nutrient Cycle Perspective

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Water & Nutrient Cycle Perspective

Find technologies and socio-economic approaches to optimise your local water management and sanitation system.

This perspective is geared to help you find the ideal and sustainable solution to optimise your local water management and sanitation system. It comprises technical instruments and tools (hardwares) as well as economic, political and social approaches (softwares) relating to the main steps of the Water and Nutrient Cycle, namely Water Sources Management, Water Purification, Water Distribution, Water and Nutrient Use, Wastewater Collection, Wastewater Treatment as well as Reuse and Recharge of Nutrients and Water.

Find technologies and socio-economic approaches to optimise your local water management and sanitation system.

This perspective is geared to help you find the ideal and sustainable solution to optimise your local water management and sanitation system. It comprises technical instruments and tools (hardwares) as well as economic, political and social approaches (softwares) relating to the main steps of the Water and Nutrient Cycle, namely Water Sources Management, Water Purification, Water Distribution, Water and Nutrient Use, Wastewater Collection, Wastewater Treatment as well as Reuse and Recharge of Nutrients and Water.

Rapid Sand Filtration

Rapid sand filtration is a purely physical drinking water purification method. Rapid sand filters (RSF) provide rapid and efficient removal of…
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Soil Aquifer Treatment

Soil Aquifer Treatment (SAT) is an artificial groundwater aquifer recharge option. Water is introduced into the groundwater through soil percolation…
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Bank Filtration

Bank filtration is the infiltration of surface water, mostly from a river system into a groundwater system induced by water abstraction close to the…
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Sedimentation (centralised)

Sedimentation is a simple, physical pre-treatment of water prior to application of other purification treatments such as filtration and disinfection…
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Adsorption (Activated Carbon)

Activated carbon filtration is a commonly used technology based on the adsorption of contaminants onto the surface of a filter. This method is…
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Membrane Filtration

Membranes are thin and porous sheets of material able to separate contaminants from water when a driving force is applied. Once considered a viable…
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Coagulation-Flocculation

Coagulation-flocculation is a chemical water treatment technique typically applied prior to sedimentation and filtration (e.g. rapid sand filtration…
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Ion Exchange

Ion exchange is a water treatment method where one or more undesirable ionic contaminants are removed from water by exchange with another non-…
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Chlorination (centralised)

As an effective yet inexpensive disinfectant, chlorination is the most commonly used disinfection method in drinking water treatment plants all over…
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Ozonation

Ozonation (also referred to as ozonisation) is a chemical water treatment technique based on the infusion of ozone into water. Ozone is a gas…
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H2O2

Hydrogen peroxide (H2O2), a colourless water-like liquid, is one of the most versatile, reliable and environmentally friendly oxidising agents. The…
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Desalination

The chemical process of changing seawater into potable or fresh water is called desalination. Thermal distillation and membrane processes are the two…
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Hydropower (Large-scale)

Hydropower is a method of generating electricity that uses moving water (kinetic energy) to produce electricity. In large-scale hydropower plants the…
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Hydropower (Small-scale)

Hydropower is a method of generating electricity that uses moving water (kinetic energy) to produce electricity. Small-scale hydropower has been used…
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Mechanical Water Use

The force of water has been used for centuries to produce mechanical power. In remote villages and among low-income regions around the world, daily…
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The graph shows the water and nutrient cycles and how they are interlinked. It is a simplified and idealised version of the water and nutrient loop that puts humans at the centre. Water coming from water sources is purified, distributed and used in agriculture, households and industry. By using water for these different purposes, nutrients are introduced into the water cycle (e.g. through wastewater, but also in runoff in agricultural systems, etc.). Wastewater, in order to be treated, is collected. The treated wastewater is reused or used to recharge water sources. Nutrients are reused beneficially to produce food or animal feed, thereby not polluting aquatic ecosystems. In this way, both the water and the nutrient loop are closed.

The Water and Nutrient Cycle Perspective recognizes that sectoral approaches are not going to solve the global water and sanitation crisis. Instead, holistic approaches that consider the entire water cycle from source to sea, and that look critically analyse the human influence thereupon are required. It compiles the hardware and software instruments for each step of the Water and Nutrient Cycle, that help you develop a sustainable sanitation and water management system.

The content of this perspective was compiled by seecon gmbh in collaboration with a number of partners:

SSWM Collaboration Partners