WHAT IS SMART ABOUT CONTROLLING ELECTRIC ENERGY SYSTEMS? VIRTUAL POWER PLANTS AND THE DIGITIZATION OF THE GRID

Katja Müller

doi:10.31435/ijitss.2(46).2025.3289

Katja Müller University of Applied Sciences Merseburg, Merseburg, Germany

DOI: https://doi.org/10.31435/ijitss.2(46).2025.3289

Keywords: Virtual Power Plants, Digitisation, Digitalisation, Electricity Grid, Energy Market, Electricity Market

Abstract

Energy systems are said to be subject to a twin transition of decarbonisation and digitization. Virtual power plants are one part of creating the much proclaimed smart grid, situated at the intersection of electricity production and the electricity transmission. This paper investigates how virtual power plants work by showing their interrelation with the electricity market and the grid. With a focus on the German and European electricity system, the research shows that the market comes first and physic electricity feed-in second. Based on a market ideal, virtual power plants act as an aggregating tool for decentralized energy production and as a regulatory device reacting to supply and demand, albeit the programmes cannot rule out the risk of working against grid stability.

References

Abdelkader, Sobhy, Jeremiah Amissah, and Omar Abdel-Rahim. 2024. “Virtual Power Plants: An in-Depth Analysis of Their Advancements and Importance as Crucial Players in Modern Power Systems.” Energ Sustain Soc 14 (1). https://doi.org/10.1186/s13705-024-00483-y.

Armaroli, Nicola, and Vincenzo Balzani. 2011. “Towards an Electricity-Powered World.” Energy & Environmental Science 4:3193–3222. https://doi.org/10.1039/c1ee01249e.

Asmus, Peter. 2010. “Microgrids, Virtual Power Plants and Our Distributed Energy Future.” The Electricity Journal 23 (10): 72–82. https://doi.org/10.1016/j.tej.2010.11.001.

BDEW. 2024. “Energiewende: So Funktioniert Der Strommarkt in Europa.” Accessed July 11, 2024. https://www.bdew.de/online-magazin-zweitausend50/schnittstelle/energiewende-europa-strommarkt/.

Boyer, Dominic. 2019. Energopolitics: Wind and Power in the Anthropocene. Durham, London: Duke University Press.

Bundesministerium für Wirtschaft und Klimaschutz. 2024. “Zeitreihen Zur Entwicklung Der Erneuerbaren Energien in Deutschland.” Accessed August 15, 2024. https://www.bmwk.de/Redaktion/DE/Downloads/Energie/zeitreihen-zur-entwicklung-der-erneuerbaren-energien-in-deutschland-1990-2023.pdf?__blob=publicationFile&v=6.

Bundesverband Windenergie. 2024. “Windenergie in Deutschland - Zahlen Und Fakten.” Accessed August 15, 2024. https://www.wind-energie.de/themen/zahlen-und-fakten/deutschland/.

Castree, Noel. 2008. “Neoliberalising Nature: The Logics of Deregulation and Reregulation.” Environ Plan A 40 (1): 131–52. https://doi.org/10.1068/a3999.

Destatis. 2024. “Europa: Umwelt Und Energie.” Accessed August 15, 2024. https://www.destatis.de/Europa/DE/Thema/Basistabelle/UmweltEnergie.html.

Di Silvestre, Maria Luisa, Salvatore Favuzza, Eleonora Riva Sanseverino, and Gaetano Zizzo. 2018. “How Decarbonization, Digitalization and Decentralization Are Changing Key Power Infrastructures.” Renewable and Sustainable Energy Reviews 93:483–98. https://doi.org/10.1016/j.rser.2018.05.068.

entso-e. 2024a. “ENTSO-E Member Companies.” Accessed April 26, 2024. https://www.entsoe.eu/about/inside-entsoe/members/.

entso-e. 2024b. “Statistical Factsheet 2023: Provisional Values as of April 2024.” Accessed June 12, 2024. https://eepublicdownloads.blob.core.windows.net/public-cdn-container/clean-documents/Publications/Statistics/Factsheet/entsoe_sfs2023_web.pdf.

EPEX Spot. 2024. “EPEX SPOT Annual Market Review 2023.” Accessed July 11, 2024. https://www.epexspot.com/sites/default/files/download_center_files/2024-01-23_EPEX%20SPOT_Annual%20Press%20Release%202023_0.pdf.

European Parliament. 2024. “Internal Energy Market: Fact Sheets on the European Union.” Accessed July 11, 2024. https://www.europarl.europa.eu/factsheets/en/sheet/45/energiebinnenmarkt.

EWS Schönau. 2023. “Steigende Kosten Durch Redispatch.” Accessed August 15, 2024. https://www.ews-schoenau.de/blog/artikel/steigende-kosten-durch-redispatch/.

Fawcett, Tina, Jason Palmer, Nicola Terry, Brenda Boardman, and Uttara Narayan. 2024. “Using Smart Energy Meter Data to Design Better Policy: Prepayment Meter Customers, Fuel Poverty and Policy Targeting in Great Britain.” Energy Research & Social Science 116:103666. https://doi.org/10.1016/j.erss.2024.103666.

Franquesa, Jaume. 2018. Power Struggles: Dignity, Value, and the Renewable Energy Frontier in Spain. New anthropologies of Europe. Bloomington, IN: Indiana University Press.

Gesetz Für Den Ausbau Erneuerbarer Energien. EEG. Bundesministerium der Justiz. 2023.

Goia, Bianca, Tudor Cioara, and Ionut Anghel. 2022. “Virtual Power Plant Optimization in Smart Grids: A Narrative Review.” Future Internet 14 (5): 128. https://doi.org/10.3390/fi14050128.

Hans-Peter Hoeren. 2024. “Mehr Redispatch-Maßnahmen, Aber Geringere Kosten.” Zeitung für kommunale Wirtschaft, May 20, 2024. https://www.zfk.de/energie/strom/mehr-redispatch-massnahmen-aber-geringere-kosten.

Howe, Alyssa Cymene. 2019. Ecologics: Wind and Power in the Anthropocene. Durham: Duke University Press.

Humeres, Mónica. 2022. ““Meters Can Be Wonderful”: The Relevance of Democracy and Technical Aspects for User Acceptance of Smart Meter Policy in Chile.” Energy Research & Social Science 90:102613. https://doi.org/10.1016/j.erss.2022.102613.

Kloppenburg, Sanneke, and Marten Boekelo. 2019. “Digital Platforms and the Future of Energy Provisioning: Promises and Perils for the Next Phase of the Energy Transition.” Energy Research & Social Science 49:68–73. https://doi.org/10.1016/j.erss.2018.10.016.

Körner, Marc-Fabian, Johannes Sedlmeir, Martin Weibelzahl, Gilbert Fridgen, Moreen Heine, and Christoph Neumann. 2022. “Systemic Risks in Electricity Systems: A Perspective on the Potential of Digital Technologies.” Energy Policy 164:112901. https://doi.org/10.1016/j.enpol.2022.112901.

Lösch, Andreas, and Christoph Schneider. 2016. “Transforming Power/knowledge Apparatuses: The Smart Grid in the German Energy Transition.” Innovation: The European Journal of Social Science Research 29 (3): 262–84. https://doi.org/10.1080/13511610.2016.1154783.

Moore, Jason. 2015. Capitalism in the Web of Life: Ecology and the Accumulation of Capital. London: Verso.

Naval, Natalia, and Jose M. Yusta. 2021. “Virtual Power Plant Models and Electricity Markets - a Review.” Renewable and Sustainable Energy Reviews 149:111393. https://doi.org/10.1016/j.rser.2021.111393.

Pereira, Guillermo Ivan, Jan Martin Specht, Patrícia Pereira Silva, and Reinhard Madlener. 2018. “Technology, Business Model, and Market Design Adaptation Toward Smart Electricity Distribution: Insights for Policy Making.” Energy Policy 121:426–40. https://doi.org/10.1016/j.enpol.2018.06.018.

Quitzow, Leslie. 2023. “Smart Grids, Smart Households, Smart Neighborhoods – Contested Narratives of Prosumage and Decentralization in Berlin’s Urban Energiewende.” Innovation: The European Journal of Social Science Research 36 (1): 107–22. https://doi.org/10.1080/13511610.2022.2057934.

Roberts, Mike B., Sophie M. Adams, and Declan Kuch. 2023. “Social License to Automate Batteries? Australian Householder Conditions for Participation in Virtual Power Plants.” Energy Research & Social Science 104:103241. https://doi.org/10.1016/j.erss.2023.103241.

Rossi, Joni, Ankur Srivastava, Tran The Hoang, Quoc Tuan Tran, and Martin Warneryd. 2022. “Pathways for the Development of Future Intelligent Distribution Grids.” Energy Policy 169:113140. https://doi.org/10.1016/j.enpol.2022.113140.

Sareen, Siddharth, and Katja Müller, eds. 2022. Digitisation and Low-Carbon Energy Transitions. Basingstoke: Palgrave Macmillan.

Sarmiento-Vintimilla, Juan C., Esther Torres, Dunixe Marene Larruskain, and María José Pérez-Molina. 2022. “Applications, Operational Architectures and Development of Virtual Power Plants as a Strategy to Facilitate the Integration of Distributed Energy Resources.” Energies 15 (3): 775. https://doi.org/10.3390/en15030775.

Schwab, Adolf J. 2012. Elektroenergiesysteme: Erzeugung, Transport, Übertragung und Verteilung elektrischer Energie. Berlin, Heidelberg: Springer.

Siluk, J.C.M., P. S. de Carvalho, V. Thomasi, C. de O.A. Pappis, and J. L. Schaefer. 2023. “Cloud-Based Energy Management Systems: Terminologies, Concepts and Definitions.” Energy Research & Social Science 106:103313. https://doi.org/10.1016/j.erss.2023.103313.

Smith, Adam. 2007. An Inquiry into the Nature and Causes of the Wealth of Nations. Petersfield: Harriman House.

Statista. 2024a. “Anzahl Der Biogasanlagen in Deutschland in Den Jahren 1993 Bis 2023.” Accessed August 15, 2024. https://de.statista.com/statistik/daten/studie/167671/umfrage/anzahl-der-biogasanlagen-in-deutschland-seit-1992/.

Statista. 2024b. “Anzahl Insgesamt Installierter Photovoltaik-Stromspeicher in Deutschland in Den Jahren 2013 Bis 2023.” Accessed August 15, 2024. https://de.statista.com/statistik/daten/studie/1078876/umfrage/anzahl-installierter-solarstromspeichern-in-deutschland/.

Statista. 2024c. “Electricity Demand in the European Union (EU) From 2000 to 2023.” Accessed July 11, 2024. https://www.statista.com/statistics/1260536/eu-power-demand/.

St-Pierre, Emile. 2022. “Contested Energy Futures in Hokkaido: Speculating with European Renewable Energy Models.” In Digitisation and Low-Carbon Energy Transitions, edited by Siddharth Sareen and Katja Müller, 53–72. Basingstoke: Palgrave Macmillan.

Trahan, Ryan Thomas, and David J. Hess. 2021. “Who Controls Electricity Transitions? Digitization, Decarbonization, and Local Power Organizations.” Energy Research & Social Science 80:102219. https://doi.org/10.1016/j.erss.2021.102219.

Trautvetter, Christoph. 2024. “Übergewinne Richtig Besteuern: Ein Update Zur Debatte Über Krisengewinne Und Gewinngetriebene Inflation.” https://www.rosalux.de/publikation/id/51548/uebergewinne-richtig-besteuern.

van Summeren, Luc F.M., Sylvia Breukers, and Anna J. Wieczorek. 2022. “Together We're Smart! Flemish and Dutch Energy Communities' Replication Strategies in Smart Grid Experiments.” Energy Research & Social Science 89:102643. https://doi.org/10.1016/j.erss.2022.102643.

van Summeren, Luc F.M., Anna J. Wieczorek, Gunter J.T. Bombaerts, and Geert P.J. Verbong. 2020. “Community Energy Meets Smart Grids: Reviewing Goals, Structure, and Roles in Virtual Power Plants in Ireland, Belgium and the Netherlands.” Energy Research & Social Science 63:101415. https://doi.org/10.1016/j.erss.2019.101415.

Veskioja, Kaija, Ralf-Martin Soe, and Einari Kisel. 2022. “Implications of Digitalization in Facilitating Socio-Technical Energy Transitions in Europe.” Energy Research & Social Science 91:102720. https://doi.org/10.1016/j.erss.2022.102720.

Wider, Michael. 2022. “Wie Ist Unser Energiemarkt Entstanden? Eine Entstehungsgeschichte.” Accessed July 11, 2024. https://www.alpiq.de/alpiq-gruppe/medien/news-storys/news-stories-detail/wie-ist-unser-energiemarkt-entstanden-eine-entstehungsgeschichte.