Abstract of a lecture that was held on the annual congress of AESOP (Association of European Schools of Planning) in 2014.
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In the housing market enormous challenges exist for the retrofitting of existing housing in combination with the ambition to realize new environmentally friendly and affordable dwellings. Bio-based building materials offer the possibility to use renewable resources in building and construction. The efficient use of bio-based building materials is desirable due to several potential advantages related to environmental and economic aspects e.g. CO2 fixation and additional value. The potential biodegradability of biomaterials however demands also in-novative solutions to avoid e.g. the use of environmental harmful substances. It is essential to use balanced technological solutions, which consider aspects like service life or technical per-formance as well as environmental aspects. Circular economy and biodiversity also play an im-portant role in these concepts and potential production chains. Other questions arise considering the interaction with other large biomass users e.g. food production. What will be the impact if we use more bio-based building materials with regard to biodiversity and resource availability? Does this create opportunities or risks for the increasing use of bio-based building materials or does intelligent use of biomass in building materials offer the possibility to apply still unused (bio) resources and use them as a carbon sink? Potential routes of intelligent usage of biomass as well as potential risks and disadvantages are highlighted and discussed in relation to resource efficiency and decoupling concept(s).
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This book explores fundamental socio-economic trends that are radically changing perspectives on the relationship between people and the world around them. Focusing on the principles of sustainability, circularity and inclusivity, it illustrates how these trends form the breeding ground for a new economy embodying a logic of collectiveness.Expert contributors highlight six specific global developments that are contributing to societal transition: digitalization, circularity, the bio-based economy, sharing, self-production, and the internet of things and services. They demonstrate how these trends question the foundations and social contracts underlying the current linear economy. They identify a new generation of business models based on key features including intra-organisational collaboration, transparency, and high-level coordination to ensure economic developments contribute to a fair society. Through an analysis of how these trends may develop going forward, they provide innovative recommendations for strategy and policy development alongside a conceptual toolbox for realising the economy of the future.Framing the Economy of the Future is an essential resource for students and scholars of economics, business and sustainable development. It is also an invaluable guide for professionals in public administration and strategic management.
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A year later, in 2013, the Westerkwartier Area Cooperative was established – a new form of cooperation at the regional level, involving hundreds of dairy farmers, other SMEs, Terra MBO as the representative of the knowledge institutions in the region, the National Forest Service in the Netherlands (‘Staatsbosbeheer’), the Groningen Countryside Association (‘Landschapsbeheer Groningen’) and, later on, the De Zijlen healthcare institution. A year later, this initiative was followed by the establishment of the Southwest Drenthe Area Cooperative, another formalised multi-stakeholder cooperative on a large scale, bound together by a shared agenda. The members of these two new cooperatives sought to bring together and strengthen local and sectoral initiatives at the regional level. Because of their close cooperation with knowledge institutions, they hoped that practice-based research would yield a lot of results. At the many evening meetings and during workshops, spirited debates were held about new concepts such as bio-based economy, new concepts in food and health, alternative methods of energy production, but also ways of improving the quality of life in the region, strengthening the tourism industry and creating jobs for young people. Those involved were all too aware that the existing educational and research institutes and government agencies, and the organisational structures used by businesses, tend to do more harm than good, which led to the call for Next Education, Next Governance and Next Business. It became apparent from these discussions that there were many knowledge questions to be explored, and the need arose for a permanent link with the knowledge institutions through the establishment of a separate professorship focused on sustainable and cooperative entrepreneurship for the benefit of the entrepreneurs involved as well as for the education sector, the government and the general public. This is how the Sustainable Cooperative Entrepreneurship professorship came about, as part of the Sustainable Financial Management professorship chaired by Dr Margreet Boersma at Hanze University of Applied Sciences Groningen’s School of Financial and Economic Management. I am honoured to be giving this new professorship shape, and I would like to point out that I will not be doing this on my own – I am only the figurehead of a very substantial group of innovative and ambitious entrepreneurs, students, lecturers, public servants, citizens and colleagues. The Innovation Army is marching. And if you are not a part of it yet, now is the time to get involved!
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Dit boekje is een weerslag van de inaugurele rede als Lector Biobased Economy bij Hogeschool Van Hall Larenstein die Hans Derksen op 8 mei 2012 hield. De kern van het betoog is wat de biobased economy kan betekenen voor een duurzame samenleving. Maar ook wat deze niet kan betekenen, want biomassa is niet de oplossing voor alles. Uiteindelijk gaat het vooral over de kansen die biomassa, en meer in het bijzonder een biobased economy, de mens biedt.
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210,000 tons of textile waste is produced in the Netherlands every year - that is equivalent to 350,000,000 pairs of jeans. There are opportunities to use this waste stream as a resource for new materials in a circular economy, however. One such new material is the biocomposite RECURF. This material was developed within the Urban Technology research programme at Amsterdam University of Applied Sciences and consists of a combination of non-rewearable textile fibres and a bio-based plastic. The BiOrigami project sought to explore and develop architectural applications for this new circular biocomposite. Combining Japanese origami with digital production technology, BiOrigami explores possible functional, flexible applications of the biocomposite in interior products with high experiential value for use in circular-economy architecture. Origami techniques give the material important characteristics, making it more constructive and flexible with enhanced acoustic qualities. The use of digital production techniques enables serial production, which could be scaled up at a later stage.
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Voor de transitie naar een biobased economie is meer nodig dan een goed idee. Het Kenniscentrum Biobased Economy van de Hanzehogeschool Groningen richt zich daarom met bedrijfsleven en partners op wat verder nodig is om innovatieve oplossingen succesvol naar de markt te brengen: ketenmanagement en -kennis, een verandering in interne bedrijfsvoering en een herdefiniëring van waarde en prijs.
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Dit boek is het resultaat van het SIA Raak MKB project “Biocomposieten voor civiele en bouwkundige toepassingen; Biobased brug”. Het is geschreven voor bedrijfsleven en studenten van het MBO, het HBO en de universiteiten. Het project leverde een haalbaarheidsonderzoek van een volledig biocomposieten voetgangersbrug. Materialenonderzoek bij Inholland Composites en stijfheid en sterkte berekeningen toonden aan dat een volledig biocomposieten voetgangersbrug haalbaar was. De Dommelbrug is met succes door ruim 100 studenten gebouwd.
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Met de sterk groeiende aantallen zonnepanelen en windmolens maakt Nederland een inhaalslag met de opwekking van duurzame energie in de vorm van elektriciteit. Helaas bestaat er nog geen goede balans tussen vraag en aanbod en is betaalbare opslag van duurzame stroom nog niet vanzelfsprekend. Een mogelijk alternatief is opslag in de vorm van methaan. Daarover meer leren is de kern van het vierjarige onderzoeksproject Biologische Power-to-Gas (Bio-P2G) van lector Jan-Peter Nap.
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The LIBBIO project is about researching the potential of Andes Lupin for breeding cropping and biorefinery. 14 partners from 8 different EU countries cooperate together. Hanze University of Applied Sciences is technical-scientific coordinator of this 5 mio€ project. Project duration is from 2016 to 2020
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