Destinations for the High Calorific Fractions from Mechanical and Mechanical-Biological Treatment

High calorific fractions have the biggest share of the solid output of modern MBT plants. Finding an application for these fractions should be already done before starting to construct an MBT plant. This can be a challenge, especially in countries or regions, where thermal treatment options are unwanted. The paper describes properties of these materials, requirements on material quality and possible destinations. In Germany, SRF is mostly used in power plants, cement works and mono incineration plants. The most critical parameters are chlorine content and calorific value.

High calorific fractions (coarse fractions) have the biggest share of the solid output of modern MBT plants. Finding an application for these fractions should be already done before starting to construct an MBT plant. This can be a challenge, especially in countries or regions, where thermal treatment options are unwanted. Putting the high calorific fractions on a landfill would be wasting precious resources.
The main objective of this paper is to identify the types of industries that can or do accept RDF / SRF (Solid Recovered Fuel) input and to recognize the quality requirements for the SRF.



Copyright: © Arbeitsgemeinschaft Stoffspezifische Abfallbehandlung ASA e.V.
Quelle: 9. Recyclingtage 2012 (September 2012)
Seiten: 10
Preis inkl. MwSt.: € 5,00
Autor: Dr.-Ing. Matthias Kühle-Weidemeier
Alejandra Diaz Mejorada

Artikel weiterleiten In den Warenkorb legen Artikel kommentieren


Diese Fachartikel könnten Sie auch interessieren:

Development of local municipal solid waste management in the Western Transdanubia region of Hungary
© Lehrstuhl für Abfallverwertungstechnik und Abfallwirtschaft der Montanuniversität Leoben (11/2020)
Hungarian municipal solid wastes (MSW) management has developed tremendously over the past 15 years. More than 3,000 landfills and dumps had been closed, just to mention one improvement. However, still, lots of work is necessary to accomplish the EU’s ambitious aim of decreasing landfilling and increasing recycling and composting.

Innovative Concepts for Highly Efficient Energy-from-Waste Plants in the Netherlands
© Thomé-Kozmiensky Verlag GmbH (9/2011)
In 2008 AE&E Lentjes GmbH received the order for the turnkey supply of the incineration unit REC Harlingen (REC=ReststoffenEnergieCentrale). In this plant the high calorific portion of pre-treated municipal solid waste is thermally treated.

Energetische Verwertung in der Wirbelschicht für kommunale und industrielle Abfälle
© Thomé-Kozmiensky Verlag GmbH (9/2010)
Ersatzbrennstoff-Anlage im Industriepark Höchst

Increasing energy efficiency: A plant manufacturers view
© Wasteconsult International (6/2010)
To increase the energy efficiency of the waste-to-energy plants is the main challenge of each plant manufacturer. This article lists some current trends and picks- up three of them by mean of examples from current Keppel Seghers projects.

The Thermal Waste Utilisation Plant MSZ3 Moscow as an Example of Implementing and Operating a Combined Heat and Power Plant
© Thomé-Kozmiensky Verlag GmbH (3/2010)
EVN AG is a leading utility that provides energy and environmental services on an international scale. Domiciled in Lower Austria, the largest state of Austria, it is listed on the Austrian stock exchange. With its energy sector, EVN operates not just in Austria but has successfully expanded to Bulgaria and Macedonia. For its environmental services, EVN has acquired considerable expertise in Austria and in many countries in Central, Eastern and South-Eastern Europe. EVN supplies electricity, gas, heating and clean drinking water to its customers and takes care of proper sewage disposal and ecological garbage treatment.

Name:

Passwort:

 Angemeldet bleiben

Passwort vergessen?