Dieser Beitrag vermittelt einen Überblick über die im Rahmen des EU Projektes P-REX erzielten Ergebnisse und Schlussfolgerungen. Neben der Bewertung von praxisrelevanten Verfahren zur Phosphorrückgewinnung aus dem Abwasserpfad und den jeweiligen Recyclaten geht es vor allem auch um Aspekte zur flächendeckenden Implementierung und Marktentwicklung. Vor allem integrative Ansätze, die auf eine bessere Ausnutzung der bereits vorhandenen Infrastruktur zur Optimierung des Phosphorrecyclings abzielen, bieten vielversprechende und vor allem kurzfristig umsetzbare Lösungen. Um jedoch Anreize für deren Umsetzung zu schaffen, bedarf es Entscheidungen und verlässlicher politischer Weichenstellungen. Für den Fall des Phosphorrecycling haben Goethes Worte „Wissen ist nicht genug, wir müssen auch anwenden! Wollen ist nicht genug, wir müssen auch tun!“ höchste Aktualität.

To sustain good harvests, each year more than one million tonnes of mineral phosphorus have to be imported to the European Union (van Dijk et al., unpublished data), while the potential to recover and recycle this essential resource remains untapped or is just inefficiently used as in the case of sewage sludge, manure and food waste. In recent years various technical solutions have been developed to recover phosphorus providing mineral compounds suitable as raw material for fertiliser production or even as ready-to-use fertiliser. Regarding the implementation of these technologies, operational benefits for plant operators like the water utilities in the case of P recovery from wastewater and/or sewage sludge are the strongest argument for their market penetration. Without the provision of direct operational benefits, implementation needs to be motivated or even enforced by suitable and reliable policies. In order to realise a circular economy, it is important not just to focus on the recovery itself. The recovered materials need to match the requirements and needs of their intended users. Therefore, full value-chain solutions have to be promoted instead of isolated technology-focused approaches. Following our principles of sustainability and resource efficiency, the assessment of innovations must also include their environmental impact. This review provides an overview of recently developed and promising technologies for phosphorus recovery from wastewater and discusses aspects regarding their wide-spread application, along with their limitations. It will focus on recovery and recycling from sewage sludge. Not only the technologies themselves, also the recovered materials and their valorisation options are addressed. Results of the EU FP7 funded project P-REX entitled 'Sustainable sewage sludge management fostering phosphorus recovery and energy efficiency' and other recent initiatives will be included. Since innovation always needs an enabling environment for market penetration, barriers set by the existing legal framework and measures to resolve them will be reviewed. Finally, Goethe's words are true more than ever: 'Knowing is not enough, we must apply! Willing is not enough, we must do!'

Food production in Europe is dependent on imported phosphorus (P) fertilizers, but P use is inefficient and losses to the environment high. Here, we discuss possible solutions by changes in P management. We argue that not only the use of P fertilizers and P additives in feed could be reduced by fine-tuning fertilization and feeding to actual nutrient requirements, but also P from waste has to be completely recovered and recycled in order to close the P balance of Europe regionally and become less dependent on the availability of P-rock reserves. Finally, climatesmart P management measures are needed, to reduce the expected deterioration of surface water quality resulting from climate-change-induced P loss.

Commercialisation of nutrient recovery technologies are progressing across Europe, with a contract signed earlier this year to recycle phosphorus from 60,000 tons of sewage sludge ash. This article looks at progress and options from other companies against market barriers such as raw material prices and legal frameworks.

This paper provides an overview of promising technologies for phosphorus recovery from waste streams in the context of real nutrient recycling and discusses aspects regarding their wide-spread application but also limitations. Not only the technologies themselves, also the recovered materials and their valorization options are addressed. Results of the EU FP7 project P-REX titled “Sustainable sewage sludge management fostering phosphorus recovery and energy efficiency” will be discussed. Since innovation always needs an enabling environment for market penetration, barriers set by the existing legal framework and measures to resolve them will be concluded. To finally achieve a closed loop, the gap between phosphorus recovery and actual recycling has to be bridged. Finally, Goethe’s words are true more than ever: “Knowing is not enough, we must apply! Willing is not enough, we must do!”

Germany’s municipal sewage treatment plants generate some two million tons of dry sewage sludge annually, with the proportion of thermally treated sewage sludge increasing from 31.5 per cent in 2004 to more than 54 % in 2011. Sludge, which is usually incinerated or used as agricultural fertilizer, contains a whole series of harmful substances that complicate the task of sludge management. But sludge also contains a number of nutrients such as phosphorus, nitrogen and potassium. Hence the goal of sewage sludge management is to remove sludge pollutants while retaining sludge nutrients. Sewage sludge undergoes thermal recycling at facilities such as sewage sludge mono-incineration plants, cement plants and coal fired power plants. Sewage sludge utilization for farming purposes has plateaued of late (2006 to 2011) at around 29 %, an evolution attributable to more stringent quality standards for sewage sludge. However, sewage sludge is set to take on greater importance as a raw material, mainly due to the increased concentrations of phosphorous it contains. This pamphlet discusses the potential offered by sewage sludge and the ways it can be used sustainably. The pamphlet also describes the current status of sewage sludge management in Germany, with particular emphasis on the extent to which sludge use as a fertilizer can be reduced without foregoing phosphorous and other sludge nutrients. Over the next one to two decades, Germany needs to wean itself away from using sewage sludge for farming and at the same time efficiently leveraging the potential for using sewage sludge as a low cost fertilizer.

Energy and resource recovery from municipal wastewater is a pre-requisite for an efficient and sustainable water management in cities of the future. However, a sound evaluation of available processes and pathways is required to identify opportunities and short-comings of the different options and reveal synergies and potentials for optimisation. For evaluating environmental impacts in a holistic view, the tool of Life Cycle Assessment (LCA, ISO 14040/44) is suitable to characterize and quantify the direct and indirect effects of new processes and concepts. This paper gives an overview of new processes and concepts for upgrading existing wastewater treatment plants towards energy positive and resource efficient wastewater treatment, based upon an evaluation with LCA using data from pilot and full-scale assessments of the considered processes.

Zum Erzielen guter Erträge in der Landwirtschaft und in Ermangelung nennenswerter fossiler Vorkommen müssen alljährlich ca. 1 Million Tonnen mineralisch gebundenen Phosphors nach Europa importiert werden. Gleichzeitig werden Rückgewinnungs- und Recyclingpotentiale dieser lebenswichtigen Ressource nicht bzw. wie im Falle des Klärschlamms nur zu einem geringen Anteil genutzt. In den letzten Jahren wurden zahlreiche technische Verfahren entwickelt, die dazu beitragen sollen, den Nährstoff Phosphor alternativ zur umstrittenen Praxis der Klärschlammausbringung wieder für die Landwirtschaft verfügbar und nutzbar zu machen. Insbesondere praxisnahe Lösungen haben bereits den Sprung in die großtechnische Umsetzung geschafft bzw. stehen kurz davor. Nationale wie internationale Initiativen widmen sich dem Zusammenbringen von Akteuren aus Wissenschaft, Politik und Wirtschaft, um die Implementierung voranzubringen. Für ein Nährstoffrecycling genügt es nicht, bei der Nährstoffrückgewinnung aufzuhören. To sustain good harvests, about one million tons of mineral phosphorus have to be imported to Europe annually, while the potentials to recover and recycle this essential resource remain untapped or are just inefficiently used as in the case of sewage sludge. In the recent years various technical alternatives to the traditional but disputed application of sludge in agriculture have been developed to recover the nutrient. Especially user friendly solutions have already made their way to full-scale or at least pilotscale application. National and international initiatives are dedicated to bridge the gaps between the relevant sectors of science, policy and industry to finally foster wide-spread implementation of phosphorus recovery and recycling. It is not enough to just recover nutrients. To achieve real recycling, the gap between recovery and return of phosphorus into the nutrient cycle needs to be closed. The supply side needs to match with the requirements of the demand side.