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Indirect Waste Analysis: Waste Treatment Products

Indirect Waste Analysis: Waste Treatment Products. Paul H. Brunner Vienna University of Technology Institute for Water Quality and Waste Management http://awsnt.tuwien.ac.at. Methods for determining waste composition. waste treatment products. consump- tion. waste treatment. products.

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Indirect Waste Analysis: Waste Treatment Products

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  1. Indirect Waste Analysis:Waste Treatment Products Paul H. Brunner Vienna University of Technology Institute for Water Quality and Waste Management http://awsnt.tuwien.ac.at

  2. Methods for determining waste composition waste treatment products consump- tion waste treatment products production waste 2b 2a 1 3 1 direct analysis 2a analyses by market research 2b household statistics 3 analysis of waste treatment products

  3. FURNACE BOILER ESP FLUE GAS CLEANING DENOX Off-gas MSW H O Scrap Metal 2 Boiler Ash WASTE WATER TREATMENT Waste Water Bottom Ash ESP-Ash Water Alkaline Process Water Acidic Process Water ESP ... electrostatic precipitator Filter Cake MSW Incinerator Spittelau Source: SGP-VA

  4. Systems Definition of MSWI Spittelau water trade and supply commerce system boundary chemicals water atmosphere air acid control system denox wastewater treatment quenched dedusted MSW- exhaust electrostatic precipitator waste atmosphere incineration flue-gas flue-gas collection gas water water supply Bottom ash scrap filter dust waste water filter cake 'Voest' foreign river landfill landfill steel plant country ... measurment of goods [m³/h] or [t/h] ... measurment of concentration [mg/kg] E. Schachermayer, 1994

  5. 98+3 flue gas 709 off-gas 260 H2O “waste” 1000 “waste” 100 carbon <1E-filter dust <1waste water 22 E-filter dust <1filter cake 237bottom ash 32scrap 1,4+1bottom ash <1flue gas <1flue gas 37 E-filter dust 35+6 E-filter dust “waste” 100 “waste” 100 chlorine sulfur 8+1 waste water 54 waste water 7+1 filter cake <1filter cake 49+7 bottom ash 10bottom ash Transfercoefficients MSWI Spittelau E. Schachermayer, G. Bauer, 1994

  6. Transfercoefficients MSWI Spittelau off gas <1 off gas <1 off gas <1 E-filter dust 1 + 0,5 6 + 1 E-filter dust <1 waste water waste water <1 <1 filter cake 100 100 90 + 2 E-filter dust filter cake 100 cadmium <1 household waste household waste copper iron household waste <1 waste water filter cake <1 18 + 2 80 + ? 94 + 1 9 + 2 bottom ash scrap bottom ash bottom ash off gas <1 off gas <1 off gas <1 E-filter dust E-filter dust 28 + 5 30 + 3 E-filter dust 54 + 3 100 <1 waste water mercury 100 household waste 100 lead zinc household waste household waste waste water <1 filter cake <1 <1 Waste Water filter cake 66 + 5 <1 filter cake 72 + 5 46+3 5 + 1 _ bottom ash bottom ash bottom ash E. Schachermayer, 1994

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