95 research outputs found
Glocal Insights to Neo-Carbon Energy and Its Forerunners
This paper presents the results of an international survey on the
forerunners of renewable energy. The survey was constructed in the Neo-Carbon
Energy project, one of the strategic research openings of Tekes â the Finnish
Funding Agency for Innovation. The foresight part of the project is conducted
at Finland Futures Research Centre (FFRC). This survey explores the futures of
an economy based on a new renewable energy based system in a peer-to-peer
society 2050. The global meta-scenarios were reflected with a local and
regional context in the survey to provide glocal insights. The results are used to modify
and deepen the global meta-scenarios, and to contextualize them in different
countries, particularly in the Neo-Carbon Energy projectâs target countries:
Kenya, Tanzania, South Africa, China, Korea and Australia. Respondents from
USA, Latin America and Europe were also included.The aim of the survey was to identify possible pioneers for each of the
four transformational neo-carbon energy scenarios. Moreover, the possibility,
probability and desirability of the scenarios was also evaluated by the
respondents. The questionnaire addressed an international expert community of
futurists, energy experts and entrepreneurs working on energy questions and
societal change, which consists of members of the Club of Rome, the
Millennium Project and national level energy and innovation networks. In total,
the questionnaire was sent to 160 recipients in 14 countries. The response rate
was 29Â % with 39 respondents. Almost all respondents saw at least one of
the scenarios possible in their local context, and the majority felt so about
several scenarios. Value-Driven Techemoths 2050 scenario was seen as the most
probable scenario, whereas Radical Startups 2050 and New Consciousness
2050, both based on deep ecology, were seen as the preferred scenarios.Underlying these changes is a gradually growing consciousness of
ecological threats. The spirit described in the Startups scenario can be found
in other types of organisations: an entrepreneurial mind is needed also when
starting a social experiment or a movement. As for aspiring startups,
their radicality lies in the nature of the technology, in innovative business
models, or their power in disrupting the market. With regard to Value-Driven Techemoths,
some large companies are seen to have potential of turning into value-driven, but
many also questioned their abilities. An analysis of the do-it-yourself
mentality proved interesting: the âDIYâ was seen as a mentality, activism,
learning, a statement, business, fun, and even a necessity. Being a DIY energy entrepreneur
or dealing with energy issues is not reserved for men only â East African respondents
named entrepreneurs, of which several were women. Beyond engineering, in order
to make their innovations spread, training is needed for other skills too:
marketing, design thinking, accounting, and so forth. Ecological constraints are
increasingly acknowledged by religious and spiritual movements. While this is beginning
to push industrial change, for others this may imply adopting more traditional
lifestyles.Governmental support is crucial as an enabler: this includes soft measures
(capacity-building, institutional support and networking), economic incentives
or legal and regulatory measures. This means ending the dependence on coal, less
regulation and taxation, and incentives that steer towards the production and
consumption of renewables. While ideas or STI policies should not merely be
replicated, for lessons learned it could be useful to look what those governments
have done that already have combined cultural and societal strengths while enabling
technological development. At a more simple stage, there are social
practices in place in one country that are unknown elsewhere. Innovative
business models linked to a technology, too, may at the moment only be in place
in certain regions. Some respondents did discuss cross-sectoral linkages from renewable
energy, such as solar and wind in linkage with the constructions and transport
sector or mentioned novel energy services that are emerging from digitalisation.
The use of solar energy in industry was mentioned in linkage with the mining
sector. Across regions, âclosedâ grids were perceived to hold back the
innovations by startup entrepreneurs, DIY engineers and large companies.Pioneers nurture a sense of urgency for
the change, and at the same time, they seem to realise that work and employment
could in a growing degree emerge from renewable energy and digitalisation. If we
want to see a neo-carbon future where decentralised and democratised energy
prosumerism is a positive trend, support needs to be given to those pioneers
who are identified as making that future â locally and regionally. Indeed,
the survey findings could be used as material for outlining more concise and detailed
regional strategies and for re-visiting economic or development visions. It
could also be worth defining which innovations and social practices exactly
have the highest potential of being radical or disruptive innovation to enable
a truly transformative pathway to a solar and wind powered society. Only a
few responses yet mentioned next generation technologies that support a 100%
renewable energy system based on solar and wind. Therefore, this leaves
considerable space for future innovation and competition to emerge in various niches.</p
Multidisciplinary studentsâ self-evaluated competence at the beginning of studies in digital health and social care service specialisation education
Digital transformation in health and social care is a fast-growing sector globally. Multidisciplinary professionals are needed in the development of digital health and social care services. This study aimed to evaluate the self-assessments of students participating in specialisation education on the importance of multidisciplinary digital competences, focusing on competence in the digitalisation of social and health care and how they assess their own competences at the beginning of their education. The purpose was to describe the multidisciplinary competences in this area at EQF level 6 by using a self-assessment tool.
Data were collected from 274 specialised education students in the years 2021 and 2022 from 14 universities of applied sciences. The background information included participantsâ years of work experience, professional education area and study credits. There were nine competence areas. The survey contains 61 Likert scale questions. Cronbachâs alpha was 0.962 (N=126). The paired t-test was used for statistical analyses to determine the relationship between the importance of a competence and studentsâ current levels of competence. For each pair, the arithmetic mean for the how important variable was higher than the current competence variable. The average means of all competencesâ differences was 1.04 between how important the competence was to the students and their current understanding of their own level of the particular competence. Service design competences have both the highest average level of student competence and variance in competence. The second-largest variance was in online guiding competences, which is one of the clearest competences for students to understand the content. These results may be explained by expert bias, where a person with a lot of knowledge rates their own level of knowledge lower, while a person with less knowledge does the opposite. The gap between current competence level and the assessed importance of the particular competence shows that there is a need for specialisation education in multidisciplinary competences for developing digital health and social care services. The overall result is a self-assessment tool that can be used to assess the level of competences in different competence areas in specialisation education. It is important for health and social care organisations to manage the competences and continuing education of their professionals
Ecological Sufficiency in Climate Policy : Towards Policies for Recomposing Consumption
According to the Paris Agreement, global warming is to be limited to well below 2 degrees. The largely prevailing emission reduction approach has been to improve ecological efficiency in production. Despite remarkable improvements, total emissions have not decreased but resulted in a multitude of rebound effects. Ecological sufficiency has been brought up as a necessary complementary approach to reach the climate targets. This article clarifies the role of ecological sufficiency in consumption-based climate policy and discusses it in relation Goughâs stages of decarbonisation: 1) ramping up eco-efficiency; 2) an intermediate stage of recomposing consumption; and 3) reducing consumption. A theoretical conceptualisation of the second stage, considered as a type of sufficiency, is described. Following previous studies, recomposing consumption entails systematically steering consumption away from identified carbon hotspots towards low-carbon options. The article identifies a number of policy measures to recompose consumption.peerReviewe
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