Model-Based Exploration of Co-Creation Efforts: The Case of Solar Photovoltaics (PV) in Skåne, Sweden

Co-creation in the societal sphere is becoming important in many parts of the world. However, empirical analysis of co-creation in local energy transitions has been understudied. This paper aims to contribute to the field of local energy transitions by integrating a model-based approach with the municipal co-creation efforts in a local energy transition setting. The study uses a mixed-methods approach, with both quantitative and qualitative methods underpinning the approach. A System Dynamics (SD) model is built to analyse the feedback loops created by the co-creation efforts of the municipalities in Skåne, Sweden to increase the uptake of household solar photovoltaics. Simultaneously, the model is conceptualized and built in coordination with the municipality actors, and qualitative validation provided by them. An iterative process is implemented, consisting of three steps: interaction with the municipality actors (MAs), developing the causal relationships between the model variables and model development. The suggestions and discussions with the MAs were very useful in understanding the social factors and processes which help in the diffusion of a technologically innovative product, such as solar PV. The MAs said that they found the explanation of the modelling variables useful in undertaking the co-creation efforts.

[1]  J Swanson,et al.  Business Dynamics—Systems Thinking and Modeling for a Complex World , 2002, J. Oper. Res. Soc..

[2]  Ingrid Mulder,et al.  Co-Creation Dynamics in Urban Living Labs , 2018, Sustainability.

[3]  Tineke van der Schoor,et al.  Challenging Obduracy: how Local Communities Transform the Energy System , 2016 .

[4]  V. Bekkers,et al.  Co-creation and Co-production in Social Innovation: A Systematic Review and Future Research Agenda , 2014 .

[5]  Ann Dale,et al.  Triggering transformative change: a development path approach to climate change response in communities , 2014 .

[6]  Dominik E. Reusser,et al.  Lessons for model use in transition research : a survey and comparison with other research areas , 2015 .

[7]  Situative governance and energy transitions in a spatial context: case studies from Germany , 2014 .

[8]  J. Palm,et al.  Strategies and Implications for Network Participation in Regional Climate and Energy Planning , 2014 .

[9]  G. Seyfang,et al.  Grassroots innovations in community energy: The role of intermediaries in niche development , 2013 .

[10]  Markus Schwaninger,et al.  Modeling as Theory-Building , 2008 .

[11]  Frans Berkhout,et al.  Evaluating sustainability transitions pathways: Bridging analytical approaches to address governance challenges , 2015 .

[12]  K. McCormick,et al.  Local power: exploring the motivations of mayors and key success factors for local municipalities to go 100% renewable energy , 2014, Energy, Sustainability and Society.

[13]  Amin Dehdarian,et al.  Scenario-based system dynamics modeling for the cost recovery of new energy technology deployment: The case of smart metering roll-out , 2017 .

[14]  N. Frantzeskaki,et al.  Sustainability Transitions Research: Transforming Science and Practice for Societal Change , 2017 .

[15]  Noel Longhurst,et al.  Participation in Transition(s): Reconceiving Public Engagements in Energy Transitions as Co-Produced, Emergent and Diverse , 2016 .

[16]  John D. Sterman,et al.  All models are wrong: reflections on becoming a systems scientist† , 2002 .

[17]  Alvar Palm,et al.  Peer effects in residential solar photovoltaics adoption—A mixed methods study of Swedish users , 2017 .

[18]  Alfred Posch,et al.  Photovoltaic diffusion from the bottom-up: Analytical investigation of critical factors , 2015 .

[19]  George Papachristos,et al.  Modelling Sustainability Transitions: An Assessment of Approaches and Challenges , 2018, J. Artif. Soc. Soc. Simul..

[20]  Kerstin Tews,et al.  Decentralised laboratories in the German energy transition. Why local renewable energy initiatives must reinvent themselves , 2017 .

[21]  Stefan Gößling-Reisemann,et al.  Dynamics of energy transitions under changing socioeconomic, technological and climate conditions in Northwest Germany , 2015 .

[22]  Daniël A. Lachman A survey and review of approaches to study transitions , 2013 .

[23]  Erik O. Ahlgren,et al.  Understanding the local energy transitions process: a systematic review , 2017 .

[24]  J. Koppenjan,et al.  Local renewable energy cooperatives: revolution in disguise? , 2015 .

[25]  George Papachristos,et al.  A mechanism based transition research methodology: Bridging analytical approaches , 2018 .

[26]  Véronique Vasseur,et al.  The adoption of PV in the Netherlands: A statistical analysis of adoption factors , 2015 .

[27]  Sören Becker,et al.  Whose energy transition is it, anyway? Organisation and ownership of the Energiewende in villages, cities and regions , 2015 .

[28]  Raj Bhatnagar Exploratory Model Building , 1994, UAI.

[29]  Frank W. Geels,et al.  Dynamics in socio-technical systems : typology of change processes and contrasting case studies , 2007 .

[30]  Thomas Hoppe,et al.  Decentralised combined heat and power in the German Ruhr Valley; assessment of factors blocking uptake and integration , 2015 .

[31]  Flaminio Squazzoni,et al.  Computational and mathematical approaches to societal transitions , 2008, Comput. Math. Organ. Theory.

[32]  Bettina Furrer,et al.  Participative Modelling of Socio‐Technical Transitions: Why and How Should We Look Beyond the Case‐Specific Energy Transition Challenge? , 2017 .

[33]  A. Horsbøl Co-Creating Green Transition: How Municipality Employees Negotiate their Professional Identities as Agents of Citizen Involvement in a Cross-Local Setting , 2018 .

[34]  Sabine Hielscher,et al.  A grassroots sustainable energy niche?:Reflections on community energy in the UK , 2014 .

[35]  V. Bekkers,et al.  A Systematic Review of Co-Creation and Co-Production: Embarking on the social innovation journey , 2014 .

[36]  Martin Döring,et al.  Harvesting energy: Place and local entrepreneurship in community-based renewable energy transition , 2017 .

[37]  F. Bass The Relationship between Diffusion Rates, Experience Curves, and Demand Elasticities for Consumer Durable Technological Innovations , 1980 .

[38]  Roland W. Scholz,et al.  Supporting energy initiatives in small communities by linking visions with energy scenarios and multi-criteria assessment , 2011 .

[39]  M.R.M. Crul,et al.  Models of Co-Creation , 2016 .

[40]  F. Geels,et al.  Typology of sociotechnical transition pathways , 2007 .

[41]  Jannika Mattes,et al.  Energy transitions in small-scale regions – What we can learn from a regional innovation systems perspective. , 2015 .

[42]  Markus Schwaninger,et al.  System Dynamics as Model-Based Theory Building , 2008 .

[43]  Silvia Ulli-Beer,et al.  Decentralisation dynamics in energy systems : a generic simulation of network effects , 2016 .

[44]  Simon Shackley,et al.  Simulation Modelling as a Theory Building Tool: The Formation of Risk Perceptions , 2012, J. Artif. Soc. Soc. Simul..

[45]  Erik O. Ahlgren,et al.  LOCAL ENERGY TRANSITIONS: METHODS, MODELS, CHALLENGES AND OPPORTUNITIES , 2017 .

[46]  J. Palm Development of sustainable energy systems in Swedish municipalities: A matter of path dependency and power relations , 2006 .

[47]  F. Geels,et al.  The enactment of socio-technical transition pathways: A reformulated typology and a comparative multi-level analysis of the German and UK low-carbon electricity transitions (1990–2014) , 2016 .