The increased generation of food waste is a global and national problem. The purpose of the study is to investigate the factors that influence food waste and the role of technology in tackling food waste in the Netherlands. One of the main findings of the research is food waste is that consumer food waste is mainly influenced by food passing expiry date, food that is left too long in the fridge and consumers buying too much food. In final household consumption, digital platforms and applications enable individuals to share and donate their food, thereby creating awareness on food waste prevention and the environmental benefits.
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This paper quantifies output from 11 annual conferences held by the European Federation of Food Science and Technology (EFFoST) in the period 2010–2020 on a range of themes in food science/technology, innovation, sustainability, valorisation, food safety, food and health, food properties, consumer aspects and related areas. Summaries of the 11 conferences have been published in a series of 11 reports published in Trends in Food Science and Technology. Collated outputs from the 11 conferences were 283 plenary/keynote lectures, 982 theme lectures, 3196 posters and 4710 attendees. This represents a very large dissemination effort by any standard and augers well for the status of food science and technology in Europe and also more globally. Special sessions are a feature of recent EFFoST conferences, consisting of discussion platforms/forums with chairpersons and ‘hot topics’ for debate. Two examples are (i) the OLEUM project which aims to better guarantee olive oil quality and authenticity, and (ii) the valorisation of side streams. Foremost among special sessions are those for young scientists. The Young EFFoST Day provides opportunity for young food professionals to expand their competencies and networking in food science. It is a day for young scientists managed by young scientists. Networking between conference attendees at posters sessions, coffee and lunch breaks is a key part of each conference, which facilitates information exchange and the framing of new collaborative projects.
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Jaarboek van de afstudeerders van HAS hogeschool, opleiding Food design 2016 met hun concepten ingedeeld in schakels van de keten: - In het deel Agri & Ingredients zijn ingrediënten en agrarische producten zoals groenten, peulvruchten als startpunt genomen van innovatie. - In het deel Factory treft u technologische innovaties en ontwikkelingen gericht op product, proces en kwaliteitsborging. - In het deel Channel kunt u innovaties in het marktkanaal, zoals blurring, omnichannel en online fooddiensten verwachten. - In het hoofdstuk Consumer zijn concepten te vinden die gericht zijn op specifieke doelgroepen, zoals ouderen, mensen met anosmie en stoeremannen.
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Size measurement plays an essential role for micro-/nanoparticle characterization and property evaluation. Due to high costs, complex operation or resolution limit, conventional characterization techniques cannot satisfy the growing demand of routine size measurements in various industry sectors and research departments, e.g., pharmaceuticals, nanomaterials and food industry etc. Together with start-up SeeNano and other partners, we will develop a portable compact device to measure particle size based on particle-impact electrochemical sensing technology. The main task in this project is to extend the measurement range for particles with diameters ranging from 20 nm to 20 um and to validate this technology with realistic samples from various application areas. In this project a new electrode chip will be designed and fabricated. It will result in a workable prototype including new UMEs (ultra-micro electrode), showing that particle sizing can be achieved on a compact portable device with full measuring range. Following experimental testing with calibrated particles, a reliable calibration model will be built up for full range measurement. In a further step, samples from partners or potential customers will be tested on the device to evaluate the application feasibility. The results will be validated by high-resolution and mainstream sizing techniques such as scanning electron microscopy (SEM), dynamic light scattering (DLS) and Coulter counter.
Flying insects like dragonflies, flies, bumblebees are able to couple hovering ability with the ability for a quick transition to forward flight. Therefore, they inspire us to investigate the application of swarms of flapping-wing mini-drones in horticulture. The production and trading of agricultural/horticultural goods account for the 9% of the Dutch gross domestic product. A significant part of the horticultural products are grown in greenhouses whose extension is becoming larger year by year. Swarms of bio-inspired mini-drones can be used in applications such as monitoring and control: the analysis of the data collected enables the greenhouse growers to achieve the optimal conditions for the plants health and thus a high productivity. Moreover, the bio-inspired mini-drones can detect eventual pest onset at plant level that leads to a strong reduction of chemicals utilization and an improvement of the food quality. The realization of these mini-drones is a multidisciplinary challenge as it requires a cross-domain collaboration between biologists, entomologists and engineers with expertise in robotics, mechanics, aerodynamics, electronics, etc. Moreover a co-creation based collaboration will be established with all the stakeholders involved. With this approach we can integrate technical and social-economic aspects and facilitate the adoption of this new technology that will make the Dutch horticulture industry more resilient and sustainable.
An important line of research within the Center of Expertise HAN BioCentre is the development of the nematode Caenorhabditis elegans as an animal testing replacement organism. In the context of this, us and our partners in the research line Elegant! (project number. 2014-01-07PRO) developed reliable test protocols, data analysis strategies and new technology, to determine the expected effects of exposure to specific substances using C. elegans. Two types of effects to be investigated were envisaged, namely: i) testing of possible toxicity of substances to humans; and ii) testing for potential health promotion of substances for humans. An important deliverable was to show that the observed effects in the nematode can indeed be translated into effects in humans. With regard to this aspect, partner Preventimed has conducted research in obesity patients during the past year into the effect of a specific cherry extract that was selected as promising on the basis of the study with C. elegans. This research is currently being completed and a scientific publication will have to be written. The Top Up grant is intended to support the publication of the findings from Elegant! and also to help design experimental protocols that enable students to become acquainted with alternative medical testing systems to reduce the use of laboratory animals during laboratory training.
