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Copyright: | © Thomé-Kozmiensky Verlag GmbH | |
Quelle: | Berliner Immissionsschutz-Konferenz 2010 (Dezember 2010) | |
Seiten: | 17 | |
Preis inkl. MwSt.: | € 0,00 | |
Autor: | Dr. Manfred Rebentisch | |
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Feasability Study of Capturing CO2 from the Klemetsrud CHP Waste-to-Energy Plant in Oslo
© Thomé-Kozmiensky Verlag GmbH (9/2016)
The municipality of Oslo by Energigjennvinningsetaten (EGE) was in December 2015 awarded funding from Gassnova – a state owned company that coordinates the Norwegian CCS-work – to conduct a feasibility study. The purpose of the feasibility study was to demonstrate at least one workable solution for carbon capture from energy recovery for waste, with technical descriptions, cost estimates, project plan and plan and budget for the next phase.
CO2 Capture and Re-Use at a Waste Incinerator
© Thomé-Kozmiensky Verlag GmbH (9/2016)
Recently a new innovative process developed by Procede Gas Treating B.V. has been commissioned at line 3 of the Twence plant, a Waste-To-Energy (WTE) plant located in the eastern part of the Netherlands. In this process the CO2, that usually is emitted to atmosphere, is in this new application, scrubbed from the flue gas and the obtained pure CO2 stream is used to produce a sodium bicarbonate slurry (SBC). Instead of the conventional SBC flue gas scrubbing process, where dry SBC particles are used, this SBC slurry will be injected to remove the acid components from the flue gas, before the gas is emitted to atmosphere. Due to the implementation of this process the carbon footprint of the Twence installation is reduced. The new SBC plant produces 8,000 tons of sodium bicarbonate annually and to produce this amount of SBC 2,000 ton per year CO2 is captured from the flue gas. The CO2 originates for about 50 percent from biomass.
Modelling of Solid Recovered Fuel (SRF) Properties Based on Material Composition – Chloride Quality
© Thomé-Kozmiensky Verlag GmbH (9/2016)
Producing solid recovered fuels (SRF) is a well-established route for recovering energy resources from municipal solid waste (household and/or commercial). Chloride content critically impacts the quality of SRF. It directly influences operation of thermal processes, having deleterious effects through the high temperature corrosion of the boilers and through demands placed on the flue gas treatment (FGT) system, which could impact emissions control. Whereas design and specification of process plant can mitigate the technical issues associated with the presence of chloride experienced during thermal treatment, processing such fuels is associated with increased capital, operating and maintenance costs. This, at best, restricts the uptake/use of SRF or increases the cost of its treatment towards achieving a reduced chloride content.
Deutliche Nuancen - Die Abgasreinigungsverfahren und deren Kombinationen weisen unterschiedliche Leistungsfähigkeiten auf
© Rhombos Verlag (7/2011)
Von Fall zu Fall
© Rhombos Verlag (7/2011)
Der Zielkonflikt zwischen Immissionsschutz und Energieeffizienz erfordert meist einen prozessspezifischen Ansatz