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The number of different secondary raw materials used for fertilizer production is expected to increase in the future due to newly developed recycling procedures. Thus, more and more different matrices have to be analyzed. Furthermore, the respective legislation and analytical methodology is nonuniform throughout Europe. Therefore, a harmonization of the the regulations and Standards is desirable. We conduct a research project to test the existing analytical methods on their applicability to a broad variety of matrices to support the harmonization process. The project is scheduled tili late spring 2017. Initial results will be presented.
The amount of sewage sludge produced worldwide is expected to further increase due to rising efforts in wastewater treatment. There is a growing concern against its direct use as fertilizer due to contamination of the sludge with heavy metals and organic pollutants. Incinerating the sludge degrades organic compounds almost completely and concentrates heavy metals and phosphorus. However, the sewage sludge ash (SSA) is almost completely disposed of and with it all resources are removed from the economic cycle. Comprehensive knowledge of the composition of SSA is crucial to assess the resource recovery potentials. We conducted a survey of all SSA emerging in Germany and determined the respective mass fractions of 57 elements over a period of one year. The median content of phosphorus was 7.9%, indicating an important recovery potential. Important trace elements were Zn (2.5 g/kg), Mn (1.3 g/kg), and Cu (0.9 g/kg). Mass fractions of technology metals such as V, Cr, Ga, Nb, and rare earths were comparatively low. Considering the possible use of SSA as secondary raw material for fertilizer production it should be noted that its Cd and U content (2.7 mg/kg and 4.9 mg/kg respectively) is significantly lower than that of rock phosphate based mineral fertilizers.
This study compares the mercury distribution in the vapor phase, the phosphor powder and the glass matrix of new and spent fluorescent lamps. The spent fluorescent lamps were obtained at the collection yards of a public waste management company in Hamburg, Germany. An innovative systematic sampling method is utilized to collect six spent and eight corresponding new, off-the-shelf fluorescent lamp samples. The efficiency of several acid digestion methods for the determination of the elemental composition was studied and elemental mass fractions of K, Na, Y, Ca, Ba, Eu, Al, Pb, Mg, Hg, and P were measured. The study also finds aqua regia to be the best reagent for acid digestion. However, no significant difference in mercury distribution was found in the different phases of the new and spent fluorescent lamps.
Wastewater contains a diverse array of organic and inorganic compounds and its complex composition strongly depends on the location and the connected dischargers. However, municipal wastewater as a carrier of feces and urine generally contains considerable amounts of the main nutrients nitrogen and phosphorus. The latter is in the focus of the discussions about the recovery potential of wastewater due to the relatively high mass flows of phosphorus in wastewater and the finite nature and decreasing quality of phosphate rock reserves. But due to the presence of the whole periodic table of elements, wastewater might contain further valuable components of interest for recovery including those defined as critical raw materials by the European Commission. Phosphorus and most of the other critical raw materials are fixed in the sewage sludge and after incineration in the sewage sludge ash (SSA). This is accompanied by high concentration factors from wastewater via sludge to ash. However, the mass fractions of the majority of elements in sewage sludge are comparable to those of the earth crust, indicating no relative enrichment. Nevertheless, enrichment factors of 100 or higher are given for phosphorus, copper, zinc, cadmium, silver, tin, lead and the platinum group elements indicating an anthropogenic input. An economic value of sewage sludge was estimated to $460,-/t calculated on the basis of the respective market prices for high purity elements – a theoretical value. A German survey of sewage sludge ashes showed that the mass fractions and the mass flows of most of the elements present in SSA are probably too low for an economic recovery. In most cases the mass flows are rather small compared to the imports and the chemical forms are not suitable for recovery. An exception is phosphorus that is present in high mass fractions up to 13% and that bears a high substitution potential. If the application of P-recovery technologies lead to a further concentration of valuable elements e.g. as by-products in side streams of the process, it would probably make also the recovery of other elements of economic interest.
- Spurenelementanalytik aus Fluoreszenzlampen optimiert
- Königswasseraufschluss Methode der Wahl für REE
- Perchlorsäure-/Flusssäureaufschluss in Kombination mit Königswasseraufschluss für die meisten Elemente geeignet
- Teilweise starke Abhängigkeit der Aufschlusseffizienz vom Element bzw. der vorliegenden Elementspezies
- Nicht aufgelöste Glasmatrix stört die Analytik nicht
In Europa fallen jedes Jahr mehr als 10 Millionen Tonnen Klärschlamm an (Trockenmasse), etwa 2 Millionen davon in Deutschland, Bild 1 zeigt die Entwicklung der Klärschlammentsorgung in Deutschland. Nach dem Deponierungsverbot hat die Verbrennung des Klärschlamms stetig zugenommen. Die Verwendung im Landschaftsbau bzw. als Düngemittel ist nach einem Maximum um die Jahrtausendwende herum zugunsten der Verbrennung zurückgegangen, so dass heute jeweils etwa die Hälfte des Klärschlamms verbrannt und in der Landwirtschaft genutzt wird. Der Anteil an verbranntem Klärschlamm wird in Zukunft vermutlich weiter steigen. Ein wesentlicher Grund dafür ist die zunehmende Besorgnis über Schadstoffe im Klärschlamm, die Mensch und Umwelt schädigen könnten. Neben verschiedenen organischen und anorganischen Schadstoffen handelt es sich insbesondere um Emerging Pollutants of Concern (EMPOC) wie Antibiotika und Kosmetika.
Im Rahmen des EU-Projekts P-REX werden unter anderem die zwei thermischen Verfahren ASH DEC und Mephrec zur technischen Rückgewinnung von Phosphor aus Klärschlamm und Klärschlammaschen für die P-Düngemittelproduktion betrachtet. Die Produkte haben geringe Konzentrationen an Schwermetallen und eine bessere P-Löslichkeit als die nicht behandelten Klärschlammaschen. Die Klärschlammasche wird im ASH DEC-Verfahren mit Natriumverbindungen unter reduzierenden Bedingungen im Drehrohrofen behandelt. Das Verfahren wurde erfolgreich bei einem Demonstrationsversuch getestet. Das Mephrec-Verfahren ist ein metallurgisches Schmelzverfahren und wird unter reduzierenden Bedingungen im Schachtofen durchgeführt. Es ist eine Pilotanlage in Nürnberg geplant.
Fluorescence lamps contain considerable amounts of rare earth elements (REE). Several recycling procedures for REE recovery from spent lamps have been established. However, despite their economic importance, the respective recycling is scarce so far, with an REE recovery rate of less than 1%. A reliable analysis of REE and other relevant metals like Yttrium is crucial for a thorough and complete recovery process. This applies both to the solid matter and aqueous phase, since most of the recycling processes include wet-chemical steps. We tested seven different reagent mixtures for microwave-assisted digestion of fluorescent lamp shredder, including hydrofluoric acid, perchloric acid, and hydrogen peroxide. We determined the concentrations of 25 of the most relevant rare earth and other trace elements (Al, P, Ti, V, Cr, Fe, Ni, Cu, Ga, Ge, As, Y, Ag, Cd, Sn, Sb, La, Ce, Eu, Gd, Tb, W, Au, Hg, and Pb) in the respective dilutions. Two independent digestions, one a mixture of perchlorid/nitric/hydrofluoric acid and the other aqua regia, showed the highest concentrations of 23 of these elements, excluding only Sn and Tb. The REE concentrations in the tested lamp shredder sample (stated in g/kg) were 10.2 (Y), 12.1 (La), 7.77 (Ce), 6.91 (Eu), 1.90 (Gd), and 4.11 (Tb).
Complete survey of German sewage sludge ashes - phosphorous and technology metal recovery potential
(2014)
Sewage sludge ashes (SSA) are a possible source for recovery of phosphorous (P) and technology metals. Phosphorous is essential for all animate beings. So far, its sole external source is rock phosphate, which is a finite resource. The EU import dependency on P from regions with high domestic demands or political instabilities is almost complete. Furthermore, rock phosphate often contains high amounts of heavy metals like Cd and U that might lead to health and environmetal hazards. P recovered from SSA might diminish these problems. We analyzed SSA from German mono incineration facilities in terms of their elemental composition and respective recovery potential. More than 97% of the emerging SSA is monitored, enabling the determination of complete mass flows of the ashes and their components. Results indicate a P recovery potential of 19,000 t/a (more than 12% of the annual P demands for fertilizer production). The concentrations of Cd and U in SSA are significantly lower than in rock phosphate and thus might help to reduce possible envrionmental and health hazards.
The importance of secondary raw materials for phosphorus (P) fertilizer production is expected to increase in the future due to resource depletion, supply risks, and heavy metal contamination of fossil phosphate resources. Municipal wastewater is a promising source for P recovery. In Germany for instance, it contains almost 50% of the total amount of P that is currently applied as mineral fertilizer. Several procedures have been developed to recover and re-use P resulting in a growing number of recycling fertilizers that are currently not regulated in terms of fertilizer efficiency. We tested various materials and matrices for their total P content, solubility of P in neutral ammonium citrate (Pnac) and water, and performed robustness tests to check if existing analytical methods are suitable for those new materials. Digestion with inverse aqua regia was best suited to determine the total P content. Pnac sample preparation and analyses were feasible for all matrices. However, we found significant time and temperature dependencies, especially for materials containing organic matter. Furthermore, several materials didn’t reach equilibrium during the extractions. Thus, strict compliance of the test conditions is strongly recommended to achieve comparable results.