The 2018 IPCC Special Report on Global Warming of 1.5 °C once again highlighted (and with increased urgency) the benefits of immediate, extreme decarbonisation efforts in order to minimise the negative impacts of climate change. Achieving such demanding global targets requires concerted national, subnational, and local efforts. In combination, these efforts result in transition pathways. Implementation of the technologies and policies at the heart of such pathways is often considered as inherently positive, thus the immediate risks associated with the pathway are the barriers faced on implementation. However, successful implementation of a climate change mitigation policy may also have potentially negative consequences. On either side a host of more abstract uncertainties increase the difficultly of decision making. In this chapter, we provide a synthesis of eleven low-carbon transition pathways from across the globe and explore the risks and uncertainties associated with them. We structure our discussion around three nested dimensions present in all pathways: technological innovations implemented in a local context; policy mixes promoting these technologies; and society, where social-economic priorities may lead individuals and communities to support or oppose the low-carbon pathway. Across these themes, we also explore the meaning of scale and stakeholders’ perceptions of time in low-carbon pathways. Our discussion reflects the complexity associated with assessing risks in contested settings. While many of these risks are context specific and reflect a broad range of stakeholder perspectives, common risks are found across the case studies, regardless of the local context, the technology promoted, and the policy mix implemented.
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To avoid energy scarcity as well as climate change, a transition towards a sustainable society must be initiated. Within this context, governmental bodies and/or companies often note sustainability as an end goal, for instance as a green circular economy. However, if sustainability cannot be clearly defined as an end goal or measured uniformly and transparently, then the direction and progress towards this goal can only be roughly followed. A clear understanding of and a transparent, uniform measuring technique for sustainability are hence required for sustainable and circular (renewable) energy production pathways (REPPs), as society is asking for an integrated and understandable overview of the decision-making and planning process towards a future sustainable energy system. Therefore, within this dissertation, a new approach is proposed for measuring and optimizing the sustainability of REPPs; it is useful for the analysis, comparison, and optimization of REPP systems on all elements of sustainability. The new approach is applied and tested on a case based on farm-scale, anaerobic digestion (AD), biogas production pathways.
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Paper presented at the International Sustainability Transitions conference 2018 (12-14 june) Manchester, UK. The Dutch agrifood regime is grinding to a halt. International economic pressures force Dutch farmers to further scale up and intensify their businesses, while food scandals and calamities as well as many and varied negative environmental impacts have led to an all-time low societal acceptance of the agrifood regime as well as a host of legislative measures to stifle further growth. Such a situation, in which regime pressures increasingly undermine the regime, represents a strong call for transition of the Dutch agrifood system.At the same time, new business models emerge: new players arrive, new logistical pathways come to the fore and innovative consumer and farmer relationships – food co-operatives – are forged. In a sense, the transition is already under way (cf. Hermans et al., 2010), with new business models forming an important backbone. However, the way forward is still a matter of great uncertainty and controversy: How do new business models relate to reconfiguring the Dutch agrifood system? We explore the hypothesis that different transition pathways put specific demands on the role of new business models. We studied various new business models in the Dutch agrifood system and their relations to three different transition pathways. Our research combines future exploration (backcasting) and analysis of new business models. In this research, we approach this question from two angles. First, we introduce a transition-oriented business model concept, in order to effectively link new business models to transition. Then we shortly touch upon the transition pathway typology introduced by Geels et al. (2016) and describe three different transition pathways for the Dutch agrifood system. We report on XX business models in each of these transition pathways. The paper ends with a discussion of the role of business models for different types of transition pathways.
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Teachers have a crucial role in bringing about the extensive social changes that are needed in the building of a sustainable future. In the EduSTA project, we focus on sustainability competences of teachers. We strengthen the European dimension of teacher education via Digital Open Badges as means of performing, acknowledging, documenting, and transferring the competencies as micro-credentials. EduSTA starts by mapping the contextual possibilities and restrictions for transformative learning on sustainability and by operationalising skills. The development of competence-based learning modules and open digital badge-driven pathways will proceed hand in hand and will be realised as learning modules in the partnering Higher Education Institutes and badge applications open for all teachers in Europe.Societal Issue: Teachers’ capabilities to act as active facilitators of change in the ecological transition and to educate citizens and workforce to meet the future challenges is key to a profound transformation in the green transition.Teachers’ sustainability competences have been researched widely, but a gap remains between research and the teachers’ practise. There is a need to operationalise sustainability competences: to describe direct links with everyday tasks, such as curriculum development, pedagogical design, and assessment. This need calls for an urgent operationalisation of educators’ sustainability competences – to support the goals with sustainability actions and to transfer this understanding to their students.Benefit to society: EduSTA builds a community, “Academy of Educators for Sustainable Future”, and creates open digital badge-driven learning pathways for teachers’ sustainability competences supported by multimodal learning modules. The aim is to achieve close cooperation with training schools to actively engage in-service teachers.Our consortium is a catalyst for leading and empowering profound change in the present and for the future to educate teachers ready to meet the challenges and act as active change agents for sustainable future. Emphasizing teachers’ essential role as a part of the green transition also adds to the attractiveness of teachers’ work.
When dealing with decarbonisation of regional areas, different stakeholders perceive different social, economic, regulatory and technological barriers which they need to overcome in order to move successfully towards a CO2-neutral region. Major questions concern how different technologies for supplying renewable (low carbon) energy can be utilized in an optimal way in combination with (strongly) increased energy efficiency, flexibility in energy demand, planning of investments and minimization of costs and at the same time taking specific local conditions (e.g. capital stock, energy infrastructure) into account. At the same time not only technology and economics are relevant, but just as important is the social acceptance of the transition steps. Together they determine whether or not a theoretical best step forward in the transition will be feasible in real life. On a regional – local scale, there is currently no comprehensive methodology and analysis framework for dealing with the barriers on the level of detail that is required. Decision making for stakeholders to decide on investments and planning over time is therefore difficult. This easily leads to sub-optimal implementation pathways, ineffective use of capital and incentives and too limited emission reductions. No need to say that this will often lead to stalemate situations and progress for energy transition is limited.
The Hanzehogeschool Groningen (HUAS hereafter) is a University of Applied Sciences that is strongly inspired by the challenges of the North Netherlands region and firmly embedded in the city of Groningen in particular. HUAS has a strong track record in education, and practice-based research, and is dedicated to enhancing innovation and entrepreneurship. HUAS currently has 31,000 students Bachelor and Master students in 70 teaching programs. The 3.000 member of staff forming 17 schools and 7 centres of applied research collaborate to offer a cutting-edge teaching-based research. HUAS took the challenge to develop a strong research capacity with 67 professors, and an increasing number of researchers at various levels, supported by dedicated technical and administration support staff. PhD research thesis are co-supervised in collaboration with various universities in the Netherlands and abroad. HUAS positions itself as an Engaged and Versatile university, both in education and research. In line with this, the overall strategic ambitions of HUAS are to develop suitable learning pathways with recognised qualifications; to conduct applied research with a visible impact on education and society; and to be an adaptive, versatile and approachable organisation. HUAS links these strategic ambitions to three strategic research themes: Energy, Healthy Ageing and Entrepreneurship and four societal themes: strengthening a liveable and sustainable North Netherlands; transition to a healthy and active society; digital transformation; and energy transition and circularity. These four challenges define the focus of HUAS education and research.One of the societal themes is explicitly linked to the region: strengthening a liveable and sustainable North Netherlands. North Netherlands is a powerful, enterprising region with the city of Groningen as the healthiest city in the Netherlands. The region is a front runner in the energy transition, has a European exemplary role in the field of active and healthy ageing, and as an agricultural region, has many opportunities for the development of the circular economy and consequently the development of biobased construction material to mitigate climate change. Cooperation with different groups and stakeholders in the region is central in HUAS’s strategy. HUAS is part of extensive local and regional networks, including the University of the North and Akkoord van Groningen. As such, HUAS is well- connected to the research ecosystem in North Netherlands.HUAS has the ambition to better align, connect & develop on a local as well as a regional, national and international levels. Many of the challenges the North is faced with are also relevant in the EU context. Therefore, HUAS is a strong advocate and actor on engaging in European projects. HUAS monitors regularly the EU’s priorities and aligns its research between these priorities and its immediate societal needs. The EU provides a range of funding opportunities that fulfil our ambition as a research and teaching university and responds directly to our challenges from social, energy, and digital transformation. Indeed, over the last decade, HUAS has been successful in European programmes. In the Horizon 2020 programme, HUAS was part of five approved projects. In Horizon Europe so far two projects were granted. HUAS has performed particular well in the EU societal challenge for a secure, clean and efficient energy system. Examples of this are Making City (https://makingcity.eu/) focussing on the developing Positive Energy Districts, and IANOS (https://ianos.eu/) about the decarbonisation of islands. In addition to EU research and innovation schemes, HUAS has a considerable track record in projects funded by the Interreg schemes. In particular, these types of projects have strong links with region, and partners in the region. Currently, EU participation and involvement of HUAS is mainly concentrated in one field: sustainability & energy. In order to further disseminate to other parts of the university, only a well-designed strategy will allow the various research centres to better reach European fundings and satisfy the university’s ambitions. However, so far, no structured mechanism is in place internally to guide the research community and regional stakeholders how to reach European collaboration with confidence. Therefore, this pilot project aims to develop a strategic framework to enhance the participation of all parties at HUAS, including a pilot project that will lead to improvement and validation.
