Oratie over het commercialiseringsproces op sportgebied, uitgesproken op 18 oktober 2006 bij de openbare aanvaarding van het ambt van bijzonder hoogleraar op het vakgebied van de Sportontwikkeling aan de Universiteit Utrecht in de faculteit Rechtsgeleerdheid, Economie, Bestuur en Organisatie, departement Bestuurs- en organisatiewetenschappen.
Essay based on a Presentation to International Stakeholder Forum, Convened by the Board of Directors of the Fair Labor Association, Washington D.C. June 26, 2009. There is much concern about the current crisis. Indeed the fall in consumption in developed countries is steep, anything between 15 to 25% over the first months of 2009 in most countries. This is double the decline of sales in previous recessions. However to this cyclical crisis and concerns two new concerns are being added. The first new concern to fashion, mainly amongst retailers and brands, is related to their impact on manufacturing in developing countries and to the employment and social conditions of workers. The second concern new to fashion, which is broadly shared amongst industries, is that after the crisis more structural changes in consumption will happen.
MULTIFILE
The European Commission aims for a full circular economy (CE), an economy that aims to reuse all resources in 2050. CE is a promising way to increase welfare and wellbeing while decreasing environmental footprints. Industrial symbiosis, in which companies exchange residuals for resource efficiency, is essential to the circular transition. However, many companies are hesitant to implement business models for industrial symbiosis because of the various roles, stakes, opinions, and resulting uncertainties for business continuity.This dissertation supports researchers, professionals, and students in understanding and shaping circular business models for industrial symbiosis networks through collaborative modelling and simulation methods. Three theoretical perspectives, design science research, complex adaptive socio-technical systems, and circular business model innovation, shed light on designing business models for industrial symbiosis. A serious game and agent-based models were developed in multiple case studies with researchers, practitioners, and students. These were then used to design circular business models and explore their efficacy under uncertain conditions, such as various behavioural intentions of potential partners in diverse natural and societal contexts.This thesis advances business model design and experimentation by integrated simulation of social and technical aspects of industrial symbiosis. Furthermore, the research shows how simulations facilitate learning processes in designing circular business models. Ultimately, the thesis equips researchers, practitioners, and students with knowledge, tools, and methods to shape a circular economy.
Het Nederlands Openluchtmuseum (NOM) wil actief bijdragen aan een duurzame samenleving met zijn kennis van materialen, producten, diensten en culturele tradities die eeuwenlang functioneerden binnen circulaire gemeenschappen. Ondanks technologische vernieuwing en globalisering heeft het NOM de overtuiging dat deze historische kennis kan bijdragen aan duurzame producten voor de toekomst. Het NOM wil een structurele samenwerking met de creatieve sector om meetbare impact te realiseren binnen en buiten het museum voor de transitie naar een circulaire samenleving. Daarvoor wil het graag zijn collectie en kennis toegankelijk maken voor ontwerpers. Belangrijke praktijkvragen daarbij zijn: Welke rol kan het museum spelen i.s.m. ontwerpers? Hoe kan relevante kennis van het NOM toegankelijk en toepasbaar worden gemaakt voor ontwerpers? Hoe creëer je samen met ontwerpers de gewenste impact in de samenleving? Op basis hiervan is de onderzoeksvraag geformuleerd: Hoe kunnen maatschappelijke organisaties zoals het NOM relevante kennis en artefacten toegankelijk en toepasbaar maken voor ontwerpers t.b.v. meetbare impact voor een circulaire samenleving? Deze onderzoeksvraag is vertaald naar enkele sub-vragen over definities van duurzaamheid en circulariteit, de verwachte rollen van museum en ontwerpers, de gewenste structuur van samenwerking en over de rol van prototypen om de gewenste impact te realiseren. Naast het NOM als MKB, participeren in dit project twee creatieve ondernemers (1 MKB, 1 ZZP-er) die zijn geselecteerd op basis van hun specifieke ontwerpkwaliteiten, hun ervaringen in samenwerken met partners en hun kennis van circulair ontwerp. Samen met docent-onderzoekers en ontwerpstudenten van ArtEZ onderzoeken zij deze vragen. De belangrijkste projectresultaten zijn: prototypen, getest op gewenste maatschappelijke impact; een rapport dat beschrijft hoe het NOM kan samenwerken met de creatieve sector om bij te dragen aan ‘Nederland circulair’; en presentatie- en netwerkbijeenkomsten om kennis te delen en te bouwen aan het netwerk van stakeholders om beoogde impact te realiseren.
Human kind has a major impact on the state of life on Earth, mainly caused by habitat destruction, fragmentation and pollution related to agricultural land use and industrialization. Biodiversity is dominated by insects (~50%). Insects are vital for ecosystems through ecosystem engineering and controlling properties, such as soil formation and nutrient cycling, pollination, and in food webs as prey or controlling predator or parasite. Reducing insect diversity reduces resilience of ecosystems and increases risks of non-performance in soil fertility, pollination and pest suppression. Insects are under threat. Worldwide 41 % of insect species are in decline, 33% species threatened with extinction, and a co-occurring insect biomass loss of 2.5% per year. In Germany, insect biomass in natural areas surrounded by agriculture was reduced by 76% in 27 years. Nature inclusive agriculture and agri-environmental schemes aim to mitigate these kinds of effects. Protection measures need success indicators. Insects are excellent for biodiversity assessments, even with small landscape adaptations. Measuring insect biodiversity however is not easy. We aim to use new automated recognition techniques by machine learning with neural networks, to produce algorithms for fast and insightful insect diversity indexes. Biodiversity can be measured by indicative species (groups). We use three groups: 1) Carabid beetles (are top predators); 2) Moths (relation with host plants); 3) Flying insects (multiple functions in ecosystems, e.g. parasitism). The project wants to design user-friendly farmer/citizen science biodiversity measurements with machine learning, and use these in comparative research in 3 real life cases as proof of concept: 1) effects of agriculture on insects in hedgerows, 2) effects of different commercial crop production systems on insects, 3) effects of flower richness in crops and grassland on insects, all measured with natural reference situations
The global market for colorants is projected to reach €86.76 billion by 2030, with the majority of these colorants derived from non-renewable petroleum. The production process of synthetic colorants and its residuals can cause significant problems to environment and health. In light of these concerns, there is growing interest in natural colorants as a sustainable alternative. Fungal colorants are one of the promising candidates. Historically fungal colorants have been used for various purposes. However, the industrial productivity, scalability, and application possibilities of fungal colorants are yet to be fully explored. Many Dutch small and medium-sized enterprises (SMEs) are particularly interested in fungal colorants, but the limitation of experiences and knowledge in these novel products creates a gap among research, commodity, and markets. To fill this gap, it is essential to explore fungal colorant production from both technical and economic angles. This means a multidisciplinary approach would be needed including fermentation yield improvements, extraction upscaling and application discovery. These approaches require specific expert knowledge and facilities which are not easily accessible to SMEs. Therefore, by combining the expertise of 2 universities of applied sciences, 1 academic institute, 8 SME and 2 branch organizations, the TUFUCOL consortium proposes to conduct sets of studies contributing to fungal colorant industrialization in this project. The consortium will focus on blue and orange colorants produced by two different fungi as prototypes, and will conduct scaling-up and non-food application tests in industrial settings.The results will help to estimate the technological and economic potential of fungal colorants as a sustainable alternative to current synthetic sources. The development of a prototype fungal colorant business case could benefit achieving the climate neutral goal by reducing the reliance on non-renewable resources and reducing environmental pollution. This will contribute to the transition towards a circular economy.