Abstract
Smart and green electric vehicle charging needs digital support which integrates systems from the energy, transport and building sectors. The GreenCharge project has proposed, demonstrated, and evaluated such support in an urban living lab setting. The proposed solutions are documented in a Reference Architecture meant to act as a blueprint both facilitating the extension and integration of the involved systems in the prototype implementation and supporting replication. However, successful uptake also depends heavily on motivating and engaging relevant stakeholders. In this paper, we share our experience and lessons learned from the design, implementation, and deployment of the proposed solutions in an urban housing cooperative. Barriers and drivers regarding this innovation process are identified and recommendations to overcome the barriers are suggested. The findings are intended to help stakeholders and policy makers to develop successful strategies for sustainable electric mobility and electric energy supply.
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References
ENTSO-E.: Position paper on electric vehicle integration into power grids (2021)
Natvig, M., Jiang, S., Hallsteinsen, S.: Stakeholder motivation analysis for smart and green charging for electric mobility. In: Barolli, L., Amato, F., Moscato, F., Enokido, T., Takizawa, M. (eds.) WAINA 2020. AISC, vol. 1150, pp. 1394–1407. Springer, Cham (2020). https://doi.org/10.1007/978-3-030-44038-1_127
Natvig, M., Jiang, S., Hallsteinsen, S.: Initial architecture design and interoperability specification. GreenCharge Project Deliverable D4.1 (2019)
Salpakari, J., Rasku, T., Lindgren, J., Lund, P.D.: Flexibility of electric vehicles and space heating in net zero energy houses: an optimal control model with thermal dynamics and battery degradation. Appl. Energy 190, 800–812 (2017)
Iversen, E.B., Morales, J.M., Madsen, H.: Optimal charging of an electric vehicle using a Markov decision process. Appl. Energy 123(C), 1–12 (2014)
Ottesen, S.Ø.: The need for data and algorithms. Solenergi webinar, 22 June 2021
Steen, K., van Bueren, E.: the defining characteristics of urban living labs. Technol. Innov. Manag. Rev. 7(7), 21–33 (2017)
Hevner, A.R.: A three cycle view of design science research. Scand. J. Inf. Syst. 19(2), 87–92 (2007)
Engels, D.: Refined CIVITAS process and impact evaluation framework (2015)
Natvig, M., Sard, R., Jiang, S., Hallsteinsen, S., Venticinque, S.: Intermediate result for innovation effects evaluation/intermediate evaluation result for stakeholder acceptance analysis. GreenCharge Project Deliverable D5.4/6.3 (2021)
Acknowledgments
Authors of this paper, on behalf of GreenCharge consortium, acknowledge the European Union and the Horizon 2020 Research and Innovation Framework Programme for funding the project (grant agreement n° 769016). The authors would like to thank all project partners for the collaboration and project management, in particular, ZET, eSmart and Fortum for the implementation of the prototype for Oslo ULL, as well as Røverkollen for the support and involvement.
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Jiang, S., Natvig, M., Hallsteinsen, S., Lindberg, K.B. (2022). Lessons Learned from Demonstrating Smart and Green Charging in an Urban Living Lab. In: Barolli, L., Hussain, F., Enokido, T. (eds) Advanced Information Networking and Applications. AINA 2022. Lecture Notes in Networks and Systems, vol 451. Springer, Cham. https://doi.org/10.1007/978-3-030-99619-2_58
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DOI: https://doi.org/10.1007/978-3-030-99619-2_58
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