Institutskolloquium: Prof. Dr. André Thess (Universität Stuttgart und DLR) - inkl. Lise-Meitner Preisverleihung
- https://www.physik.hu-berlin.de/de/kolloquium/kolloquia/institutskolloquium-prof-dr-andre-thess-universitaet-stuttgart-und-dlr
- Institutskolloquium: Prof. Dr. André Thess (Universität Stuttgart und DLR) - inkl. Lise-Meitner Preisverleihung
- 2021-07-06T15:00:00+02:00
- 2021-07-06T17:00:00+02:00
- Vortrag zum Thema "Carnot Batteries for large scale electricity storage and the decarbonization of coal power plants"
- Wann 06.07.2021 von 15:00 bis 17:00
- Wo Zoom
- iCal
Institutskolloquium: Prof. Dr. André Thess (Professor für Energiespeicherung an der Universität Stuttgart und Direktor des Instituts für Technische Thermodynamik am Deutschen Zentrum für Luft- und Raumfahrt) spricht zum Thema "Carnot Batteries for large scale electricity storage and the decarbonization of coal power plants".
Direkt vor dem Kolloquium wird der Lise-Meitner-Preis der Freunde und Förderer der Physik verliehen (15 Uhr). Das Kolloquium ist wie gewohnt für 15:15 Uhr angesetzt.
Der Kolloquiumsvortrag wird virtuell mithilfe von Zoom durchgeführt. Die Anmeldedaten werden im Vorfeld über die üblichen Mailverteiler versandt oder können unter gd-at-physik.hu-berlin.de erfragt werden.
Abstract
Coal-fired power plants are the largest single emitter of carbon dioxide worldwide. Against this background, Germany is discussing the decommissioning of coal-fired power plants and their replacement by low-carbon sources of electricity. However, such decommissioning incurs high costs and loss of firm power capacity. It is therefore a formidable challenge for energy research to develop cost-effective concepts for decarbonizing these plants. The DLR is currently carrying out research on large-scale electricity storage using the emerging technology of Carnot-Batteries. A Carnot-Battery transforms renewable electricity into high-temperature heat that is stored in low-cost thermal energy storage towers using molten salt at temperatures between 290°C and 565°C or ceramic solid storage with air as heat transfer medium at temperatures up to 750°C. The thermal energy is later transformed back to electricity on demand. Firm capacity can be guaranteed using renewable or fossil resources like biomass or natural gas for backup potentially covering the larger periods of several weeks without reasonable solar and wind resources.
Carnot-Batteries have the potential to solve the large-scale energy storage problem, in order to facilitate the future needs when extending the renewable energy production and use reliable, well known and low-cost components. The necessary storage capacity can be made available through Carnot batteries in short instance using the existing infrastructure of large conventional power plants and the grid connections and the existing experienced staff. Based on its expertise in Carnot-Batteries and thermal energy storage systems for solar thermal power plants the DLR has proposed to convert coal-fired power plants into storage power plants (SPP) by keeping a part of the infrastructure of the old plant and replacing the coal-fired boiler with the thermal energy storage together with leading utilities in Germany and worldwide.
The present communication will provide an overview of the technical features of storage power plants along with estimates of their costs and their role in the decarbonization of the German and global fleet of coal-fired power plants. The communication will also outline a proposal for a “Reallabor” in collaboration with a German utility company expected to provide the first plant-scale demonstration of the DLR concept. Finally, the communication will present the DLR Global Coal Atlas Project that intends to analyze the technical feasibility and the costs of decarbonizing coal-fired power plants worldwide.