In order to optimize the operation of biomass boilers, the BM Retrofit Saalfelden demonstration project is now carrying out further detailed investigations to increase the boiler efficiency and to reduce the residual oxygen content in the flue gas in order to ensure complete burnout conditions in the gas phase and stable boiler operation. This means that the existing boilers will be retrofitted to achieve an even better yield.<\/p>\n

To this end, available control strategies and sensors (e.g. CO lambda control) will be analyzed and technical and economic evaluations will be carried out to ensure long-term economic operation. Innovative approaches that allow optimized and precisely measurable control of the operation using sensor technology are key elements that are being investigated at the Saalfelden site.<\/p>\n

For example, an integration concept for the integration of a compression heat pump into the existing flue gas condensation (heat source) has been further developed to further increase efficiency. In the winter of 2023, a heat pump cascade (three heat pumps with 250 kW each) was added to the heating plant. The district heating return is used as a heat sink. The energy is therefore coupled into the boiler circuit as preheated boiler RL (return flow boosting).<\/p>\n

What are the benefits? Thanks to the many measures to increase efficiency, the capacity of the heating network can be increased accordingly, allowing the network to be expanded in a targeted manner. This means that more households can be supplied with green heat.<\/p>\n

In the research project, network expansion and densification will be accompanied by thermohydraulic simulations and calculations in order to best explore the limits of sustainable network expansion.<\/p>\n

The BM Retrofit demonstrator in Saalfelden am Steinernen Meer is an impressive example of how biomass heating plants can be made fit for an even greener energy future.<\/p>\n

Read more about the BM Retrofit research project:<\/p>\n