FuelBand - Broadening the range of fuels in modern biomass combustion chambers

Third party funded individual grant

Project Details

Project leader:
Prof. Dr.-Ing. Jürgen Karl

Project members:
Thomas Plankenbühler

Contributing FAU Organisations:
Lehrstuhl für Energieverfahrenstechnik

Funding source: Bundesministerium für Wirtschaft und Technologie (BMWi)
Acronym: FuelBand
Start date: 01/10/2012
End date: 30/09/2015
Extension Date: 31/12/2015

Research Fields

Combustion and gasification of biomass
Lehrstuhl für Energieverfahrenstechnik

Abstract (technical / expert description):

The project “FuelBand” focuses on the prediction of slagging formation in biomass fuelled boilers – one main objective is to allow a fuel flexibility in both existing and newly‑planned combustion chambers. The results of the project can lead to a better judgement of risks and possibilities when fuels with a high amount of ash or fine particles are applied.

The main objective is to describe and localise the slagging behaviour in biomass fuelled boilers in a simple, yet powerful and general model. By means of CFD simulations, the slagging formation can be described based on already available fuel parameters such as the proximate analysis, the fine particle content and the ash melting temperature as well as the combustion chamber geometry and residence time. Using a lab scale fluidised bed boiler, slagging experiments performed with a variety of fuels and fuel mixes allow model development and validation. In collaboration with plant operators and manufacturers, CFD was applied to further validate achieved results in four existing biomass power plants in the range of up to 30 MW thermal power. Based on CFD simulations, the operators’ experience and lab experiments obtained characteristic diagrams which potentially allow an easy transferability to a broad variety of boilers using different kinds of biomass fuels.

Last updated on 2018-22-11 at 20:02