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The Circular Bioeconomy, beyond synergies and competition with full electrification strategies

Energy, Sustainability and Society welcomes submissions to the thematic series on long-term visions for Circular Bioeconomy Research, Development, and Deployment.

Keywords: multidisciplinarity, interdisciplinarity, transformation pathways, synthetic solutions, biobased solutions, system integration


On the synthetic (share of the) future: Costs for renewable electricity from photovoltaic and wind power plants continuously decrease and can be expected to tend towards zero in the upcoming decades. This development is accompanied by further electrification of various services, including mobility, residential heating, and potentially hard-to-abate sectors such as high-temperature heat for industry, air, maritime transportation, and chemical production. Ultimately, low-cost renewable electricity will help us to close material loops and enable the Circular Economy. Rapid progress in the respective fields provides hopeful prospects for engineering our way out of the climate crisis.

On the biobased (share of the) future: At the same time, we experience giant leaps in bioengineering, our understanding of sustainably managing the biosphere, and the resource democratic importance of forestry, agriculture, and aquaculture. Biomimicry provided and will provide invaluable perspectives. Those perspectives are essential for specific innovations and, on a systemic level, for improving our networks' anticipatory self-organization. We increasingly acknowledge the limited, but significant "recycling capacity" of nature, the urgency, and opportunities to take it into account in policies and the economy. In contrast to the "more synthetic" solutions described in the first paragraph, automatizing the complex nexus biosphere/technosphere is more challenging. On the one hand, this means that we might experience massive backflows and relocation of jobs into the Circular Bioeconomy in the following decades. We can also hope for technological, organizational, and social learning in these sectors, while digitalization holds many exciting opportunities, too. However, on the other hand, a considerable production cost gap for biobased products over synthetic products, including materials, energy, and food, might emerge soon, only to exaggerate in the upcoming decades.

Research questions and goal:

For this article collection, we want to focus on:

  1. The inherent benefits of Bioeconomy practices, justifying potential production cost gaps. Materials and, even more so, food are challenging to imagine being produced from electricity. However, respective technologies are on a lab scale and partly demonstrated at the moment. Bioenergy is already often denoted as a "bridging or transition solution." How can we reason research, development, and deployment in the Bioeconomy sectors for the times after achieving 100% renewable electricity at vanishing production costs?
  2. The emergent benefits of integration between synthetic and biobased systems, justifying a potentially higher cumulated production cost. Flexibility emerging from sector coupling between the electricity grid, mobility, residential heating, and industrial heat is the overall strategy to tackle the increasing share of intermittent renewables. Broader system coupling, or system integration, between renewables, Hydrogen Economy, Circular Economy, and the Bioeconomy must provide valuable system coupling, too. What are those benefits, how can we measure them, and how can we design a framework that rewards them?

Scope and Info to the Authors:

We expect submissions from various natural, life, technology, and social sciences fields. A remaining research gap between sustainability and resilience science might be particularly relevant. Interdisciplinary approaches and manuscripts are encouraged. Please also provide a short paragraph on the benefits of integrating methodologies of different disciplines.

Submission Instructions

Before submitting your manuscript, please ensure you have carefully read the submission guidelines for Energy, Sustainability and Society. The complete manuscript should be submitted through the Energy, Sustainability and Society submission system. To ensure that you submit to the correct thematic series please select the appropriate thematic series in the drop-down menu upon submission. In addition, indicate within your cover letter that you wish your manuscript to be considered as part of the thematic series on 'The Circular Bioeconomy, beyond synergies and competition with full electrification strategies'. All submissions will undergo rigorous peer review and accepted articles will be published within the journal as a collection.

Lead Guest Editor

Dr. Fabian Schipfer
TU Wien, Austria

Guest Editor

Dr. Svetlana Proskurina
LUT School of Energy Systems, Finland 

Submissions will also benefit from the usual advantages of open access publication:

  • Rapid publication: Online submission, electronic peer review and production make the process of publishing your article simple and efficient
  • High visibility and international readership in your field: Open access publication ensures high visibility and maximum exposure for your work - anyone with online access can read your article
  • No space constraints: Publishing online means unlimited space for figures, extensive data and video footage
  • Authors retain copyright, licensing the article under a Creative Commons license: articles can be freely redistributed and reused as long as the article is correctly attributed

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  1. Human and earth system modeling, traditionally centered on the interplay between the energy system and the atmosphere, are facing a paradigm shift. The Intergovernmental Panel on Climate Change’s mandate for c...

    Authors: Fabian Schipfer, Pralhad Burli, Uwe Fritsche, Christiane Hennig, Fabian Stricker, Maria Wirth, Svetlana Proskurina and Sebastian Serna-Loaiza
    Citation: Energy, Sustainability and Society 2024 14:34
  2. Global warming and the increasing risk of natural disasters force us all to act. As the reduction of carbon dioxide (CO2) emissions has been proven effective but insufficient on its own, Carbon Capture and Utiliz...

    Authors: Wiktoria Wilkowska, Imke Tabea Haverkämper and Martina Ziefle
    Citation: Energy, Sustainability and Society 2024 14:24
  3. Innovations and new supply chain concepts are crucial for establishing a sustainable and circular bio-economy that reduces carbon emissions and lowers negative environmental impacts. PESTEL-based concept devel...

    Authors: Linda Blümel, Konrad Siegfried, Fabian Riedel and Daniela Thrän
    Citation: Energy, Sustainability and Society 2023 13:40
  4. With sustainable bioenergy in the European energy mix, intermediate bioenergy carriers (IBC) become of growing importance, as they can ensure a more efficient utilisation of biomass feedstocks from agricultura...

    Authors: Konrad Siegfried, Linda Blümel, Fabian Riedel, David Moosmann, Karl-Friedrich Cyffka, Mark Richters, Patrick Reumerman, John Vos, Magnus Matisons and Daniela Thrän
    Citation: Energy, Sustainability and Society 2023 13:37