Abstract
Global trends such as climate change and the scarcity of sustainable raw materials require adaptive, more flexible and resource-saving wastewater infrastructures for rural areas. Since 2018, in the community Reinighof, an isolated site in the countryside of Rhineland Palatinate (Germany), an autarkic, decentralized wastewater treatment and phosphorus recovery concept has been developed, implemented and tested. While feces are composted, an easy-to-operate system for producing struvite as a mineral fertilizer was developed and installed to recover phosphorus from urine. The nitrogen-containing supernatant of this process stage is treated in a special soil filter and afterwards discharged to a constructed wetland for grey water treatment, followed by an evaporation pond. To recover more than 90% of the phosphorus contained in the urine, the influence of the magnesium source, the dosing strategy, the molar ratio of Mg:P and the reaction and sedimentation time were investigated. The results show that, with a long reaction time of 1.5 h and a molar ratio of Mg:P above 1.3, constraints concerning magnesium source can be overcome and a stable process can be achieved even under varying boundary conditions. Within the special soil filter, the high ammonium nitrogen concentrations of over 3000 mg/L in the supernatant of the struvite reactor were considerably reduced. In the effluent of the following constructed wetland for grey water treatment, the ammonium-nitrogen concentrations were below 1 mg/L. This resource efficient decentralized wastewater treatment is self-sufficient, produces valuable fertilizer and does not need a centralized wastewater system as back up. It has high potential to be transferred to other rural communities.
Highlights
Rural areas need special solutions for sanitation as the connection to central sewer networks and wastewater treatment plants are expensive and the transport via trucks is not sustainable in terms of energy consumption and greenhouse gas emissions
The pH reaches values around 9, which is in accordance with literature data, fresh urine is conveyed daily into the urine tank
The results show that a self-sufficient decentralized wastewater treatment and phosphorus recovery is possible by separation of grey water, urine and feces
Summary
Rural areas need special solutions for sanitation as the connection to central sewer networks and wastewater treatment plants are expensive and the transport via trucks is not sustainable in terms of energy consumption and greenhouse gas emissions. On the other hand, decentralized wastewater treatment offers new solutions, including near-natural technologies and recovery of nutrients. Referring to the basic idea of resource-oriented sanitation (ROS), wastewater streams can be treated and resources recovered according to their specific properties starting with material flow separation at household level. Struvite precipitation is one often investigated option to recover mainly phosphorus from urine as a valuable fertilizer. During this process, nitrogen is not completely recovered, leading to high concentrations in the supernatant, which need to be treated.
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