Referierte Beiträge (27)
- (2023). Technical Summary. In C. AGörg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Eigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 105-170). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_4?pdf=chapter%20toc.
- (2023). Technische Zusammenfassung. In C. AGörg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Eigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 35-104). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_3?pdf=chapter%20toc.
- (2023). Zusammenfassung für Entscheidungstragende. In C. Görg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Eigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 1-17). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_1?pdf=chapter%20toc.
- (2023). Summary for Policy Makers. In C. Görg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Aigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 19-33). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_2?pdf=chapter%20toc.
- (2023). Theorien des Wandels und der Gestaltung von Strukturen: Innovationsperspektive (Kapitel 26). In C. Görg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Eigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 663-674). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_30?pdf=chapter%20toc.
- (2023). Theorien des Wandels und der Gestaltung von Strukturen (Kapitel 24). In C. Görg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Aigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 651-652). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_28?pdf=chapter%20toc.
- (2023). Integrierte Perspektiven auf Strukturbedingungen (Kapitel 10). In C. Görg, Madner, V., Muhar, A., Novy, A., Posch, A., Steininger, K. W., & Aigner, E. (Eds.), APCC Special Report: Strukturen für ein klimafreundliches Leben (pp. 347-349). Berlin/Heidelberg: Springer Spectrum. Retrieved from https://link.springer.com/content/pdf/10.1007/978-3-662-66497-1_14?pdf=chapter%20toc.
- (2023). Navigating missions: experiences from a long-term R&I programme to transform the building sector in Austria. Sci Publ Policy, 2023, 1-13. doi:10.1093/scipol/scad055.
- (2022). An agenda for future Social Sciences and Humanities research on energy efficiency: 100 priority research questions. Humanities &Amp; Social Sciences Communications, 9, 18. doi:10.1057/s41599-022-01243-z.
- (2022). The Learning City: Temporary Housing Projects as Urban Niches for Sustainability Experiments. Sustainability. 2022, 14(9), 1-19. doi:10.3390/su14095198.
- (2020). Amplified socio-technical problems in converging infrastructures. A novel topic for technology assessment. Tatup - Zeitschrift Für Technikfolgenabschätzung In Theorie Und Praxis, 29, 11-16. doi:10.14512/tatup.29.2.11.
- (2020). Sector coupling of renewable energy in an experimental setting. Findings from a smart energy pilot project in Austria. Tatup - Zeitschrift Für Technikfolgenabschätzung In Theorie Und Praxis, 29, 38-44. doi:10.14512/tatup.29.2.38.
- (2020). The role of competences, engagement, and devices in configuring the impact of prices in energy demand response: Findings from three smart energy pilots with households. Energy Policy, 35, 11. doi:10.1016/j.enpol.2019.111142.
- (2019). The Role of Experiments and Demonstration Projects in Efforts of Upscaling: An Analysis of Two Projects Attempting to Reconfigure Production and Consumption in Energy and Mobility. Sustainability, 2019, 5771. doi:10.3390/su11205771.
- (2017). From building small urban spaces for a car-free life to challenging the global regime of automobility – Cases from Vienna and Freiburg. In N. Frantzeskaki, Castán Broto, V., Coenen, L., & Loorbach, D. (Eds.), Urban Sustainability Transitions (pp. 191-209). London: Routledge. Retrieved from https://www.routledge.com/Urban-Sustainability-Transitions/Frantzeskaki-Broto-Coenen-Loorbach/p/book/9780415784184.
- (2016). Schlaue Gedanken zu smarter Technik, Konferenzbericht von der TA16. Tatup - Zeitschrift Für Technikfolgenabschätzung In Theorie Und Praxis, 25, 79-86. doi:10.14512/tatup.25.2.91.
- (2016). User satisfaction and well-being in energy efficient office buildings: Evidence from cutting-edge projects in Austria. Energy And Buildings, 118, 18-26. doi:10.1016/j.enbuild.2016.02.036.DOIWebseiteRISENWBIB Kurzfassung
This paper aims to improve our knowledge of energy use and well-being in energy efficient office buildings. It explores the interrelations between forms and patterns of energy use on the one hand and user satisfaction, comfort, and well-being on the other hand. Findings are derived from qualitative and quantitative data collected in a recently finished research project in Austria. Fieldwork consisted of two qualitative case studies as well as an online-based survey amongst users of energy efficient office buildings. In addition, secondary data from energy-monitoring research was used to underpin the analysis. The results show that extremely low levels of energy use in office buildings can be aligned with high levels of well-being. Based on empirical findings the paper argues that both well-being and energy performance in office buildings are the result of a complex, on-going and intertwined process that involves various material and social elements.
- (2013). Erfolgsversprechende Demand Response Empfehlungen im Energieversorgungssystem 2020. Informatik-Spektrum, 36, 17-26. doi:10.1007/s00287-012-0667-7.
- (2013). Of Solar Collectors, Wind Power, and Car Sharing: Comparing and Understanding Successful Cases of Grassroots Innovations. Global Environmental Change, 23, 856-867..
- (2012). Towards a Sustainable Spatial Organization of the Energy System: Backcasting Experiences from Austria. Sustainability, 4, 193-209. Retrieved from http://www.mdpi.com/2071-1050/4/2/193/.WebseiteRISENWBIB Kurzfassung
The transition to a sustainable energy system faces more challenges than a simple replacement of fossil energy sources by renewable ones. Since current structures do not favor sustainable energy generation and use, it is indispensable to change the existing infrastructure. A fundamental change of the energy system also requires re-organizing spatial structures and their respective institutions and governance structures. Especially in Austria, urban sprawl and unsustainable settlement structures are regarded as one of the main developments leading to increased energy demand. One of the aims within the project E-Trans 2050 was to identify socio-economic constellations that are central to the further transformation of the energy system and to focus on actors and their socio-technical framework conditions. Based on a sustainable future vision for the year 2050 a backcasting workshop was conducted to identify necessary steps for the envisaged transition to a more sustainable energy system. The results shed light on the necessary changes for a transformation towards sustainability in the specific Austrian situation. Critical issues are region-specific production of energy and its use, settlement and regional structures and values and role models, which all have a determining influence on energy demand. Combining the knowledge of extensive energy use with available energy resources in spatial planning decisions is a main challenge towards a long term sustainable energy system.