Scientific papers

Heike Brugger, Wolfgang Eichhammer, Nadezhda Mikova, Ewa Dönitz,
Energy Efficiency Vision 2050: How will new societal trends influence future energy demand in the European countries?, Energy Policy, Volume 152, 2021, 112216.

Mascherbauer, P., Kranzl, L., Yu, S., & Haupt, T. (2022). Investigating the impact of smart energy management system on the residential electricity consumption in Austria., Energy, 123665.

Alexandros Nikas, Georgios Xexakis, Konstantinos Koasidis, José Acosta-Fernández, Iñaki Arto, Alvaro Calzadilla, Teresa Domenech, Ajay Gambhir, Stefan Giljum, Mikel Gonzalez-Eguino, Andrea Herbst, Olga Ivanova, Mariësse A. E. van Sluisveld, Dirk-Jan Van De Ven, Anastasios Karamaneas, Haris Doukas, Coupling circularity performance and climate action: From disciplinary silos to transdisciplinary modelling science, Sustainable Production and Consumption, Volume 30, 2022.

Kochański, M.; Korczak, K.; Skoczkowski, T. Enablers and Barriers in the Market-Driven Rollout of Smart Metering: Polish Technology Innovation System Analysis. Energies 2021, 14, 5259.

Meta Thurid Lotz, Andrea Herbst, Matthias Rehfeldt, Kreislaufwirtschaft für die Dekarbonisierung des EU-Bausektors – Modellierung ausgewählter Stoffströme und Treibhausgasemissionen, 12. Internationale Energiewirtschaftstagung an der TU Wien, IEWT 2021

Marangoni, G., Tavoni, M. Real-time feedback on electricity consumption: evidence from a field experiment in ItalyEnergy Efficiency 14, 13 (2021)

Rostek, L.; Lotz, M.T.; Wittig, S.; Herbst, A.; Loibl, A.; Tercero Espinoza, L. (2022): A dynamic material flow model for the European steel cycle. Karlsruhe: Fraunhofer Institute for Systems and Innovation Research ISI

Katarzyna Korczak, Maksymilian Kochański, Tadeusz Skoczkowski,
Mitigation options for decarbonization of the non-metallic minerals industry and their impacts on costs, energy consumption and GHG emissions in the EU – Systematic literature review, Journal of Cleaner Production, Volume 358, 2022, 132006, ISSN 0959-6526.


Work package 2

Deliverable 2.1: Identyfying New Societal Trends impacting future energy demand

Work package 3

Deliverable 3.1: Pathways for New Societal Trends and gap analysis for demand models

Deliverable 3.3: Report on findings of the New Social Trends pathway analysis for all sectors including selected macro-economic impacts. 

Deliverable 3.5: Open data report

Work package 4

Deliverable 4.1: Diagnosis of energy demand-side policy needs at European level

Deliverable 4.2: Impact assessment of household-level behavioral interventions via smart-meter data

Deliverable 4.3: Assessment of energy demand-side models from the perspective of policy makers’ needs at European level

Deliverable 4.4: Recommendations for better design of energy-demand modeling based on policy makers’ needs

Work package 5

Deliverable 5.1: Statistical learning of residential electricity consumption data

Deliverable 5.2: Modeling of prosumagers and energy communities in energy demand models

Deliverable 5.3: Report on modelling the interaction of prosumagers and energy markets

Work package 6

Deliverable 6.2: Focus study report- Digitalisation in the tertiary sector

Deliverble 6.3: Policy case study on the implementation of selected CE-action and digitalization policies

Work package 7

Deliverable 7.1: Focus Study Report – Model development to simulate sharing economy and new trends in transport

Deliverable 7.2: Focus study report on sharing economy in the tertiary sector

Work package 8

Deliverable 8.3: Website and Logo Documentation

Deliverable 8.5: Policy briefs

Deliverable 8.6: Report on the 1st Stakeholder Meeting

Deliverable 8.7: Report on the 2nd Stakeholder Meeting

Deliverable 8.8: Report on the 3rd Stakeholder Meeting