The patented Bio-QZ 30% biogas yield

The patented Bio-QZ 30% biogas yield machines plants process solutions

The patented Bio-QZ 30% biogas yield Universal use for energy crops and biogenic waste Packaging and metals stay intact and can be separated QZ chains guarantee very low wear costs Larger work surface for bacteria Significantly shorter holding time in fermenter Homogeneous and pumpable substrate Resistant against all sorts of extraneous material Easy retrofitting to existing plants machines plants process solutions

The patented Bio-QZ Energy Crops machines plants process solutions

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Sweet corn silage Examples: Machine QZ 900 QZ 1200 QZ 1600 Throughput up to 4 t/h up to 6 t/h 10-12 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture or the mineral percentage. Comparison of Input (below left) and Output (below right): E.g. #1 Sweet corn silage with little water, crushed and pulped by QZ.

E.g. #2 Sweet corn silage mixed with water, crushed and pulped by QZ. E.g. #3 Sweet corn silage mixed with more water, crushed and pulped by QZ.

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Sugar beets Examples: Machine QZ 900 QZ 1200 QZ 1600 Throughput approx. 6 t/h approx. 12 t/h approx. 30 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture or the mineral percentage. Comparison of Input (below left) and Output (below right): E.g. #1 Sugar beets pulped and homogenized by Bio-QZ.

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Oil radish, grass silage Examples: Machine QZ 900 QZ 1200 Throughput approx. 3 t/h approx. 5 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture or the mineral percentage. Comparison of Input (below left) and Output (below right): Bsp.1 Shredded oil radish processed by Bio-QZ.

Bsp. 2 Shredded grass silage processed by Bio-QZ. Grass silage output after QZ:

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Landscape conservation (gras, shrub etc.) Examples: Machine QZ 900 QZ 1200 QZ 1600 Throughput 1,5-3 t/h 2-5 t/h up to 10 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture. Comparison of Input (below left) and Output (below right): E.g. #1 - Short cut grass mixed with water and pulped by QZ.

E.g. #2 - Long cut grass with water pulped in QZ. E.g. #3 Landscape work material mixed with water and pulped by QZ.

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Horse dung Examples: Machine QZ 900 QZ 1200 QZ 1600 Throughput approx. 1-2 t/h approx. 2-3 t/h approx. 5-8 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture. Comparison of Input (below left) and Output (below right): E.g. #1 Horse manure pulped by QZ without water.

E.g. #2 - Digest material with few water added and pulped by QZ. E.g. #3 - Water and Horse manure, homogeneous output material. E.g. #4 - Water and Horse manure, homogeneous output material, strongly diluted.

The patented Bio-QZ Leftovers / packaged food machines plants process solutions

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Packed food, Leftovers Examples: Machine QZ 900 QZ 1200 QZ 1600 Throughput approx. 2-4 t/h approx. 4-6 t/h approx. 6-10 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture. Comparison of Input (below left) and Output (below right): E.g. #1 - Packed food pulped by QZ. Packaging stays intact and can be separated easily.

E.g. #2 Same result as E.g. #1 E.g. #3 Same result as E.g. #1 E.g. #4 - Leftovers pulped by QZ

The patented Bio-QZ Slaughterhouse waste machines plants process solutions

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Slaughterhouse waste Examples: Machine QZ 900 Throughput approx. 1,5-3 t/h QZ 1200 approx. 2-5 t/h QZ 1600 up to 10 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture or the mineral percentage. Comparison of Input (below left) and Output (below right): E.g. #1 Flesh and bones pulped by Querstromzerspaner.

E.g. #2 Bowels, flesh and bones pulped by QZ. E.g. #3 Bowels pulped by QZ. E.g. #4 Slaughterhouse waste pulped by QZ.

Bio-QZ Processing Biomass for Fermentation Plants After multiple testing in our test pilot plant and at our customers who are already working with MeWa Querstromzerspaner (QZ) technology, we can rely on a broad scale of experience in the field of biomass processing. Specification: Biowaste container Examples: Machine QZ 900 QZ 1200 QZ 1600 Throughput up to 5 t/h 8-10 t/h 15-20 t/h Throughput depends on the operation mode of the QZ and the quality of the input material, e.g. the degree of moisture or the mineral percentage. Comparison of Input (below left) and Output (below right): E.g. #1 Biowaste material pulped by QZ, impurities and foils are not shredded and can be separated very easily.

E.g. #2 Biowaste material pulped by QZ E.g. #3 Biowaste material pulped by QZ, impurities like rubber, plastics etc. are not shredded and can therefore be separated easily.

Latest news Outstanding biomass treatment with the QZ Enables gas output to rise by up to 30% A farmer has been operating a state-of-theart biogas system in Zillertal, Austria since the start of 2008. In order to treat the bio waste, he uses the MeWa Querstromzerspaner with resounding success. Schlitters is a family-friendly holiday village located at the entrance to Zillertal, popular with tourists above all because of its sunny location and magnificent surrounding countryside. This combination of agriculture, tourism and environmental protection also plays a key role in the stateof-the-art plant at Biogas Schlitters GmbH. 6,000 tonnes throughput per year In an eco-friendly process, the plant in Schlitters produces electricity, heat and compost from around 6,000 tonnes of municipal bio waste, food waste from various tourist hotels, bed and breakfasts and guest houses using food which is out of date or frozen but still packaged from supermarkets and stores. The chains of the MeWa Querstromzerspaner work like a mortar crushing herbs. A key role in the plant design is played by a recycling technology machine: all bio waste initially lands in the patented MeWa Querstromzerspaner (QZ) for treatment. The machine forms an enclosed system and, in contrast to conventional shredding techniques, is fitted with chains rather than blades too. This is immediately associated with several benefits. Higher gas output Whereas machine systems with blades merely shred organic waste, the chains on the QZ work like a mortar crushing herbs. This process gives rise to a considerably larger surface area. In the ensuing fermentation process, a significantly larger contact surface is provided for the bacteria. The retention time of the biomass in the fermenter is speeded up and gas output is therefore increased significantly. Optimal treatment of substrate The type and composition of the quantities delivered to Schlitters each day fluctuates. Operators can react to this by varying retention times and formulations in the Querstsromzerspaner. Latterly the QZ has even replaced the otherwise conventional mixer. At the end, an optimally treated substrate is produced. Contamination by odours is also reduced considerably due to the enclosed system. Opening of packages The machine can also open packaged food, plastic bags and deep-frozen meals. In a subsequent separation stage, these packages can also be separated from organic substances.

Latest news The QZ 900 s treatment of biomass is impressive. Typical content of a bio waste collection barrel. Metal parts are no problem The machine is not sensitive to the metal parts that are also frequently found in bio waste. The axle of a collection barrel or mineral parts such as stones or concrete slabs are no obstacle for the QZ. Indeed the recycling machine was actually originally designed for metal compounds. In a last step, the substrate is homogenised in just one operation and treated making it ideal for the bacteria in the fermenter. Opening packaging with the Querstromzerspaner replaces a biological pre-treatment phase which would otherwise have to be carried out using hydrolysis, explains the plant construction engineer. A separator finally separates extraneous materials such as bones or wooden pieces, metal or foil packaging. The biomass is then sanitised and conducted to the fermenter where liquid manure from agriculture is added. For plant operator investment in the Querstromzerspaner has already paid off. In Schlitters, the expected increase in biogas output was taken into account early on at the design stage. A block heating station converts the output at the end to heat and 330 kw electrical energy. All that is left at the last is fermentation residue. This not only smells more pleasant than liquid manure, it is better fertiliser too. This means the ecological balance in Schlitters is harmonious and the countryside the most valuable resource in this tourism region profits most. Input: packaged food. Output: perfectly treated substrate. Plastics can be separated easily. System control via computer. MACHINES PLANTS PROCESS SOLUTIONS www.mewa-recycling.com Mewa Recycling Maschinen und Anlagenbau GmbH D-75391 Gechingen Tel. +49 (0)7056 925-0 info@mewa-recycling.com

MeWa - Bio-QZ Fermentation plant upgrades QZ Investment raises throughput and gas output The fermentation plant in the county of Böblingen is configured for an annual throughput of biological waste of 30,000 metric tonnes. However, the technology that was originally deployed quickly reached its limits due to the different composition of the supplied material in biological waste bins. The municipal waste disposal works has now invested in the Querstromzerspaner made by MeWa. In doing so, they have optimised the entire process of disposal. MeWa - Latest Newsl February 2010

MeWa - Bio-QZ With the annual throughput volume of 30,000 metric tonnes and a maximum power output of around 1.5 Megawatts (electrical), the fermentation plant in Leonberg is one of the largest in Germany. However, the reality used to be different. The target value appeared to be unattainably high for the two block-type thermal power stations because the actual gas yield was significantly lower than the plant design seemed to promise. To increase the economic efficiency and to reduce the vulnerabilities for extraneous material, the plant operators began looking for a technology that could replace the shredders that has been used to date. Material perfectly processed The local council found what they were looking for at MeWa: the patented Querstromzerspaner. With its chains, the machine processes the initial materials significantly more efficiently, exposing packaging materials, plastics, textiles, pieces of wood or bones. Even pieces of metal are no obstacle for the QZ (which in fact has its origins in recycling technology). After separation, around 30 metric tonnes of iron parts and 300 metric tonnes of other non-organic wastes, for the most part plastics, accumulate in the Leonberg fermentation plant every year. Until now, Ideal separation of waste: However packaging waste is thrown into the bio-waste container. This has to be separated before fermentation. the material was inadequately broken down by a first shredder, which meant it had to run through a second granulation stage and was then fed back into the grading screen. Even then, the plant operators identified an inorganic proportion in the separated material that was much too high. The multiple runs in the granulation stages also meant that extraneous materials were granulated further, thus enabling them to enter the fermenter. The two shredders and the return circuit have since been removed from the process. A scrapping belt conveyor is now transporting the input material directly into the QZ. The material is perfectly processed in only one work step. Metal and other packaging is removed from the screened organic material, which can now be transported directly into the storage bin and pumped into the fermenter. More than 20 metric tonnes throughput per hour and resistent to metalic contraries: The patented Querstromzerspaner by MeWa. MACHINES PLANTS PROCESS SOLUTIONS www.mewa-recycling.com MeWa Recycling Maschinen und Anlagenbau GmbH. D-75391 Gechingen. Tel.: +49 7056 925-0