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Energy Research

Path creation in Nordic energy and road transport systems – The role of technological characteristics
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2017 Sweden, Norway, Denmark, Norway Publisher:Elsevier BV
Authors: Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; +2 Authors
Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; Wessberg; Nina;
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
This paper reviews path-creation processes in road transport systems in the Nordic countries: e-mobility in Denmark, hydrogen and fuel-cell electrical vehicles in Norway, and advanced biofuels in Finland and Sweden. The study builds on the path creation literature, which seeks to explain the emergence of new technological pathways. Drawing on recent insights concerning the differences between design- and manufacturing-intensive technologies, the paper analyses the influence of technological characteristics on path creation processes. The case comparison indicates that technological characteristics seem to have greater influence on the content of activities in the later phase rather than the early phase of path creation processes. The analysis also emphasises that barriers to path creation processes differ depending on technological characteristics. This highlights the importance of considering technological characteristics in energy and transport policies.
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Article . 2017
Full-Text: http://www.sciencedirect.com/science/article/pii/S1364032116308851
Data sources: NIFU Open Access Archive
Renewable and Sustainable Energy Reviews
Article . 2017 . Peer-reviewed
License: CC BY NC ND
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Renewable and Sustainable Energy Reviews
Article
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Renewable and Sustainable Energy Reviews
Article . 2017
Data sources: VTT Research Information System
Renewable and Sustainable Energy Reviews
Article . 2017
License: CC BY NC ND
Data sources: BASE (Open Access Aggregator)
Norwegian Open Research Archives
Article . 2017
Data sources: Norwegian Open Research Archives
Lund University Publications
Article . 2017
Data sources: Lund University Publications
Online Research Database In Technology
Article . 2017
Data sources: Online Research Database In Technology
Renewable and Sustainable Energy Reviews
Article . 2016
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
License: CC BY NC ND
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Renewable and Sustainable Energy Reviews
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2017 . Peer-reviewed
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Article . 2017
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Article . 2017
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Norwegian Open Research Archives
Article . 2017
Data sources: Norwegian Open Research Archives
Lund University Publications
Article . 2017
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2016
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2017
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Path creation in Nordic energy and road transport systems – The role of technological characteristics
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2017 Sweden, Norway, Denmark, Norway Publisher:Elsevier BV
Authors: Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; +2 Authors
Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; Wessberg; Nina;
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
This paper reviews path-creation processes in road transport systems in the Nordic countries: e-mobility in Denmark, hydrogen and fuel-cell electrical vehicles in Norway, and advanced biofuels in Finland and Sweden. The study builds on the path creation literature, which seeks to explain the emergence of new technological pathways. Drawing on recent insights concerning the differences between design- and manufacturing-intensive technologies, the paper analyses the influence of technological characteristics on path creation processes. The case comparison indicates that technological characteristics seem to have greater influence on the content of activities in the later phase rather than the early phase of path creation processes. The analysis also emphasises that barriers to path creation processes differ depending on technological characteristics. This highlights the importance of considering technological characteristics in energy and transport policies.
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NIFU Open Access Archive
Article . 2017
Full-Text: http://www.sciencedirect.com/science/article/pii/S1364032116308851
Data sources: NIFU Open Access Archive
Renewable and Sustainable Energy Reviews
Article . 2017 . Peer-reviewed
License: CC BY NC ND
Data sources: Crossref
Renewable and Sustainable Energy Reviews
Article
License: CC BY NC ND
Data sources: UnpayWall
Renewable and Sustainable Energy Reviews
Article . 2017
Data sources: VTT Research Information System
Renewable and Sustainable Energy Reviews
Article . 2017
License: CC BY NC ND
Data sources: BASE (Open Access Aggregator)
Norwegian Open Research Archives
Article . 2017
Data sources: Norwegian Open Research Archives
Lund University Publications
Article . 2017
Data sources: Lund University Publications
Online Research Database In Technology
Article . 2017
Data sources: Online Research Database In Technology
Renewable and Sustainable Energy Reviews
Article . 2016
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
License: CC BY NC ND
Data sources: VTT Research Information System
Renewable and Sustainable Energy Reviews
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NIFU Open Access Archive
Article . 2017
Full-Text: http://www.sciencedirect.com/science/article/pii/S1364032116308851
Data sources: NIFU Open Access Archive
Renewable and Sustainable Energy Reviews
Article . 2017 . Peer-reviewed
License: CC BY NC ND
Data sources: Crossref
Renewable and Sustainable Energy Reviews
Article
License: CC BY NC ND
Data sources: UnpayWall
Renewable and Sustainable Energy Reviews
Article . 2017
Data sources: VTT Research Information System
Renewable and Sustainable Energy Reviews
Article . 2017
License: CC BY NC ND
Data sources: BASE (Open Access Aggregator)
Norwegian Open Research Archives
Article . 2017
Data sources: Norwegian Open Research Archives
Lund University Publications
Article . 2017
Data sources: Lund University Publications
Online Research Database In Technology
Article . 2017
Data sources: Online Research Database In Technology
Renewable and Sustainable Energy Reviews
Article . 2016
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
Data sources: VIRTA
Renewable and Sustainable Energy Reviews
Article . 2017
License: CC BY NC ND
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Calling energy inequalities into the transition agenda
descriptionPublicationkeyboard_double_arrow_right Article 2023Publisher:Elsevier BV
Authors: Klitkou Antje; Pluciński Przemysław; Baranowski Mariusz; Otto M. Ilona;
doi: 10.1016/j.erss.2023.103144
doi: 10.1016/j.erss.2023.103144
Energy Research & So...arrow_drop_down
Energy Research & Social Science
Article . 2023 . Peer-reviewed
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Article . 2023 . Peer-reviewed
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Calling energy inequalities into the transition agenda
descriptionPublicationkeyboard_double_arrow_right Article 2023Publisher:Elsevier BV
Authors: Klitkou Antje; Pluciński Przemysław; Baranowski Mariusz; Otto M. Ilona;
doi: 10.1016/j.erss.2023.103144
doi: 10.1016/j.erss.2023.103144
Energy Research & So...arrow_drop_down
Energy Research & Social Science
Article . 2023 . Peer-reviewed
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Article . 2023 . Peer-reviewed
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Forks in the Road to E-Mobility: An Evaluation of Instrument Interaction in National Policy Mixes in Northwest Europe
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2020 Denmark, Norway, Norway, Netherlands Publisher:MDPI AGFunded by:EC | POLFREE
EC| POLFREE
Authors: Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; +3 Authors
Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; Simon Bolwig; Mads Borup; Peter Møllgaard;
doi: 10.3390/en13020475
handle: 11250/2637183
doi: 10.3390/en13020475
handle: 11250/2637183
This paper evaluates how policy shaped the emergence of electric mobility in three countries, Norway, the Netherlands and Denmark, between 2010 and 2015. Whereas previous studies have looked at the effects of separate policy instruments, this paper gives insights in the interaction effects of instruments on the diffusion of battery electric cars between five policy areas. Based on analysis of synergetic, contradictory and pre-conditional effects, we find that an effective policy mix includes: fiscal incentives that mirror the actual carbon footprint of the respective vehicles; non-fiscal demand-side incentives; centrally financed and/or coordinated charging infrastructure; clarity regarding the choice of technology that will be supported. Moreover, development of a domestic, e-mobility-related industry and a high share of renewable energy strengthens the legitimization of e-mobility support. The findings help designing policy mixes in the transition to electric mobility.
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Energiesarrow_drop_down
Energies
Other literature type . 2020
License: CC BY
Full-Text: http://www.mdpi.com/1996-1073/13/2/475/pdf
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Energies
Article . 2020 . Peer-reviewed
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Article . 2020
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Energies
Article . 2020
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Energies
Article . 2020
License: CC BY
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Article . 2020
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Energies
Other literature type . 2020
License: CC BY
Full-Text: http://www.mdpi.com/1996-1073/13/2/475/pdf
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Energies
Article . 2020 . Peer-reviewed
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Energies
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Norwegian Open Research Archives
Article . 2020
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Forks in the Road to E-Mobility: An Evaluation of Instrument Interaction in National Policy Mixes in Northwest Europe
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2020 Denmark, Norway, Norway, Netherlands Publisher:MDPI AGFunded by:EC | POLFREE
EC| POLFREE
Authors: Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; +3 Authors
Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; Simon Bolwig; Mads Borup; Peter Møllgaard;
doi: 10.3390/en13020475
handle: 11250/2637183
doi: 10.3390/en13020475
handle: 11250/2637183
This paper evaluates how policy shaped the emergence of electric mobility in three countries, Norway, the Netherlands and Denmark, between 2010 and 2015. Whereas previous studies have looked at the effects of separate policy instruments, this paper gives insights in the interaction effects of instruments on the diffusion of battery electric cars between five policy areas. Based on analysis of synergetic, contradictory and pre-conditional effects, we find that an effective policy mix includes: fiscal incentives that mirror the actual carbon footprint of the respective vehicles; non-fiscal demand-side incentives; centrally financed and/or coordinated charging infrastructure; clarity regarding the choice of technology that will be supported. Moreover, development of a domestic, e-mobility-related industry and a high share of renewable energy strengthens the legitimization of e-mobility support. The findings help designing policy mixes in the transition to electric mobility.
downloaddonwloadFull-Text
Energiesarrow_drop_down
Energies
Other literature type . 2020
License: CC BY
Full-Text: http://www.mdpi.com/1996-1073/13/2/475/pdf
Data sources: Multidisciplinary Digital Publishing Institute
Energies
Article . 2020 . Peer-reviewed
License: CC BY
Data sources: Crossref
Energies
Article
License: CC BY
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Energies
Article . 2020
Data sources: DANS (Data Archiving and Networked Services)
Energies
Article . 2020
Data sources: DOAJ
Energies
Article . 2020
License: CC BY
Data sources: Maastricht University | MUMC+ Research Information
Energies
Journal
Data sources: Microsoft Academic Graph
Norwegian Open Research Archives
Article . 2020
Data sources: Norwegian Open Research Archives
Online Research Database In Technology
Article . 2020
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Article . 2020
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Energiesarrow_drop_down
Energies
Other literature type . 2020
License: CC BY
Full-Text: http://www.mdpi.com/1996-1073/13/2/475/pdf
Data sources: Multidisciplinary Digital Publishing Institute
Energies
Article . 2020 . Peer-reviewed
License: CC BY
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Energies
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License: CC BY
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Energies
Article . 2020
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Energies
Article . 2020
Data sources: DOAJ
Energies
Article . 2020
License: CC BY
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Energies
Journal
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Norwegian Open Research Archives
Article . 2020
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Article . 2020
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Article . 2020
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Review of modelling energy transitions pathways with application to energy system flexibility
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019Embargo end date: 01 Mar 2021 Norway, Finland, Norway, Denmark Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; +3 Authors
Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; Andra Blumberga; Armands Gravelsins; Dagnija Blumberga;
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
Abstract The aim of this review is to discuss how quantitative modelling of energy scenarios for sustainable energy transition pathways can be made more realistic by taking into account insights from the socio-technical and related literatures. The proposition is that an enriched modelling approach would focus not just on technology development and deployment, but also on feedback loops, learning processes, policy and governance, behavioural changes, the interlinkages between the energy sector and other economic sectors, and infrastructure development. The review discusses a range of socio-technical concepts with a view to how they can enrich the understanding and modelling of highly complex dynamic systems such as flexible energy systems with high shares of variable renewable energy. In this context, application of system dynamics modelling (SDM) for the analysis of energy transitions is also introduced by describing the differences between SDM and a traditional modelling approach that uses econometric and linear programming methods. A conceptual framework for this type of modelling is provided by using causal loop diagrams. The diagrams illustrate the endogenous approach of SDM – understanding and modelling the structure of a system, which is responsible for its dynamic behaviour. SDM can also capture the co-evolution of economic, policy, technology, and behavioural factors over sufficiently long time periods, which is necessary for the analysis of transition pathway dynamics. In this regard, the review summarises how socio-technical concepts can be approached in SDM and why they are relevant for the analysis of flexibility in energy systems. From a computational point of view, it could be beneficial to combine SDM with technologically detailed energy system optimization models and that could be a way forward for achieving more realistic, non-linear quantitative modelling of sustainable energy transitions.
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Article . 2018
Full-Text: http://www.nordicenergy.org/flagship/flex4res/
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Article . 2019
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Article . 2019 . Peer-reviewed
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Review of modelling energy transitions pathways with application to energy system flexibility
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019Embargo end date: 01 Mar 2021 Norway, Finland, Norway, Denmark Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; +3 Authors
Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; Andra Blumberga; Armands Gravelsins; Dagnija Blumberga;
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
Abstract The aim of this review is to discuss how quantitative modelling of energy scenarios for sustainable energy transition pathways can be made more realistic by taking into account insights from the socio-technical and related literatures. The proposition is that an enriched modelling approach would focus not just on technology development and deployment, but also on feedback loops, learning processes, policy and governance, behavioural changes, the interlinkages between the energy sector and other economic sectors, and infrastructure development. The review discusses a range of socio-technical concepts with a view to how they can enrich the understanding and modelling of highly complex dynamic systems such as flexible energy systems with high shares of variable renewable energy. In this context, application of system dynamics modelling (SDM) for the analysis of energy transitions is also introduced by describing the differences between SDM and a traditional modelling approach that uses econometric and linear programming methods. A conceptual framework for this type of modelling is provided by using causal loop diagrams. The diagrams illustrate the endogenous approach of SDM – understanding and modelling the structure of a system, which is responsible for its dynamic behaviour. SDM can also capture the co-evolution of economic, policy, technology, and behavioural factors over sufficiently long time periods, which is necessary for the analysis of transition pathway dynamics. In this regard, the review summarises how socio-technical concepts can be approached in SDM and why they are relevant for the analysis of flexibility in energy systems. From a computational point of view, it could be beneficial to combine SDM with technologically detailed energy system optimization models and that could be a way forward for achieving more realistic, non-linear quantitative modelling of sustainable energy transitions.
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What Is the Bioeconomy? A Review of the Literature
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2016 Sweden, Norway, Norway Publisher:MDPI AG
Authors: Markus Bugge; Teis Hansen; Antje Klitkou;
doi: 10.3390/su8070691
handle: 11250/2420752
doi: 10.3390/su8070691
handle: 11250/2420752
The notion of the bioeconomy has gained importance in both research and policy debates over the last decade, and is frequently argued to be a key part of the solution to multiple grand challenges. Despite this, there seems to be little consensus concerning what bioeconomy actually implies. Consequently, this paper seeks to enhance our understanding of what the notion of bioeconomy means by exploring the origins, uptake, and contents of the term “bioeconomy” in the academic literature. Firstly, we perform a bibliometric analysis that highlights that the bioeconomy research community is still rather fragmented and distributed across many different fields of science, even if natural and engineering sciences take up the most central role. Secondly, we carry out a literature review that identifies three visions of the bioeconomy. The bio-technology vision emphasises the importance of bio-technology research and application and commercialisation of bio-technology in different sectors of the economy. The bio-resource vision focuses on processing and upgrading of biological raw materials, as well as on the establishment of new value chains. Finally, the bio-ecology vision highlights sustainability and ecological processes that optimise the use of energy and nutrients, promote biodiversity, and avoid monocultures and soil degradation.
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What Is the Bioeconomy? A Review of the Literature
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2016 Sweden, Norway, Norway Publisher:MDPI AG
Authors: Markus Bugge; Teis Hansen; Antje Klitkou;
doi: 10.3390/su8070691
handle: 11250/2420752
doi: 10.3390/su8070691
handle: 11250/2420752
The notion of the bioeconomy has gained importance in both research and policy debates over the last decade, and is frequently argued to be a key part of the solution to multiple grand challenges. Despite this, there seems to be little consensus concerning what bioeconomy actually implies. Consequently, this paper seeks to enhance our understanding of what the notion of bioeconomy means by exploring the origins, uptake, and contents of the term “bioeconomy” in the academic literature. Firstly, we perform a bibliometric analysis that highlights that the bioeconomy research community is still rather fragmented and distributed across many different fields of science, even if natural and engineering sciences take up the most central role. Secondly, we carry out a literature review that identifies three visions of the bioeconomy. The bio-technology vision emphasises the importance of bio-technology research and application and commercialisation of bio-technology in different sectors of the economy. The bio-resource vision focuses on processing and upgrading of biological raw materials, as well as on the establishment of new value chains. Finally, the bio-ecology vision highlights sustainability and ecological processes that optimise the use of energy and nutrients, promote biodiversity, and avoid monocultures and soil degradation.
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Climate-friendly but socially rejected energy-transition pathways: The integration of techno-economic and socio-technical approaches in the Nordic-Baltic region
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2020 Norway, Norway, Denmark, Norway Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., RCN | Integration of Power Tran..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
RCN| Integration of Power Transmission Grids - Prospects and Challenges at National and European Levels in advancing the energy transition ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; +8 Authors
Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; Bergaentzlé, Claire; Borch, Kristian; Olsen, Ole Jess; Kirkerud, Jon Gustav; Chen, Yi kuang; Gunkel, Philip Andreas; Skytte; Klaus;
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors. A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors.
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Climate-friendly but socially rejected energy-transition pathways: The integration of techno-economic and socio-technical approaches in the Nordic-Baltic region
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2020 Norway, Norway, Denmark, Norway Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., RCN | Integration of Power Tran..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
RCN| Integration of Power Transmission Grids - Prospects and Challenges at National and European Levels in advancing the energy transition ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; +8 Authors
Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; Bergaentzlé, Claire; Borch, Kristian; Olsen, Ole Jess; Kirkerud, Jon Gustav; Chen, Yi kuang; Gunkel, Philip Andreas; Skytte; Klaus;
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors. A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors.
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Modelling energy production flexibility: system dynamics approach
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 Finland, Denmark, Norway, Norway Publisher:Elsevier BV
Authors: Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; +4 Authors
Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; Bolwig, Simon; Klitkou, Antje; Lund; Peter, D.;
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
Abstract Article shows how system dynamics modelling (SDM) approach could be used in modelling the energy transition towards low carbon energy system. SDM can be used to combine the techno-economic and socio-technical analysis. The study considers flexibility issues related to integration of renewable energy sources. Simplified model structure is made to illustrate how flexibility as well as other socio-technical aspects might be modelled. Results of the model correspond to the behavior anticipated from the model structure. Namely, model imitates effects of technological disruption which rises the limits of intermittent power production from renewable sources which can be integrated into power system. The limits are increased stepwise, as a share of intermittent power production reaches certain threshold value, resulting in sequence of S-shaped growth. This study presents flexibility increase of a power system conceptually and more detailed study should uncover leverage points which could stimulate this increase and thus, transition to sustainable energy system.
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Modelling energy production flexibility: system dynamics approach
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 Finland, Denmark, Norway, Norway Publisher:Elsevier BV
Authors: Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; +4 Authors
Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; Bolwig, Simon; Klitkou, Antje; Lund; Peter, D.;
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
Abstract Article shows how system dynamics modelling (SDM) approach could be used in modelling the energy transition towards low carbon energy system. SDM can be used to combine the techno-economic and socio-technical analysis. The study considers flexibility issues related to integration of renewable energy sources. Simplified model structure is made to illustrate how flexibility as well as other socio-technical aspects might be modelled. Results of the model correspond to the behavior anticipated from the model structure. Namely, model imitates effects of technological disruption which rises the limits of intermittent power production from renewable sources which can be integrated into power system. The limits are increased stepwise, as a share of intermittent power production reaches certain threshold value, resulting in sequence of S-shaped growth. This study presents flexibility increase of a power system conceptually and more detailed study should uncover leverage points which could stimulate this increase and thus, transition to sustainable energy system.
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Pathway Analysis of a Zero-Emission Transition in the Nordic-Baltic Region
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2019 Finland, Norway, Norway, Norway, Denmark Publisher:MDPI AGFunded by:AKA | Creative adaptation to wi...
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; +9 Authors
Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; Bergaentzlé, Claire; Gunkel, Philipp Andreas; Kirkerud, Jon Gustav; Klitkou, Antje; Koduvere, Hardi; Gravelsins, Armands; Blumberga, Dagnija; Söder; Lennart;
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
A zero-emission pathway for the Nordic and Baltic region in Europe is described based on the comprehensive policy and scenario analyses, accompanied by energy system modelling. The analyses show that a least-cost strategy would massively employ renewable energy, particularly in the power sector. Through strong coupling across energy sectors and countries, electricity would play a central role in the decarbonization of the main energy sectors. In particular power-to-heat conversion, where heat storage appears important in addition to existing hydropower. Technical and regulatory barriers in front of increased sector coupling and flexibility were identified, and policy measures are proposed to overcome these. In addition to a high carbon price, dynamic tariffs and taxation of electricity would be important to allow market signals for flexibility to reach end-users. A stronger power transmission connection from the Nordics to the mainland-Europe and the United Kingdom would be beneficial for the emission reductions and renewable energy use. The transition pathway analysis points out socio-technical issues such as social acceptance of large-scale new infrastructures (e.g., wind, cables). The energy system optimizations indicate that most of the investments needed for the zero-emission pathway until 2050 would take place already by 2030.
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Pathway Analysis of a Zero-Emission Transition in the Nordic-Baltic Region
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2019 Finland, Norway, Norway, Norway, Denmark Publisher:MDPI AGFunded by:AKA | Creative adaptation to wi...
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; +9 Authors
Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; Bergaentzlé, Claire; Gunkel, Philipp Andreas; Kirkerud, Jon Gustav; Klitkou, Antje; Koduvere, Hardi; Gravelsins, Armands; Blumberga, Dagnija; Söder; Lennart;
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
A zero-emission pathway for the Nordic and Baltic region in Europe is described based on the comprehensive policy and scenario analyses, accompanied by energy system modelling. The analyses show that a least-cost strategy would massively employ renewable energy, particularly in the power sector. Through strong coupling across energy sectors and countries, electricity would play a central role in the decarbonization of the main energy sectors. In particular power-to-heat conversion, where heat storage appears important in addition to existing hydropower. Technical and regulatory barriers in front of increased sector coupling and flexibility were identified, and policy measures are proposed to overcome these. In addition to a high carbon price, dynamic tariffs and taxation of electricity would be important to allow market signals for flexibility to reach end-users. A stronger power transmission connection from the Nordics to the mainland-Europe and the United Kingdom would be beneficial for the emission reductions and renewable energy use. The transition pathway analysis points out socio-technical issues such as social acceptance of large-scale new infrastructures (e.g., wind, cables). The energy system optimizations indicate that most of the investments needed for the zero-emission pathway until 2050 would take place already by 2030.
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Value Chain Structures that Define European Cellulosic Ethanol Production
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2017 Norway, Sweden, Denmark, Norway Publisher:MDPI AGFunded by:RCN | Sustainable path creation...
RCN| Sustainable path creation for innovative value chains for organic waste products
Authors: Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; +4 Authors
Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; Sara Ben Amer-Allam; Júlia Pladevall Viladecans; Antje Klitkou; Arne Fevolden;
doi: 10.3390/su9010118
handle: 11250/2429286
doi: 10.3390/su9010118
handle: 11250/2429286
Production of cellulosic ethanol (CE) has not yet reached the scale envisaged by the literature and industry. This study explores CE production in Europe to improve understanding of the motivations and barriers associated with this situation. To do this, we conduct a case study-based analysis of CE production plants across Europe from a global value chain (GVC) perspective. We find that most CE production plants in the EU focus largely on intellectual property and are therefore only at the pilot or demonstration scale. Crescentino, the largest CE production facility in Europe, is also more interested in technology licensing than producing ethanol. Demonstration-scale plants tend to have a larger variety of feedstocks, whereas forestry-based plants have more diversity of outputs. As scale increases, the diversity of feedstocks and outputs diminishes, and firms struggle with feedstock provisioning, global petroleum markets and higher financial risks. We argue that, to increase CE production, policies should consider value chains, promote the wider bio-economy of products and focus on economies of scope. Whereas the EU and its member states have ethanol quotas and blending targets, a more effective policy would be to seek to reduce the risks involved in financing capital projects, secure feedstock provisioning and support a diversity of end products.
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Value Chain Structures that Define European Cellulosic Ethanol Production
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2017 Norway, Sweden, Denmark, Norway Publisher:MDPI AGFunded by:RCN | Sustainable path creation...
RCN| Sustainable path creation for innovative value chains for organic waste products
Authors: Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; +4 Authors
Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; Sara Ben Amer-Allam; Júlia Pladevall Viladecans; Antje Klitkou; Arne Fevolden;
doi: 10.3390/su9010118
handle: 11250/2429286
doi: 10.3390/su9010118
handle: 11250/2429286
Production of cellulosic ethanol (CE) has not yet reached the scale envisaged by the literature and industry. This study explores CE production in Europe to improve understanding of the motivations and barriers associated with this situation. To do this, we conduct a case study-based analysis of CE production plants across Europe from a global value chain (GVC) perspective. We find that most CE production plants in the EU focus largely on intellectual property and are therefore only at the pilot or demonstration scale. Crescentino, the largest CE production facility in Europe, is also more interested in technology licensing than producing ethanol. Demonstration-scale plants tend to have a larger variety of feedstocks, whereas forestry-based plants have more diversity of outputs. As scale increases, the diversity of feedstocks and outputs diminishes, and firms struggle with feedstock provisioning, global petroleum markets and higher financial risks. We argue that, to increase CE production, policies should consider value chains, promote the wider bio-economy of products and focus on economies of scope. Whereas the EU and its member states have ethanol quotas and blending targets, a more effective policy would be to seek to reduce the risks involved in financing capital projects, secure feedstock provisioning and support a diversity of end products.
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Other literature type . 2017
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Policy mixes for the sustainability transition of the pulp and paper industry in Sweden
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 Norway Publisher:Elsevier BV
Authors: Scordato, Lisa; Klitkou, Antje; Tartiu, Valentina Elena; Coenen, Lars;
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
Abstract The need to view innovation policy through the lens of policy mixes has gained momentum given the growing complexity, the dynamics of real-world policy and the wide array of difficulties to address the current great societal challenges, notably the increasing pressure on the ecosystems that support our society. One of the main challenges concerning the transition towards bioeconomy, is to gain a more in-depth understanding on the policy mix to stimulate innovation in sustainability transitions. Our paper aims at enriching the portfolio of empirical case studies on policy mixes for innovation and sustainable transitions, by investigating the development of the policy mix underpinning the sustainability transition of the pulp and paper industry in Sweden. We apply a case study approach which draws on event history analysis, semi-structured interviews with industry and policy makers, literature reviews, a participative workshop with stakeholders from the pulp and paper industry, as well as on the IEA databases on climate change and energy efficiency policies and measures. Our analysis emphasises coordination, timing and scale in policy mixes as important elements to understand how instruments interact to accelerate sustainability transitions. The mapping of the policy mix shows that destabilising policies were crucial for accelerating the transition process of the industry. Prior to novelty creation policies, destabilising policies (e.g. environmental policies) were needed for 'innovation policy instruments' to be effective. More specific instruments (e.g. carbon tax), targeting particular functions of the innovation systems, require 'on-the-ground' policy intelligence and benefit from close interaction with industry.
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Policy mixes for the sustainability transition of the pulp and paper industry in Sweden
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 Norway Publisher:Elsevier BV
Authors: Scordato, Lisa; Klitkou, Antje; Tartiu, Valentina Elena; Coenen, Lars;
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
Abstract The need to view innovation policy through the lens of policy mixes has gained momentum given the growing complexity, the dynamics of real-world policy and the wide array of difficulties to address the current great societal challenges, notably the increasing pressure on the ecosystems that support our society. One of the main challenges concerning the transition towards bioeconomy, is to gain a more in-depth understanding on the policy mix to stimulate innovation in sustainability transitions. Our paper aims at enriching the portfolio of empirical case studies on policy mixes for innovation and sustainable transitions, by investigating the development of the policy mix underpinning the sustainability transition of the pulp and paper industry in Sweden. We apply a case study approach which draws on event history analysis, semi-structured interviews with industry and policy makers, literature reviews, a participative workshop with stakeholders from the pulp and paper industry, as well as on the IEA databases on climate change and energy efficiency policies and measures. Our analysis emphasises coordination, timing and scale in policy mixes as important elements to understand how instruments interact to accelerate sustainability transitions. The mapping of the policy mix shows that destabilising policies were crucial for accelerating the transition process of the industry. Prior to novelty creation policies, destabilising policies (e.g. environmental policies) were needed for 'innovation policy instruments' to be effective. More specific instruments (e.g. carbon tax), targeting particular functions of the innovation systems, require 'on-the-ground' policy intelligence and benefit from close interaction with industry.
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Path creation in Nordic energy and road transport systems – The role of technological characteristics
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2017 Sweden, Norway, Denmark, Norway Publisher:Elsevier BV
Authors: Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; +2 Authors
Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; Wessberg; Nina;
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
This paper reviews path-creation processes in road transport systems in the Nordic countries: e-mobility in Denmark, hydrogen and fuel-cell electrical vehicles in Norway, and advanced biofuels in Finland and Sweden. The study builds on the path creation literature, which seeks to explain the emergence of new technological pathways. Drawing on recent insights concerning the differences between design- and manufacturing-intensive technologies, the paper analyses the influence of technological characteristics on path creation processes. The case comparison indicates that technological characteristics seem to have greater influence on the content of activities in the later phase rather than the early phase of path creation processes. The analysis also emphasises that barriers to path creation processes differ depending on technological characteristics. This highlights the importance of considering technological characteristics in energy and transport policies.
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2017 . Peer-reviewed
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2016
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Article . 2017
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Article . 2017
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Path creation in Nordic energy and road transport systems – The role of technological characteristics
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2017 Sweden, Norway, Denmark, Norway Publisher:Elsevier BV
Authors: Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; +2 Authors
Hansen, Teis; Klitkou, Antje; Borup, Mads; Scordato, Lisa; Wessberg; Nina;
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
doi: 10.1016/j.rser.2016.11.131
handle: 11250/2424944
This paper reviews path-creation processes in road transport systems in the Nordic countries: e-mobility in Denmark, hydrogen and fuel-cell electrical vehicles in Norway, and advanced biofuels in Finland and Sweden. The study builds on the path creation literature, which seeks to explain the emergence of new technological pathways. Drawing on recent insights concerning the differences between design- and manufacturing-intensive technologies, the paper analyses the influence of technological characteristics on path creation processes. The case comparison indicates that technological characteristics seem to have greater influence on the content of activities in the later phase rather than the early phase of path creation processes. The analysis also emphasises that barriers to path creation processes differ depending on technological characteristics. This highlights the importance of considering technological characteristics in energy and transport policies.
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2017 . Peer-reviewed
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Article . 2017
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Article . 2017
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Norwegian Open Research Archives
Article . 2017
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Lund University Publications
Article . 2017
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2016
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Renewable and Sustainable Energy Reviews
Article . 2017
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Article . 2017
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Renewable and Sustainable Energy Reviews
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Article . 2017
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Article . 2017
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Renewable and Sustainable Energy Reviews
Article . 2016
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Article . 2017
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Calling energy inequalities into the transition agenda
descriptionPublicationkeyboard_double_arrow_right Article 2023Publisher:Elsevier BV
Authors: Klitkou Antje; Pluciński Przemysław; Baranowski Mariusz; Otto M. Ilona;
doi: 10.1016/j.erss.2023.103144
doi: 10.1016/j.erss.2023.103144
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Calling energy inequalities into the transition agenda
descriptionPublicationkeyboard_double_arrow_right Article 2023Publisher:Elsevier BV
Authors: Klitkou Antje; Pluciński Przemysław; Baranowski Mariusz; Otto M. Ilona;
doi: 10.1016/j.erss.2023.103144
doi: 10.1016/j.erss.2023.103144
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Forks in the Road to E-Mobility: An Evaluation of Instrument Interaction in National Policy Mixes in Northwest Europe
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2020 Denmark, Norway, Norway, Netherlands Publisher:MDPI AGFunded by:EC | POLFREE
EC| POLFREE
Authors: Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; +3 Authors
Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; Simon Bolwig; Mads Borup; Peter Møllgaard;
doi: 10.3390/en13020475
handle: 11250/2637183
doi: 10.3390/en13020475
handle: 11250/2637183
This paper evaluates how policy shaped the emergence of electric mobility in three countries, Norway, the Netherlands and Denmark, between 2010 and 2015. Whereas previous studies have looked at the effects of separate policy instruments, this paper gives insights in the interaction effects of instruments on the diffusion of battery electric cars between five policy areas. Based on analysis of synergetic, contradictory and pre-conditional effects, we find that an effective policy mix includes: fiscal incentives that mirror the actual carbon footprint of the respective vehicles; non-fiscal demand-side incentives; centrally financed and/or coordinated charging infrastructure; clarity regarding the choice of technology that will be supported. Moreover, development of a domestic, e-mobility-related industry and a high share of renewable energy strengthens the legitimization of e-mobility support. The findings help designing policy mixes in the transition to electric mobility.
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Forks in the Road to E-Mobility: An Evaluation of Instrument Interaction in National Policy Mixes in Northwest Europe
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2020 Denmark, Norway, Norway, Netherlands Publisher:MDPI AGFunded by:EC | POLFREE
EC| POLFREE
Authors: Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; +3 Authors
Marc Dijk; Eric Iversen; Antje Klitkou; René Kemp; Simon Bolwig; Mads Borup; Peter Møllgaard;
doi: 10.3390/en13020475
handle: 11250/2637183
doi: 10.3390/en13020475
handle: 11250/2637183
This paper evaluates how policy shaped the emergence of electric mobility in three countries, Norway, the Netherlands and Denmark, between 2010 and 2015. Whereas previous studies have looked at the effects of separate policy instruments, this paper gives insights in the interaction effects of instruments on the diffusion of battery electric cars between five policy areas. Based on analysis of synergetic, contradictory and pre-conditional effects, we find that an effective policy mix includes: fiscal incentives that mirror the actual carbon footprint of the respective vehicles; non-fiscal demand-side incentives; centrally financed and/or coordinated charging infrastructure; clarity regarding the choice of technology that will be supported. Moreover, development of a domestic, e-mobility-related industry and a high share of renewable energy strengthens the legitimization of e-mobility support. The findings help designing policy mixes in the transition to electric mobility.
downloaddonwloadFull-Text
Energiesarrow_drop_down
Energies
Other literature type . 2020
License: CC BY
Full-Text: http://www.mdpi.com/1996-1073/13/2/475/pdf
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Review of modelling energy transitions pathways with application to energy system flexibility
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019Embargo end date: 01 Mar 2021 Norway, Finland, Norway, Denmark Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; +3 Authors
Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; Andra Blumberga; Armands Gravelsins; Dagnija Blumberga;
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
Abstract The aim of this review is to discuss how quantitative modelling of energy scenarios for sustainable energy transition pathways can be made more realistic by taking into account insights from the socio-technical and related literatures. The proposition is that an enriched modelling approach would focus not just on technology development and deployment, but also on feedback loops, learning processes, policy and governance, behavioural changes, the interlinkages between the energy sector and other economic sectors, and infrastructure development. The review discusses a range of socio-technical concepts with a view to how they can enrich the understanding and modelling of highly complex dynamic systems such as flexible energy systems with high shares of variable renewable energy. In this context, application of system dynamics modelling (SDM) for the analysis of energy transitions is also introduced by describing the differences between SDM and a traditional modelling approach that uses econometric and linear programming methods. A conceptual framework for this type of modelling is provided by using causal loop diagrams. The diagrams illustrate the endogenous approach of SDM – understanding and modelling the structure of a system, which is responsible for its dynamic behaviour. SDM can also capture the co-evolution of economic, policy, technology, and behavioural factors over sufficiently long time periods, which is necessary for the analysis of transition pathway dynamics. In this regard, the review summarises how socio-technical concepts can be approached in SDM and why they are relevant for the analysis of flexibility in energy systems. From a computational point of view, it could be beneficial to combine SDM with technologically detailed energy system optimization models and that could be a way forward for achieving more realistic, non-linear quantitative modelling of sustainable energy transitions.
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Review of modelling energy transitions pathways with application to energy system flexibility
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2019Embargo end date: 01 Mar 2021 Norway, Finland, Norway, Denmark Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; +3 Authors
Simon Bolwig; Gatis Bazbauers; Antje Klitkou; Peter D. Lund; Andra Blumberga; Armands Gravelsins; Dagnija Blumberga;
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
doi: 10.1016/j.rser.2018.11.019
handle: 11250/2578281
Abstract The aim of this review is to discuss how quantitative modelling of energy scenarios for sustainable energy transition pathways can be made more realistic by taking into account insights from the socio-technical and related literatures. The proposition is that an enriched modelling approach would focus not just on technology development and deployment, but also on feedback loops, learning processes, policy and governance, behavioural changes, the interlinkages between the energy sector and other economic sectors, and infrastructure development. The review discusses a range of socio-technical concepts with a view to how they can enrich the understanding and modelling of highly complex dynamic systems such as flexible energy systems with high shares of variable renewable energy. In this context, application of system dynamics modelling (SDM) for the analysis of energy transitions is also introduced by describing the differences between SDM and a traditional modelling approach that uses econometric and linear programming methods. A conceptual framework for this type of modelling is provided by using causal loop diagrams. The diagrams illustrate the endogenous approach of SDM – understanding and modelling the structure of a system, which is responsible for its dynamic behaviour. SDM can also capture the co-evolution of economic, policy, technology, and behavioural factors over sufficiently long time periods, which is necessary for the analysis of transition pathway dynamics. In this regard, the review summarises how socio-technical concepts can be approached in SDM and why they are relevant for the analysis of flexibility in energy systems. From a computational point of view, it could be beneficial to combine SDM with technologically detailed energy system optimization models and that could be a way forward for achieving more realistic, non-linear quantitative modelling of sustainable energy transitions.
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What Is the Bioeconomy? A Review of the Literature
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2016 Sweden, Norway, Norway Publisher:MDPI AG
Authors: Markus Bugge; Teis Hansen; Antje Klitkou;
doi: 10.3390/su8070691
handle: 11250/2420752
doi: 10.3390/su8070691
handle: 11250/2420752
The notion of the bioeconomy has gained importance in both research and policy debates over the last decade, and is frequently argued to be a key part of the solution to multiple grand challenges. Despite this, there seems to be little consensus concerning what bioeconomy actually implies. Consequently, this paper seeks to enhance our understanding of what the notion of bioeconomy means by exploring the origins, uptake, and contents of the term “bioeconomy” in the academic literature. Firstly, we perform a bibliometric analysis that highlights that the bioeconomy research community is still rather fragmented and distributed across many different fields of science, even if natural and engineering sciences take up the most central role. Secondly, we carry out a literature review that identifies three visions of the bioeconomy. The bio-technology vision emphasises the importance of bio-technology research and application and commercialisation of bio-technology in different sectors of the economy. The bio-resource vision focuses on processing and upgrading of biological raw materials, as well as on the establishment of new value chains. Finally, the bio-ecology vision highlights sustainability and ecological processes that optimise the use of energy and nutrients, promote biodiversity, and avoid monocultures and soil degradation.
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What Is the Bioeconomy? A Review of the Literature
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2016 Sweden, Norway, Norway Publisher:MDPI AG
Authors: Markus Bugge; Teis Hansen; Antje Klitkou;
doi: 10.3390/su8070691
handle: 11250/2420752
doi: 10.3390/su8070691
handle: 11250/2420752
The notion of the bioeconomy has gained importance in both research and policy debates over the last decade, and is frequently argued to be a key part of the solution to multiple grand challenges. Despite this, there seems to be little consensus concerning what bioeconomy actually implies. Consequently, this paper seeks to enhance our understanding of what the notion of bioeconomy means by exploring the origins, uptake, and contents of the term “bioeconomy” in the academic literature. Firstly, we perform a bibliometric analysis that highlights that the bioeconomy research community is still rather fragmented and distributed across many different fields of science, even if natural and engineering sciences take up the most central role. Secondly, we carry out a literature review that identifies three visions of the bioeconomy. The bio-technology vision emphasises the importance of bio-technology research and application and commercialisation of bio-technology in different sectors of the economy. The bio-resource vision focuses on processing and upgrading of biological raw materials, as well as on the establishment of new value chains. Finally, the bio-ecology vision highlights sustainability and ecological processes that optimise the use of energy and nutrients, promote biodiversity, and avoid monocultures and soil degradation.
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Climate-friendly but socially rejected energy-transition pathways: The integration of techno-economic and socio-technical approaches in the Nordic-Baltic region
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2020 Norway, Norway, Denmark, Norway Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., RCN | Integration of Power Tran..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
RCN| Integration of Power Transmission Grids - Prospects and Challenges at National and European Levels in advancing the energy transition ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; +8 Authors
Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; Bergaentzlé, Claire; Borch, Kristian; Olsen, Ole Jess; Kirkerud, Jon Gustav; Chen, Yi kuang; Gunkel, Philip Andreas; Skytte; Klaus;
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors. A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors.
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Climate-friendly but socially rejected energy-transition pathways: The integration of techno-economic and socio-technical approaches in the Nordic-Baltic region
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2020 Norway, Norway, Denmark, Norway Publisher:Elsevier BVFunded by:AKA | Decentralizing Finland’s ..., RCN | Integration of Power Tran..., AKA | Creative adaptation to wi...
AKA| Decentralizing Finland’s energy regime: The triggers and dynamics of transition / Consortium: DEFEND ,
RCN| Integration of Power Transmission Grids - Prospects and Challenges at National and European Levels in advancing the energy transition ,
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; +8 Authors
Bolwig, Simon; Bolkesjø, Torjus Folsland; Klitkou, Antje; Lund, Peter D.; Bergaentzlé, Claire; Borch, Kristian; Olsen, Ole Jess; Kirkerud, Jon Gustav; Chen, Yi kuang; Gunkel, Philip Andreas; Skytte; Klaus;
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
doi: 10.1016/j.erss.2020.101559
handle: 11250/2658127 , 11250/2674417
A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors. A framework to account for social acceptance in the modelling of energy-transition pathways is outlined. The geographical focus is on the Nordic-Baltic energy region and the technological focus is on onshore wind power and power transmission, which are considered key technologies in achieving carbon-neutral energy systems in northern Europe. We combine qualitative analysis of social acceptance with quantitative assessments of scenarios using techno-economic energy-system modelling. Key factors in and consequences of social acceptance are identified, especially environmental, health, and distributional factors, as well as costs for developers and society. The energy system analysis includes four scenarios illustrating the system effects and costs of low social acceptance. The results indicate that if low social acceptance were to restrict investments in onshore wind power, costlier solar photovoltaics and offshore wind power would step in. Greater social acceptance cost for onshore wind and transmission lines favours local solutions and a more balanced renewable energy mix. There are important distributional effects: no restrictions on transmission line investments benefit power producers while raising consumer prices in the Nordic-Baltic energy region, while very low social acceptance of onshore wind power would lead to 12% higher consumer costs. The results imply that socio-technical and political factors such as social acceptance may significantly affect transition pathway scenarios based on techno-economic variables alone. Therefore, the techno-economic, socio-technical and political layers of co-evolution of energy systems should be considered when analysing long-term energy transitions. It is important to link energy-system models with a consideration of the dynamics of socio-technical factors.
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Modelling energy production flexibility: system dynamics approach
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 Finland, Denmark, Norway, Norway Publisher:Elsevier BV
Authors: Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; +4 Authors
Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; Bolwig, Simon; Klitkou, Antje; Lund; Peter, D.;
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
Abstract Article shows how system dynamics modelling (SDM) approach could be used in modelling the energy transition towards low carbon energy system. SDM can be used to combine the techno-economic and socio-technical analysis. The study considers flexibility issues related to integration of renewable energy sources. Simplified model structure is made to illustrate how flexibility as well as other socio-technical aspects might be modelled. Results of the model correspond to the behavior anticipated from the model structure. Namely, model imitates effects of technological disruption which rises the limits of intermittent power production from renewable sources which can be integrated into power system. The limits are increased stepwise, as a share of intermittent power production reaches certain threshold value, resulting in sequence of S-shaped growth. This study presents flexibility increase of a power system conceptually and more detailed study should uncover leverage points which could stimulate this increase and thus, transition to sustainable energy system.
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Modelling energy production flexibility: system dynamics approach
descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 2018 Finland, Denmark, Norway, Norway Publisher:Elsevier BV
Authors: Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; +4 Authors
Gravelsins, Armands; Bazbauers, Gatis; Blumberga, Andra; Blumberga, Dagnija; Bolwig, Simon; Klitkou, Antje; Lund; Peter, D.;
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
doi: 10.1016/j.egypro.2018.07.060
handle: 11250/2590319
Abstract Article shows how system dynamics modelling (SDM) approach could be used in modelling the energy transition towards low carbon energy system. SDM can be used to combine the techno-economic and socio-technical analysis. The study considers flexibility issues related to integration of renewable energy sources. Simplified model structure is made to illustrate how flexibility as well as other socio-technical aspects might be modelled. Results of the model correspond to the behavior anticipated from the model structure. Namely, model imitates effects of technological disruption which rises the limits of intermittent power production from renewable sources which can be integrated into power system. The limits are increased stepwise, as a share of intermittent power production reaches certain threshold value, resulting in sequence of S-shaped growth. This study presents flexibility increase of a power system conceptually and more detailed study should uncover leverage points which could stimulate this increase and thus, transition to sustainable energy system.
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Pathway Analysis of a Zero-Emission Transition in the Nordic-Baltic Region
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2019 Finland, Norway, Norway, Norway, Denmark Publisher:MDPI AGFunded by:AKA | Creative adaptation to wi...
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; +9 Authors
Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; Bergaentzlé, Claire; Gunkel, Philipp Andreas; Kirkerud, Jon Gustav; Klitkou, Antje; Koduvere, Hardi; Gravelsins, Armands; Blumberga, Dagnija; Söder; Lennart;
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
A zero-emission pathway for the Nordic and Baltic region in Europe is described based on the comprehensive policy and scenario analyses, accompanied by energy system modelling. The analyses show that a least-cost strategy would massively employ renewable energy, particularly in the power sector. Through strong coupling across energy sectors and countries, electricity would play a central role in the decarbonization of the main energy sectors. In particular power-to-heat conversion, where heat storage appears important in addition to existing hydropower. Technical and regulatory barriers in front of increased sector coupling and flexibility were identified, and policy measures are proposed to overcome these. In addition to a high carbon price, dynamic tariffs and taxation of electricity would be important to allow market signals for flexibility to reach end-users. A stronger power transmission connection from the Nordics to the mainland-Europe and the United Kingdom would be beneficial for the emission reductions and renewable energy use. The transition pathway analysis points out socio-technical issues such as social acceptance of large-scale new infrastructures (e.g., wind, cables). The energy system optimizations indicate that most of the investments needed for the zero-emission pathway until 2050 would take place already by 2030.
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Pathway Analysis of a Zero-Emission Transition in the Nordic-Baltic Region
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2019 Finland, Norway, Norway, Norway, Denmark Publisher:MDPI AGFunded by:AKA | Creative adaptation to wi...
AKA| Creative adaptation to wicked socio-environmental disruptions / Consortium: WISE
Authors: Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; +9 Authors
Lund, Peter D.; Skytte, Klaus; Bolwig, Simon; Bolkesjö, Torjus Folsland; Bergaentzlé, Claire; Gunkel, Philipp Andreas; Kirkerud, Jon Gustav; Klitkou, Antje; Koduvere, Hardi; Gravelsins, Armands; Blumberga, Dagnija; Söder; Lennart;
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
doi: 10.3390/en12173337
handle: 11250/2611893 , 11250/2617413
A zero-emission pathway for the Nordic and Baltic region in Europe is described based on the comprehensive policy and scenario analyses, accompanied by energy system modelling. The analyses show that a least-cost strategy would massively employ renewable energy, particularly in the power sector. Through strong coupling across energy sectors and countries, electricity would play a central role in the decarbonization of the main energy sectors. In particular power-to-heat conversion, where heat storage appears important in addition to existing hydropower. Technical and regulatory barriers in front of increased sector coupling and flexibility were identified, and policy measures are proposed to overcome these. In addition to a high carbon price, dynamic tariffs and taxation of electricity would be important to allow market signals for flexibility to reach end-users. A stronger power transmission connection from the Nordics to the mainland-Europe and the United Kingdom would be beneficial for the emission reductions and renewable energy use. The transition pathway analysis points out socio-technical issues such as social acceptance of large-scale new infrastructures (e.g., wind, cables). The energy system optimizations indicate that most of the investments needed for the zero-emission pathway until 2050 would take place already by 2030.
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Other literature type . 2019
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Value Chain Structures that Define European Cellulosic Ethanol Production
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2017 Norway, Sweden, Denmark, Norway Publisher:MDPI AGFunded by:RCN | Sustainable path creation...
RCN| Sustainable path creation for innovative value chains for organic waste products
Authors: Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; +4 Authors
Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; Sara Ben Amer-Allam; Júlia Pladevall Viladecans; Antje Klitkou; Arne Fevolden;
doi: 10.3390/su9010118
handle: 11250/2429286
doi: 10.3390/su9010118
handle: 11250/2429286
Production of cellulosic ethanol (CE) has not yet reached the scale envisaged by the literature and industry. This study explores CE production in Europe to improve understanding of the motivations and barriers associated with this situation. To do this, we conduct a case study-based analysis of CE production plants across Europe from a global value chain (GVC) perspective. We find that most CE production plants in the EU focus largely on intellectual property and are therefore only at the pilot or demonstration scale. Crescentino, the largest CE production facility in Europe, is also more interested in technology licensing than producing ethanol. Demonstration-scale plants tend to have a larger variety of feedstocks, whereas forestry-based plants have more diversity of outputs. As scale increases, the diversity of feedstocks and outputs diminishes, and firms struggle with feedstock provisioning, global petroleum markets and higher financial risks. We argue that, to increase CE production, policies should consider value chains, promote the wider bio-economy of products and focus on economies of scope. Whereas the EU and its member states have ethanol quotas and blending targets, a more effective policy would be to seek to reduce the risks involved in financing capital projects, secure feedstock provisioning and support a diversity of end products.
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Value Chain Structures that Define European Cellulosic Ethanol Production
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2017 Norway, Sweden, Denmark, Norway Publisher:MDPI AGFunded by:RCN | Sustainable path creation...
RCN| Sustainable path creation for innovative value chains for organic waste products
Authors: Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; +4 Authors
Jay Gregg; Simon Bolwig; Teis Hansen; Ola Solér; Sara Ben Amer-Allam; Júlia Pladevall Viladecans; Antje Klitkou; Arne Fevolden;
doi: 10.3390/su9010118
handle: 11250/2429286
doi: 10.3390/su9010118
handle: 11250/2429286
Production of cellulosic ethanol (CE) has not yet reached the scale envisaged by the literature and industry. This study explores CE production in Europe to improve understanding of the motivations and barriers associated with this situation. To do this, we conduct a case study-based analysis of CE production plants across Europe from a global value chain (GVC) perspective. We find that most CE production plants in the EU focus largely on intellectual property and are therefore only at the pilot or demonstration scale. Crescentino, the largest CE production facility in Europe, is also more interested in technology licensing than producing ethanol. Demonstration-scale plants tend to have a larger variety of feedstocks, whereas forestry-based plants have more diversity of outputs. As scale increases, the diversity of feedstocks and outputs diminishes, and firms struggle with feedstock provisioning, global petroleum markets and higher financial risks. We argue that, to increase CE production, policies should consider value chains, promote the wider bio-economy of products and focus on economies of scope. Whereas the EU and its member states have ethanol quotas and blending targets, a more effective policy would be to seek to reduce the risks involved in financing capital projects, secure feedstock provisioning and support a diversity of end products.
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Policy mixes for the sustainability transition of the pulp and paper industry in Sweden
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 Norway Publisher:Elsevier BV
Authors: Scordato, Lisa; Klitkou, Antje; Tartiu, Valentina Elena; Coenen, Lars;
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
Abstract The need to view innovation policy through the lens of policy mixes has gained momentum given the growing complexity, the dynamics of real-world policy and the wide array of difficulties to address the current great societal challenges, notably the increasing pressure on the ecosystems that support our society. One of the main challenges concerning the transition towards bioeconomy, is to gain a more in-depth understanding on the policy mix to stimulate innovation in sustainability transitions. Our paper aims at enriching the portfolio of empirical case studies on policy mixes for innovation and sustainable transitions, by investigating the development of the policy mix underpinning the sustainability transition of the pulp and paper industry in Sweden. We apply a case study approach which draws on event history analysis, semi-structured interviews with industry and policy makers, literature reviews, a participative workshop with stakeholders from the pulp and paper industry, as well as on the IEA databases on climate change and energy efficiency policies and measures. Our analysis emphasises coordination, timing and scale in policy mixes as important elements to understand how instruments interact to accelerate sustainability transitions. The mapping of the policy mix shows that destabilising policies were crucial for accelerating the transition process of the industry. Prior to novelty creation policies, destabilising policies (e.g. environmental policies) were needed for 'innovation policy instruments' to be effective. More specific instruments (e.g. carbon tax), targeting particular functions of the innovation systems, require 'on-the-ground' policy intelligence and benefit from close interaction with industry.
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Policy mixes for the sustainability transition of the pulp and paper industry in Sweden
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2018 Norway Publisher:Elsevier BV
Authors: Scordato, Lisa; Klitkou, Antje; Tartiu, Valentina Elena; Coenen, Lars;
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
doi: 10.1016/j.jclepro.2018.02.212
handle: 11250/2489394
Abstract The need to view innovation policy through the lens of policy mixes has gained momentum given the growing complexity, the dynamics of real-world policy and the wide array of difficulties to address the current great societal challenges, notably the increasing pressure on the ecosystems that support our society. One of the main challenges concerning the transition towards bioeconomy, is to gain a more in-depth understanding on the policy mix to stimulate innovation in sustainability transitions. Our paper aims at enriching the portfolio of empirical case studies on policy mixes for innovation and sustainable transitions, by investigating the development of the policy mix underpinning the sustainability transition of the pulp and paper industry in Sweden. We apply a case study approach which draws on event history analysis, semi-structured interviews with industry and policy makers, literature reviews, a participative workshop with stakeholders from the pulp and paper industry, as well as on the IEA databases on climate change and energy efficiency policies and measures. Our analysis emphasises coordination, timing and scale in policy mixes as important elements to understand how instruments interact to accelerate sustainability transitions. The mapping of the policy mix shows that destabilising policies were crucial for accelerating the transition process of the industry. Prior to novelty creation policies, destabilising policies (e.g. environmental policies) were needed for 'innovation policy instruments' to be effective. More specific instruments (e.g. carbon tax), targeting particular functions of the innovation systems, require 'on-the-ground' policy intelligence and benefit from close interaction with industry.
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