Het platform voor open en praktijkgericht onderzoek

project

(G)een moer aan!

Massafabricage in de (MKB) maakindustrie is aan het veranderen in flexibele fabricage en assemblage van kleine series, klantspecifieke onderdelen en eindproducten. Hiervoor zijn nieuwe systemen voor het MKB nodig, waarin robots en mensen samen kunnen werken en die zich snel kunnen aanpassen aan nieuwe productieomstandigheden met lage opstartkosten. De ambitie van het project ?(G)een Moer Aan!? is om het herconfigureren van een robotsysteem voor een nieuwe taak in een productieomgeving net zo eenvoudig en snel te maken als het gebruik van een smartphone. Zo?n benadering biedt kansen om de skills van de operator te benutten. De operator kent immers zijn processen en de robot wordt zijn hulpje. Op vraag van betrokken mkb partners is de focus gelegd op een repeterende productiehandeling die in veel sectoren voorkomt en die relatief veel arbeidstijd kost: het indraaien van moeren en bouten in een object. De centrale onderzoeksvraag van het project luidt: Hoe kan een operator een robot eenvoudig, snel en veilig inleren om assemblage handelingen te verrichten voor het snel en robuust verbinden van bouten, moeren en ringen met objecten? Resultaat van dit praktijkgerichte onderzoeksproject is een algemeen bruikbare en gevalideerde ontwerpmethodiek voor de opzet van een gebruiksvriendelijke user interface van een boutmontagerobot op de werkvloer. Door slim gebruik van geïntegreerde inzet van CAD productinformatie, vision technologie en compliant (meegaand) gripping en placing wordt de robot zo veel als mogelijk vooraf automatisch geconfigureerd. Het projectconsortium dat het onderzoek gaat uitvoeren bestaat uit: " 13 bedrijven (12 mkb) actief als toeleverancier, system integrator of gebruiker op het terrein van industriële robotica (Yaskawa, ABB, Smart Robotics, Hupico, Festo, CSi, Demcon, Heemskerk Innovate, WWA, Van Schijndel Metaal, Van Beek, Tegema en Zest Innovate); " Hogescholen Fontys (penvoerder), Avans, Utrecht en NHL; " Kennisinstellingen TNO en DIFFER; " Coöperaties Brainport Industries, FEDA en Koninklijke Metaalunie; " De gemeente Eindhoven is betrokken als partner in de klankbordgroep. De gemeente ondersteunt het belang van dit project voor behoud en verbetering van arbeidsplaatsen in de maakindustrie. Er zullen circa 20 (docent)onderzoekers van de hogescholen en ongeveer 80 studenten betrokken worden bij dit project, die in de vorm van stages en afstudeeronderzoeken werken aan interessante vraagstukken direct afkomstig uit de beroepspraktijk. Naast genoemde meerwaarde voor het bedrijfsleven beoogt het project een verdere verankering van kennis en kunde in onderwijs en lectoraten en een vergroting van de kwaliteit van docenten en afstudeerders.

Afgerond

project

Alignment aUtomation Tool for Optically Coupled single-Use sEnsors (AUTOCUE)

Various companies in diagnostic testing struggle with the same “valley of death” challenge. In order to further develop their sensing application, they rely on the technological readiness of easy and reproducible read-out systems. Photonic chips can be very sensitive sensors and can be made application-specific when coated with a properly chosen bio-functionalized layer. Here the challenge lies in the optical coupling of the active components (light source and detector) to the (disposable) photonic sensor chip. For the technology to be commercially viable, the price of the disposable photonic sensor chip should be as low as possible. The coupling of light from the source to the photonic sensor chip and back to the detectors requires a positioning accuracy of less than 1 micrometer, which is a tremendous challenge. In this research proposal, we want to investigate which of the six degrees of freedom (three translational and three rotational) are the most crucial when aligning photonic sensor chips with the external active components. Knowing these degrees of freedom and their respective range we can develop and test an automated alignment tool which can realize photonic sensor chip alignment reproducibly and fully autonomously. The consortium with expertise and contributions in the value chain of photonics interfacing, system and mechanical engineering will investigate a two-step solution. This solution comprises a passive pre-alignment step (a mechanical stop determines the position), followed by an active alignment step (an algorithm moves the source to the optimal position with respect to the chip). The results will be integrated into a demonstrator that performs an automated procedure that aligns a passive photonic chip with a terminal that contains the active components. The demonstrator is successful if adequate optical coupling of the passive photonic chip with the external active components is realized fully automatically, without the need of operator intervention.

Afgerond

project

BioFlame - Biobased flame retardants from waste

Phosphorus is an essential element for life, whether in the agricultural sector or in the chemical industry to make products such as flame retardants and batteries. Almost all the phosphorus we use are mined from phosphate rocks. Since Europe scarcely has any mine, we therefore depend on imported phosphate, which poses a risk of supply. To that effect, Europe has listed phosphate as one of its main critical raw materials. This creates a need for the search for alternative sources of phosphate such as wastewater, since most of the phosphate we use end up in our wastewater. Additionally, the direct discharge of wastewater with high concentration of phosphorus (typically > 50 ppb phosphorus) creates a range of environmental problems such as eutrophication . In this context, the Dutch start-up company, SusPhos, created a process to produce biobased flame retardants using phosphorus recovered from municipal wastewater. Flame retardants are often used in textiles, furniture, electronics, construction materials, to mention a few. They are important for safety reasons since they can help prevent or spread fires. Currently, almost all the phosphate flame retardants in the market are obtained from phosphate rocks, but SusPhos is changing this paradigm by being the first company to produce phosphate flame retardants from waste. The process developed by SusPhos to upcycle phosphate-rich streams to high-quality flame retardant can be considered to be in the TRL 5. The company seeks to move further to a TRL 7 via building and operating a demo-scale plant in 2021/2022. BioFlame proposes a collaboration between a SME (SusPhos), a ZZP (Willem Schipper Consultancy) and HBO institute group (Water Technology, NHL Stenden) to expand the available expertise and generate the necessary infrastructure to tackle this transition challenge.

Afgerond

project

Circular Park Can Tho

This project entails a feasibility study to assess the possibility of creating an open-access, community-based makerspace in the Vietnamese city of Can Tho. The aim of the project is to kickstart the community based circular economy by utilizing residual flows from the plastic catching process. Plastic catchers trap both plastic and biomass that will be converted into new products to strengthen both the local economy and providing Dutch SME-company Orange Star Solutions with the necessary raw materials to convert into produce. The project will make use of a plot of land bordering the Song Can Tho river. The owner proposed that the plot of land could be used in a way to generate income, preferable in a way that would show environmental awareness. This could be done by using the vast amounts of (in)organic waste that is littering the environment. The collection of the waste is mainly done by local waste pickers. The waste pickers, part of the informal economy, could unleash their full potential if there is a physical location where waste is upcycled and sold, circumventing the bury, burn or bale-and-export economy. The extracted plastic will be converted into pans, cups, pots and crockery. The biomass, predominantly water hyacinth, will serve as one of the ingredients for compost hence, reducing the reliance on chemical fertilizers.

Afgerond

project

Closing the plastic loop in a hospitality facility

Single-Use Plastics (SUPs) are at the centre of European Union Agenda aiming at reducing the plastic soup with the EU Directive 2019/904. SUPs reduction is pivotal also in the Dutch Government Agenda for the transition to a Circular Economy by 2050. Worldwide the data on SUPs use and disposal are impressive: humans use around 1.2 million plastic bottles per minute; approximately 91% of plastic is not recycled (www.earthday.org/fact-sheet-single-use-plastics/). While centralised processes of waste collection, disposal, and recycling strive to cope with such intense use of SUPs, the opportunities and constraints of establishing a networked grid of facilities enacting processes of SUPs collection and recycling with the active involvement of local community has remained unexplored. The hospitality sector is characterised by a widespread capillary network of small hospitality firms nested in neighbourhoods and rural communities. Our research group works with small hospitality firms, different stakeholders, and other research groups to prompt the transition of the hospitality sector towards a Circular Economy embracing not only the environmental and economic dimensions but also the social dimension. Hence, this project explores the knowledge and network needed to build an innovative pilot allowing to close the plastic loop within a hospitality facility by combining a 3D printing process with social inclusiveness. This will mean generating key technical and legal knowledge as well as a network of strategic experts and stakeholders to be involved in an innovative pilot setting a 3D printing process in a hospitality facility and establishing an active involvement of the local community. Such active involvement of the local inhabitants will be explored as SUPs collectors and end-users of upcycled plastics items realised with the 3D printer, as well as through opportunities of vocational training and job opportunities for citizens distant from the job market.

Afgerond

project

COLOUR REMOVAL FROM RECYCLED PLASTIC (confidential)

In Europe we consume 50 million tonnes of plastic a year. The use of plastic has increased fiftyfold in fifty years and the growth continues. Collecting and recycling plastic is thus essential to avoid the pollution of the land and sea. However, generally, post-consumer plastics have very low recycling rates, at present only 7% of plastic used in Europe comes from recycled polymers. Polyethylene terephthalate (PET) is one of the most recycled materials; in 2017 more than 57% of PET bottles were recycled in Europe, used in both packaging and fibre applications. Especially transparent PET bottles have high collecting and recycling rates over Europe. However, the plastics have very different value depending on their colour. If the plastic is even very lightly coloured, the plastic will lose a large percentage of its value. Decolouring plastic is complicated and currently no efficient and economically viable system exists. FT Innovations, a SME with the core-expertise in extraction, sees potential in developing a sustainable decolouration process with a new extraction technology, which offers significant potential in replacing hazardous, relatively expensive and environmentally damaging organic solvents that are currently used on decolouration. Avans has relevant expertise in both (biobased) plastic colourants and the extraction techniques as demonstrated in previous projects, and therefore FT innovations approached Avans with the request to assist in the feasibility study. The consortium is further strengthen by CCT Oss with their strong industrial know-how of colourants and their use in plastics and Plastic Company with their core activity on recycling of PET and other plastic materials.

Afgerond

project

Concept Haalbaarheidsstudie: Zonne-Energie Leverende Lamel (ZELL)

In dit project wordt de techno-economische en sociale haalbaarheid getest van een zonwering systeem dat tevens zonne-stroom en –warmte opwekt, passieve ruimtekoeling levert, en een deel van het natuurlijk daglicht binnenlaat. Het gaat om een zonne-energie leverende lamel, met een zeer geringe inbouwdiepte waardoor deze binnen reguliere vensterbanken past en daardoor goed inpasbaar is in de bestaande bouw met een eerste toepassing in kantoorpanden en kleine utiliteitsbouw. Het systeem is vernieuwend omdat energiewinning uit glazen elementen bij bestaande bouw nog bijna niet bestaat. Het ZELL systeem is ontworpen om laagdrempelig te installeren te zijn in de bestaande bouw binnen de afmetingen van een vensterbank, door de kleine inbouwdiepte van het systeem. Daardoor is er een brede toepassingsmogelijkheid, van woonhuizen tot kantoorpanden en utiliteitsbouw. In deze haalbaarheidsstudie wordt een significante slag gemaakt op de maakbaarheid en schaalbaarheid van het bestaande concept. Er wordt aandacht besteed aan de kostprijs, maakbaarheid en schaalbaarheid. Specifiek de ophanging en het mounting frame, het mechanische bewegingssysteem, inpasbaarheid, productietechnieken en materiaalkeuzes. De optische elementen en pv receiver worden gemodelleerd in Solidworks en er worden energieopbrengst- en lichtdoorlating analyses uitgevoerd op basis van Ray-tracing simulaties. Tevens wordt een alternatief optisch systeem gebaseerd op een langgerekte lineaire Fresnel lens gemodelleerd waarvan ook de energieopbrengst en lichtdoorlatendheid worden gesimuleerd. Voor beide systemen wordt een productie kostprijs opgesteld en een techno-economische haalbaarheidsanalyse verricht. Het consortium verspreidt de resultaten van dit project, en bereidt op basis van de resultaten een vervolg-subsidieaanvraag voor, zo nodig met een uitbreiding van het consortium.

Afgerond

project

Crowdvoiding game

Het beoogde resultaat van dit project is een mobiele game waarin jongeren op een leuke manier gestimuleerd worden om drukke plekken te vermijden, passend bij de COVID-19 maatregelen. De game wordt expliciet niet opgezet als informatie/advies app. Daarnaast zal er ook geen tracing plaatsvinden; anonimiteit moet gegarandeerd zijn. Speerpunt van de mobiele game is om deze voor een breed publiek toegankelijk te maken. Daarin zal speciale aandacht zijn voor jongeren met een visuele beperking.

Afgerond

project

Cultivating new talents of palliative care in nursing education and training for China

The project aims to improve palliative care in China through the competence development of Chinese teachers, professionals, and students focusing on the horizontal priority of digital transformation.Palliative care (PC) has been recognised as a public health priority, and during recent years, has seen advances in several aspects. However, severe inequities in the access and availability of PC worldwide remain. Annually, approximately 56.8 million people need palliative care, where 25.7% of the care focuses on the last year of person’s life (Connor, 2020).China has set aims for reaching the health care standards of the developed countries by 2030 through the Healthy China Strategy 2030, where one of the improvement areas in health care includes palliative care, thus continuing the previous efforts.The project provides a constructive, holistic, and innovative set of actions aimed at resulting in lasting outcomes and continued development of palliative care education and services. Raising the awareness of all stakeholders on palliative care, including the public, is highly relevant and needed. Evidence based practice guidelines and education are urgently required for both general and specialised palliative care levels, to increase the competencies for health educators, professionals, and students. This is to improve the availability and quality of person-centered palliative care in China. Considering the aging population, increase in various chronic illnesses, the challenging care environment, and the moderate health care resources, competence development and the utilisation of digitalisation in palliative care are paramount in supporting the transition of experts into the palliative care practice environment.General objective of the project is to enhance the competences in palliative care in China through education and training to improve the quality of life for citizens. Project develops the competences of current and future health care professionals in China to transform the palliative care theory and practice to impact the target groups and the society in the long-term. As recognised by the European Association for Palliative Care (EAPC), palliative care competences need to be developed in collaboration. This includes shared willingness to learn from each other to improve the sought outcomes in palliative care (EAPC 2019). Since all individuals have a right to health care, project develops person-centered and culturally sensitive practices taking into consideration ethics and social norms. As concepts around palliative care can focus on physical, psychological, social, or spiritual related illnesses (WHO 2020), project develops innovative pedagogy focusing on evidence-based practice, communication, and competence development utilising digital methods and tools. Concepts of reflection, values and views are in the forefront to improve palliative care for the future. Important aspects in project development include health promotion, digital competences and digital health literacy skills of professionals, patients, and their caregivers. Project objective is tied to the principles of the European Commission’s (EU) Digital Decade that stresses the importance of placing people and their rights in the forefront of the digital transformation, while enhancing solidarity, inclusion, freedom of choice and participation. In addition, concepts of safety, security, empowerment, and the promotion of sustainable actions are valued. (European Commission: Digital targets for 2030).Through the existing collaboration, strategic focus areas of the partners, and the principles of the call, the PalcNet project consortium was formed by the following partners: JAMK University of Applied Sciences (JAMK ), Ramon Llull University (URL), Hanze University of Applied Sciences (HUAS), Beijing Union Medical College Hospital (PUMCH), Guangzhou Health Science College (GHSC), Beihua University (BHU), and Harbin Medical University (HMU). As project develops new knowledge, innovations and practice through capacity building, finalisation of the consortium considered partners development strategy regarding health care, (especially palliative care), ability to create long-term impact, including the focus on enhancing higher education according to the horizontal priority. In addition, partners’ expertise and geographical location was also considered important to facilitate long-term impact of the results.Primary target groups of the project include partner country’s (China) staff members, teachers, researchers, health care professionals and bachelor level students engaging in project implementation. Secondary target groups include those groups who will use the outputs and results and continue in further development in palliative care upon the lifetime of the project.

Lopend

Zoekresultaten

Producten 16

De Toekomst van het onderwijs

Heritage as platform

Presentatie tijdens de Berlin Music Week

Citizen Science en gezondheid: Nut en noodzaak van citizen science

Factsheet kenmerken ouderen en beweging

Centre for Design Informatics: Blockchain City

New approaches for participation in digital society in distant times of COVID-19

De belevingswaarde van Musea

Circulair@Inholland

Personen 9

Asli Ünlüsoy-van der Baan

Jacco Bikker

Jacinta Kannekens

Jacinta Kannekens

Jacinta Simons

Jacinthe Adriaansen

Jenifer Yáñez Villahermosa

Richard van Tol

Sander Huiberts

Projecten 43

(G)een moer aan!

Alignment aUtomation Tool for Optically Coupled single-Use sEnsors (AUTOCUE)

BioFlame - Biobased flame retardants from waste

Circular Park Can Tho

Closing the plastic loop in a hospitality facility

COLOUR REMOVAL FROM RECYCLED PLASTIC (confidential)

Concept Haalbaarheidsstudie: Zonne-Energie Leverende Lamel (ZELL)

Crowdvoiding game

Cultivating new talents of palliative care in nursing education and training for China

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Producten 16

De Toekomst van het onderwijs

Heritage as platform

Presentatie tijdens de Berlin Music Week

Citizen Science en gezondheid: Nut en noodzaak van citizen science

Factsheet kenmerken ouderen en beweging

Centre for Design Informatics: Blockchain City

New approaches for participation in digital society in distant times of COVID-19

De belevingswaarde van Musea

Circulair@Inholland

Personen 9

Asli Ünlüsoy-van der Baan

Jacco Bikker

Jacinta Kannekens

Jacinta Kannekens

Jacinta Simons

Jacinthe Adriaansen

Jenifer Yáñez Villahermosa

Richard van Tol

Sander Huiberts

Projecten 43

(G)een moer aan!

Alignment aUtomation Tool for Optically Coupled single-Use sEnsors (AUTOCUE)

BioFlame - Biobased flame retardants from waste

Circular Park Can Tho

Closing the plastic loop in a hospitality facility

COLOUR REMOVAL FROM RECYCLED PLASTIC (confidential)

Concept Haalbaarheidsstudie: Zonne-Energie Leverende Lamel (ZELL)

Crowdvoiding game

Cultivating new talents of palliative care in nursing education and training for China