Mechanical-Biological Stabilisation Plant in Fusina near Venice/Italy (260,000 t/y) – Twelve Years of Operating Experience –

This report is to illustrate the yield and the balance of utilization of the RDF produced at the Fusina integrated pole, comparing it with what is known about the waste combustion in incineration plants. The material and energy balances resulting from a monitoring during twelve years or running are to be used in the following comparisons.
Those balances prove the convenience of the process from the energetic point of view, also considering that the privileged outlet for the co-combustion of the produced RDF will be the thermo electrical power plant of Fusina.

The plant was built in the early 2000s, and became fully operational in late 2001. At the beginning only section 1 was dedicated to RDF production, with a capacity of 167,000 t per year, while section 2 was a composting plant for organic fraction from separated collection with a capacity of 70,000 t per year.

After several years of testing, ended in 2008, it has been decided to also convert section to in RDF production plant, with a capacity of 100,000 t per year. The revamping was completed at the end of 2010.

Today we are running regularly the two sections, reaching a total amount of 260,000 t per year of MSW treated.



Copyright: © TK Verlag - Fachverlag für Kreislaufwirtschaft
Quelle: Waste Management, Volume 4 (November 2014)
Seiten: 9
Preis inkl. MwSt.: € 0,00
Autor: Dr.-Ing. Simone Paoli

Artikel weiterleiten Artikel kostenfrei anzeigen Artikel kommentieren


Diese Fachartikel könnten Sie auch interessieren:

Situation and Waste Management Strategy of the Czech Republic and Experience in Planning, Construction and Operation of WtE and SRF Plants
© TK Verlag - Fachverlag für Kreislaufwirtschaft (12/2015)
Waste utilization has the potential of savings in using fossil fuels. In the Czech Republic, three incinerators of municipal waste are operating currently, there are many projects for implementation of others; unfortunately, they usually fail to succeed due to the economic evaluation. Support for the construction of new facilities for thermal treatment of waste is practically non-existent. Apparently, this could be solved through a number of alternative approaches – combined combustion, processing of sorted waste; however, a conceptual solution is still missing. The article aims to present the current situation and potential for the future.

Umsetzung der Umstellung einer Kompostieranlage aus (Vorschalt-) Vergärung
© Institut für Abfall- und Kreislaufwirtschaft - TU Dresden (9/2015)
Bereits seit Jahrhunderten werden für die Abfallwirtschaft vielfältige Technologien und Strategien entwickelt und zunehmend auch kommerziell umgesetzt, um die organischen Abfallfraktionen sowohl umweltverträglich als auch ökonomisch sinnvoll zu behandeln und möglichst auch zu verwerten.

Assessment of Dry and Semi-Dry Sorption Procedures on the Basis of Practice-Related Examples from the Field of Incineration Plants
© TK Verlag - Fachverlag für Kreislaufwirtschaft (11/2014)
In the course of the last years, semi-dry and conditioned dry sorption procedures with the use of Ca-based additive powder qualities as well as the dry sorption with the use of NaHCO3 gained special importance in the field of incineration plants. Starting from the prohibition of disposal in the year 2005 until today, the vast majority of new plants for waste and RDF combustion in Germany has been provided with one of these process technologies. This trend continues with regard to the new planning of WtE-plants in Europe and other parts of the world.

Ecoefficiency Comparison of the Anaerobic Digestion, Composting and Incineration of Bio-Waste
© TK Verlag - Fachverlag für Kreislaufwirtschaft (11/2014)
Whereas for a long time, the waste industry and waste management interest was focussed on safe and environmentally compatible disposal of unavoidable and recyclable waste, today the priority is renewable energy generation, reduction of greenhouse gas emissions and improving recycling management of recoverable materials. In this context, this paper deals specifically with bio-waste. Bio-waste produced in Germany is divided into the following most important partial flows: • Bio-waste and green waste (garden cuttings, etc.) from municipal collection • Landscape maintenance materials • Other organic waste, especially food waste from industry and commerce

Thermal Waste Treatment Plant Spittelau – New Construction to the Existing Plant –
© TK Verlag - Fachverlag für Kreislaufwirtschaft (11/2014)
The thermal waste treatment plant Spittelau is steeped in history and tradition. It is one out of four municipal solid waste incinerations plants in Vienna. The plant was built from 1969 until 1971 for the purpose of thermal utilization of municipal waste and household-type commercial waste as well as energy supply of the new General Hospital Vienna two kilometres away via district heating. The plant was equipped with two hot-water boilers to ensure heat supply at all times. Although it is located in the town-centre of Vienna its architectural structure did not differ significantly from the traditional plant structure.

Name:

Passwort:

 Angemeldet bleiben

Passwort vergessen?

SIUS GmbH
der Spezialist für biologische
und mechanisch-biologische
Verwertung organischer Stoffe