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1,520 Projects

  • 2022-2022
  • OA Publications Mandate: Yes
  • 2019
  • 2022

10
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  • Funder: EC Project Code: 822337
    Overall Budget: 3,003,310 EURFunder Contribution: 2,998,560 EUR

    Across Europe there is a rise of political movements that claim to challenge liberal elites and speak for the 'ordinary person' - movements that can be loosely categorised as 'populist'. Many of these movements have undesirable tendencies. The Populism and Civic Engagement project (PACE), with others, aims to combat the negative tendencies of populist movements, to build upon the lessons of positive examples (such as Reykjavik), and hence play a part in constructing a firmer democratic and institutional foundation for the citizens of Europe. PACE will analyse, in detail, the type, growth and consequences of such movements in terms of their particular characteristics and context. From this, it will analyse the causes of these movements and their specific challenges to liberal democracy a possibilistic analysis to complement survey/statistical approaches. In particular, it will focus on transitions in these movements (especially changes in leadership) as well as how they relate to other kinds of movements and the liberal reaction. PACE will propose responses to these challenges, developing risk-analyses for each kind of response, each kind of movement and the type of transition. For this, it will employ the agent-based simulation of political processes and attitudes to allow for thorough risk analyses to be made. Throughout the project, it will engage with citizens and policy actors, especially groups under-represented in public affairs, face-face and via new forms of democratic participation appropriate to our digital age to help guide the project and to comment on its outputs. It will develop new tools, based on machine-learning algorithms for identifying and tracking populist narratives and to aid online consultation. It will result in specific interventions aimed at: the public, politicians, activists and educators. It will look further into the future, developing new visions concerning how we could respond to populism and it will warn about longer-term trends.

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  • Funder: EC Project Code: 833112
    Overall Budget: 1,494,540 EURFunder Contribution: 1,494,540 EUR

    EEnvest aims at supporting investors´ decision making process by translating building’s energy efficiency technical requirements into economic indicators. These indicators are in turn used to evaluate financial risks associated with deep renovation investment and to include non-energy benefits in asset evaluation models. EEnvest will allow the financial sector to match the EE investments demand and offer for commercial office buildings located in Italy and Spain. EEnvest will increase financers’, investors’, owners’ and users’ mutual trust, by identifying, quantifying and mitigating technical risks associated to those investments as well as by reducing the cost of credit for lenders through targeted risk reduction actions. EEnvest will develop effective evaluation methods for the technical/financial risk correlation by categorising a number of major technical risks and quantifying their impact on investors´ confidence. Those risks will be i) evaluated exploiting existing databases on building energy efficiency (e.g. DEEP database of Energy Efficincy Financial Institutions Group), ii) organized into investor friendly bechmark track record and iii) transferred on a web-based platform through secured blockchain networks The investment demand and offer will be supported by the EEnvest - search&match investment evaluation web-based platform, integrating building stock evaluation data, both from the technical and the financial side. EEnvest approach will be replicable in more countries and business cases thanks to the standardization of technical/financial due diligence framework for energy efficiency renovation of buildings and to the search&match web-based platform allowing deep renovation investments to be more appealing on the financial market.

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  • Funder: EC Project Code: 825355
    Overall Budget: 14,241,900 EURFunder Contribution: 12,407,700 EUR

    CYBELE generates innovation and create value in the domain of agri-food, and its verticals in the sub-domains of PA and PLF in specific, as demonstrated by the real-life industrial cases to be supported, empowering capacity building within the industrial and research community. Since agriculture is a high volume business with low operational efficiency, CYBELE aspires at demonstrating how the convergence of HPC, Big Data, Cloud Computing and the IoT can revolutionize farming, reduce scarcity and increase food supply, bringing social, economic, and environmental benefits. CYBELE intends to safeguard that stakeholders have integrated, unmediated access to a vast amount of large scale datasets of diverse types from a variety of sources, and they are capable of generating value and extracting insights, by providing secure and unmediated access to large-scale HPC infrastructures supporting data discovery, processing, combination and visualization services, solving challenges modelled as mathematical algorithms requiring high computing power. CYBELE develops large scale HPC-enabled test beds and delivers a distributed big data management architecture and a data management strategy providing 1) integrated, unmediated access to large scale datasets of diverse types from a multitude of distributed data sources, 2) a data and service driven virtual HPC-enabled environment supporting the execution of multi-parametric agri-food related impact model experiments, optimizing the features of processing large scale datasets and 3) a bouquet of domain specific and generic services on top of the virtual research environment facilitating the elicitation of knowledge from big agri-food related data, addressing the issue of increasing responsiveness and empowering automation-assisted decision making, empowering the stakeholders to use resources in a more environmentally responsible manner, improve sourcing decisions, and implement circular-economy solutions in the food chain.

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  • Funder: EC Project Code: 832907
    Overall Budget: 9,858,390 EURFunder Contribution: 7,421,440 EUR

    The EnergyShield project will develop an integrated toolkit covering the complete EPES value chain (generator, TSO, DSO, consumer). The toolkit combines novel security tools from leading European technology vendors and will be validated in large-scale demonstrations by end-users. The EnergyShield toolkit will combine the latest technologies for vulnerability assessment (automated threat modelling and security behaviour analysis), monitoring & protection (anomaly detection and DDoS mitigation) and learning & sharing (security information and event management). The integrative approach of the project is unique as insights produced by the various tools will be combined to provide a unique level of visibility to the users. For example, it will be possible to combine vulnerability scanning with automated threat modelling to provide insights into software vulnerabilities present in an architecture in combination with insights into what are the key assets, risks and weak links of the architecture. The toolbox will allow end-users to predict future attacks (as it provides insights to what attacks can be applied to the weakest links of the architecture) and learn from past attacks (for example using the insights from the vulnerability assessment and threat modelling to prevent attacks, and learning from attacks to update the probabilistic meta-model of the threat modelling). The toolkit will be implemented with the complete EPES value chain who will contribute to the specification, prototyping and demonstration phases of the project. Although the toolkit will be tailored to the needs of EPES operators, many of the technology building blocks and best practices will be transferable to other types of critical infrastructures. The consortium consists of 2 large industrial partners (SIVECO and PSI), whereof SIVECO is taking the lead supported by 6 innovative SMEs, 3 academic research organizations and 7 end-users representing various parts of the EPES value chain.

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  • Funder: FCT Project Code: SFRH/BD/135733/2018
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  • Funder: EC Project Code: 843951
    Overall Budget: 208,040 EURFunder Contribution: 208,040 EUR

    High drop-out rates at university level indicate that students are not able to find what they expected at the university. It is a problem in many European countries. Reports from European Commission and universities, mentioned that relating the courses in their programs to e.g. the disciplinary future selves (DFSs) of the students is one of the solutions by enhancing students’ learning and affective states (e.g. motivation and interest). The DFS is defined as a future identity that one wants to establish by choosing a certain study program. Introductory physics courses in many undergraduate programs such as pharmaceutical sciences, are among the courses perceived as difficult and sometimes irrelevant. There were few attempts to relate physics courses to pharmacy majors. However, there was no study to reveal the effects of these attempts. Though there were attempts to relate introductory physics courses to life-science students which concluded that it is possible to influence participation in a course and students’ perceptions about the link between physics and biology. In order to explore the effects of the DFS-related physics instruction on pharmacy students’ achievement in physics and affective characteristics related to physics, a quasi-experimental research with control group will be conducted. The focus of the physics course is on Electromagnetism. Activities and materials related to electricity content will be developed to design the DFS-related instruction by reviewing the literature thoroughly, and conducting interviews with the course instructors, teaching assistants, pharmacy majors, and pharmaceutical sciences faculty members. The effectiveness of the instruction will be assessed with physics achievement test and the Affective Characteristics Questionnaire (both as pre-test & post-test). During the implementation, experimental and control groups will be observed. After the implementation, post-interviews will be conducted to validate the results.

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  • Funder: EC Project Code: 824630
    Overall Budget: 1,497,820 EURFunder Contribution: 1,497,820 EUR

    PHERECLOS builds upon the theory of science capital and the experience that Children’s Universities (CUs) have made in the Third Mission of universities. With their engagement with children and young people, they became intermediaries between various actors in the educational and social landscape. As translators of the concerns, messages and knowledge of other parties (incl. business and industry, the state, civic society organizations etc.) they help to dismantle institutional boundaries of universities towards a wider society. The project will establish 6 "Local Education Clusters" (LECs), which bring together schools and further relevant actors in the education ecosystem of a particular pilot region, supported by a peer mentoring programme. The LECs will be incubators for enabling a dialogue between various parties and help to set up joint activities in (formal and non-formal) education, which help to develop collaborative learning environments as experimental testbeds for schools. At the same time they impact on the quality of science engagement opportunities in these areas. PHERECLOS will implement a digital “OpenBadge” ecosystem which labels institutions as reliable and responsive actors and showcases all LEC parties to become real change agents in education. At the same time, this ecosystem will testify individual achievements with respect to STEAM engagement in formal or non-formal settings or even unintended learning outcomes. The regional effectiveness and impact will be monitored by academic transfer and implementation research and lead to the development of implementation guidelines and policy briefs to enhance the sustainability of the overall approach. PHERECLOS promotes the territorial dimension of local education clusters in all their manifold facets and their catalyzing role relating to access to STEAM and higher education, critical thinking and informed decision making in a wider societal context – including competitiveness and sustainable growth.

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  • Funder: FCT Project Code: SFRH/BD/145807/2019
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  • Funder: WT Project Code: 220066

    Antibiotic resistance is a global health issue that threatens modern medicine and how we treat bacterial infections. Investigating how bacteria live is important to fight against antibiotic resistance as it can lead to new approaches for dealing with bacterial infections, and new targets for antibiotics. The research project we are proposing aims to further our understanding of a system called Tol-Pal in a class of bacteria called Gram negatives. Tol-Pal has been shown to have a role in cell division and is important for the growth of Gram-negative bacteria. At the moment, we do not fully understand how the components of Tol-Pal work together to carry out this function. In this project we hope to use structural biology techniques to see what a complex of three of the proteins in the Tol-Pal system, TolQRA, look like. We hope that finding out what TolQRA looks like will help us to investigate the mechanism of TolQRA within the Tol-Pal system, and further our understanding of Gram-negative bacteria and how they work.

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  • Funder: EC Project Code: 838120
    Overall Budget: 8,775,680 EURFunder Contribution: 6,323,920 EUR

    Agro-food and Paper mill side streams and by-products are sources of unexploited organic fractions exploitable into safe microbial biomasses, functional ingredients and intermediates, e.g. prebiotics, pre-fermented ingredients, bioplastics and chemicals. The INGREEN bio-based ingredients/materials will be used to produce innovative functional products for food, feed, packaging, pharmaceutical, nutraceutical and cosmetic sectors. The INGREEN outcomes will be obtained by validated tailor made biotechnologies based on safe microorganisms or eco-friendly approaches. Logistics and storage conditions will be optimized to favor the flow from feedstock to the bio-based prototype producers. INGREEN aims to demonstrate in industrial environments the efficiency and sustainability of the target biotechnologies to produce i) lactobionic acid (LBA), galactooligosaccharides (GOS), microbial safe biomasses from whey; ii) polyhydrohyalkanoates (PHA) enriched biomasses and purified PHA, as prebiotics and bioplastics respectively, from paper mill wastewater; iii) functional pre-fermented ingredients from rye/wheat milling fractions. Safe and characterized INGREEN ingredients will be used for innovative functional cheeses, bakery products and nutritious feeds. Functional GOS, LBA and pre-fermented bran will be used to produce prebiotic immune-stimulating gel, nutraceutical supplement and cleanser for human health. INGREEN biodegradable material will be valorised into bag in box to boost INGREEN fluid prototype sustainability. Prototype safety, shelf-life, quality and functional performances will be compared to benchmarks. Also LCA/LCC, sound business cases and plans and compliance with REACH and any relevant EU safety legislation will be applied over the whole project to assess prototype benefits compared to benchmarks. INGREEN product specifications will contribute to define/standardize the regulatory requirements for outcome innovation deals, market uptake and societal acceptance.

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1,520 Projects
  • Funder: EC Project Code: 822337
    Overall Budget: 3,003,310 EURFunder Contribution: 2,998,560 EUR

    Across Europe there is a rise of political movements that claim to challenge liberal elites and speak for the 'ordinary person' - movements that can be loosely categorised as 'populist'. Many of these movements have undesirable tendencies. The Populism and Civic Engagement project (PACE), with others, aims to combat the negative tendencies of populist movements, to build upon the lessons of positive examples (such as Reykjavik), and hence play a part in constructing a firmer democratic and institutional foundation for the citizens of Europe. PACE will analyse, in detail, the type, growth and consequences of such movements in terms of their particular characteristics and context. From this, it will analyse the causes of these movements and their specific challenges to liberal democracy a possibilistic analysis to complement survey/statistical approaches. In particular, it will focus on transitions in these movements (especially changes in leadership) as well as how they relate to other kinds of movements and the liberal reaction. PACE will propose responses to these challenges, developing risk-analyses for each kind of response, each kind of movement and the type of transition. For this, it will employ the agent-based simulation of political processes and attitudes to allow for thorough risk analyses to be made. Throughout the project, it will engage with citizens and policy actors, especially groups under-represented in public affairs, face-face and via new forms of democratic participation appropriate to our digital age to help guide the project and to comment on its outputs. It will develop new tools, based on machine-learning algorithms for identifying and tracking populist narratives and to aid online consultation. It will result in specific interventions aimed at: the public, politicians, activists and educators. It will look further into the future, developing new visions concerning how we could respond to populism and it will warn about longer-term trends.

    visibility246
    visibilityviews246
    downloaddownloads222
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    more_vert
  • Funder: EC Project Code: 833112
    Overall Budget: 1,494,540 EURFunder Contribution: 1,494,540 EUR

    EEnvest aims at supporting investors´ decision making process by translating building’s energy efficiency technical requirements into economic indicators. These indicators are in turn used to evaluate financial risks associated with deep renovation investment and to include non-energy benefits in asset evaluation models. EEnvest will allow the financial sector to match the EE investments demand and offer for commercial office buildings located in Italy and Spain. EEnvest will increase financers’, investors’, owners’ and users’ mutual trust, by identifying, quantifying and mitigating technical risks associated to those investments as well as by reducing the cost of credit for lenders through targeted risk reduction actions. EEnvest will develop effective evaluation methods for the technical/financial risk correlation by categorising a number of major technical risks and quantifying their impact on investors´ confidence. Those risks will be i) evaluated exploiting existing databases on building energy efficiency (e.g. DEEP database of Energy Efficincy Financial Institutions Group), ii) organized into investor friendly bechmark track record and iii) transferred on a web-based platform through secured blockchain networks The investment demand and offer will be supported by the EEnvest - search&match investment evaluation web-based platform, integrating building stock evaluation data, both from the technical and the financial side. EEnvest approach will be replicable in more countries and business cases thanks to the standardization of technical/financial due diligence framework for energy efficiency renovation of buildings and to the search&match web-based platform allowing deep renovation investments to be more appealing on the financial market.

    visibility356
    visibilityviews356
    downloaddownloads246
    Powered by Usage counts
    more_vert
  • Funder: EC Project Code: 825355
    Overall Budget: 14,241,900 EURFunder Contribution: 12,407,700 EUR

    CYBELE generates innovation and create value in the domain of agri-food, and its verticals in the sub-domains of PA and PLF in specific, as demonstrated by the real-life industrial cases to be supported, empowering capacity building within the industrial and research community. Since agriculture is a high volume business with low operational efficiency, CYBELE aspires at demonstrating how the convergence of HPC, Big Data, Cloud Computing and the IoT can revolutionize farming, reduce scarcity and increase food supply, bringing social, economic, and environmental benefits. CYBELE intends to safeguard that stakeholders have integrated, unmediated access to a vast amount of large scale datasets of diverse types from a variety of sources, and they are capable of generating value and extracting insights, by providing secure and unmediated access to large-scale HPC infrastructures supporting data discovery, processing, combination and visualization services, solving challenges modelled as mathematical algorithms requiring high computing power. CYBELE develops large scale HPC-enabled test beds and delivers a distributed big data management architecture and a data management strategy providing 1) integrated, unmediated access to large scale datasets of diverse types from a multitude of distributed data sources, 2) a data and service driven virtual HPC-enabled environment supporting the execution of multi-parametric agri-food related impact model experiments, optimizing the features of processing large scale datasets and 3) a bouquet of domain specific and generic services on top of the virtual research environment facilitating the elicitation of knowledge from big agri-food related data, addressing the issue of increasing responsiveness and empowering automation-assisted decision making, empowering the stakeholders to use resources in a more environmentally responsible manner, improve sourcing decisions, and implement circular-economy solutions in the food chain.

    visibility4K
    visibilityviews3,966
    downloaddownloads9,963
    Powered by Usage counts
    more_vert
  • Funder: EC Project Code: 832907
    Overall Budget: 9,858,390 EURFunder Contribution: 7,421,440 EUR

    The EnergyShield project will develop an integrated toolkit covering the complete EPES value chain (generator, TSO, DSO, consumer). The toolkit combines novel security tools from leading European technology vendors and will be validated in large-scale demonstrations by end-users. The EnergyShield toolkit will combine the latest technologies for vulnerability assessment (automated threat modelling and security behaviour analysis), monitoring & protection (anomaly detection and DDoS mitigation) and learning & sharing (security information and event management). The integrative approach of the project is unique as insights produced by the various tools will be combined to provide a unique level of visibility to the users. For example, it will be possible to combine vulnerability scanning with automated threat modelling to provide insights into software vulnerabilities present in an architecture in combination with insights into what are the key assets, risks and weak links of the architecture. The toolbox will allow end-users to predict future attacks (as it provides insights to what attacks can be applied to the weakest links of the architecture) and learn from past attacks (for example using the insights from the vulnerability assessment and threat modelling to prevent attacks, and learning from attacks to update the probabilistic meta-model of the threat modelling). The toolkit will be implemented with the complete EPES value chain who will contribute to the specification, prototyping and demonstration phases of the project. Although the toolkit will be tailored to the needs of EPES operators, many of the technology building blocks and best practices will be transferable to other types of critical infrastructures. The consortium consists of 2 large industrial partners (SIVECO and PSI), whereof SIVECO is taking the lead supported by 6 innovative SMEs, 3 academic research organizations and 7 end-users representing various parts of the EPES value chain.

    visibility853
    visibilityviews853
    downloaddownloads435
    Powered by Usage counts
    more_vert
  • Funder: FCT Project Code: SFRH/BD/135733/2018
    more_vert
  • Funder: EC Project Code: 843951
    Overall Budget: 208,040 EURFunder Contribution: 208,040 EUR

    High drop-out rates at university level indicate that students are not able to find what they expected at the university. It is a problem in many European countries. Reports from European Commission and universities, mentioned that relating the courses in their programs to e.g. the disciplinary future selves (DFSs) of the students is one of the solutions by enhancing students’ learning and affective states (e.g. motivation and interest). The DFS is defined as a future identity that one wants to establish by choosing a certain study program. Introductory physics courses in many undergraduate programs such as pharmaceutical sciences, are among the courses perceived as difficult and sometimes irrelevant. There were few attempts to relate physics courses to pharmacy majors. However, there was no study to reveal the effects of these attempts. Though there were attempts to relate introductory physics courses to life-science students which concluded that it is possible to influence participation in a course and students’ perceptions about the link between physics and biology. In order to explore the effects of the DFS-related physics instruction on pharmacy students’ achievement in physics and affective characteristics related to physics, a quasi-experimental research with control group will be conducted. The focus of the physics course is on Electromagnetism. Activities and materials related to electricity content will be developed to design the DFS-related instruction by reviewing the literature thoroughly, and conducting interviews with the course instructors, teaching assistants, pharmacy majors, and pharmaceutical sciences faculty members. The effectiveness of the instruction will be assessed with physics achievement test and the Affective Characteristics Questionnaire (both as pre-test & post-test). During the implementation, experimental and control groups will be observed. After the implementation, post-interviews will be conducted to validate the results.

    more_vert
  • Funder: EC Project Code: 824630
    Overall Budget: 1,497,820 EURFunder Contribution: 1,497,820 EUR

    PHERECLOS builds upon the theory of science capital and the experience that Children’s Universities (CUs) have made in the Third Mission of universities. With their engagement with children and young people, they became intermediaries between various actors in the educational and social landscape. As translators of the concerns, messages and knowledge of other parties (incl. business and industry, the state, civic society organizations etc.) they help to dismantle institutional boundaries of universities towards a wider society. The project will establish 6 "Local Education Clusters" (LECs), which bring together schools and further relevant actors in the education ecosystem of a particular pilot region, supported by a peer mentoring programme. The LECs will be incubators for enabling a dialogue between various parties and help to set up joint activities in (formal and non-formal) education, which help to develop collaborative learning environments as experimental testbeds for schools. At the same time they impact on the quality of science engagement opportunities in these areas. PHERECLOS will implement a digital “OpenBadge” ecosystem which labels institutions as reliable and responsive actors and showcases all LEC parties to become real change agents in education. At the same time, this ecosystem will testify individual achievements with respect to STEAM engagement in formal or non-formal settings or even unintended learning outcomes. The regional effectiveness and impact will be monitored by academic transfer and implementation research and lead to the development of implementation guidelines and policy briefs to enhance the sustainability of the overall approach. PHERECLOS promotes the territorial dimension of local education clusters in all their manifold facets and their catalyzing role relating to access to STEAM and higher education, critical thinking and informed decision making in a wider societal context – including competitiveness and sustainable growth.

    more_vert
  • Funder: FCT Project Code: SFRH/BD/145807/2019
    more_vert
  • Funder: WT Project Code: 220066

    Antibiotic resistance is a global health issue that threatens modern medicine and how we treat bacterial infections. Investigating how bacteria live is important to fight against antibiotic resistance as it can lead to new approaches for dealing with bacterial infections, and new targets for antibiotics. The research project we are proposing aims to further our understanding of a system called Tol-Pal in a class of bacteria called Gram negatives. Tol-Pal has been shown to have a role in cell division and is important for the growth of Gram-negative bacteria. At the moment, we do not fully understand how the components of Tol-Pal work together to carry out this function. In this project we hope to use structural biology techniques to see what a complex of three of the proteins in the Tol-Pal system, TolQRA, look like. We hope that finding out what TolQRA looks like will help us to investigate the mechanism of TolQRA within the Tol-Pal system, and further our understanding of Gram-negative bacteria and how they work.

    more_vert
  • Funder: EC Project Code: 838120
    Overall Budget: 8,775,680 EURFunder Contribution: 6,323,920 EUR

    Agro-food and Paper mill side streams and by-products are sources of unexploited organic fractions exploitable into safe microbial biomasses, functional ingredients and intermediates, e.g. prebiotics, pre-fermented ingredients, bioplastics and chemicals. The INGREEN bio-based ingredients/materials will be used to produce innovative functional products for food, feed, packaging, pharmaceutical, nutraceutical and cosmetic sectors. The INGREEN outcomes will be obtained by validated tailor made biotechnologies based on safe microorganisms or eco-friendly approaches. Logistics and storage conditions will be optimized to favor the flow from feedstock to the bio-based prototype producers. INGREEN aims to demonstrate in industrial environments the efficiency and sustainability of the target biotechnologies to produce i) lactobionic acid (LBA), galactooligosaccharides (GOS), microbial safe biomasses from whey; ii) polyhydrohyalkanoates (PHA) enriched biomasses and purified PHA, as prebiotics and bioplastics respectively, from paper mill wastewater; iii) functional pre-fermented ingredients from rye/wheat milling fractions. Safe and characterized INGREEN ingredients will be used for innovative functional cheeses, bakery products and nutritious feeds. Functional GOS, LBA and pre-fermented bran will be used to produce prebiotic immune-stimulating gel, nutraceutical supplement and cleanser for human health. INGREEN biodegradable material will be valorised into bag in box to boost INGREEN fluid prototype sustainability. Prototype safety, shelf-life, quality and functional performances will be compared to benchmarks. Also LCA/LCC, sound business cases and plans and compliance with REACH and any relevant EU safety legislation will be applied over the whole project to assess prototype benefits compared to benchmarks. INGREEN product specifications will contribute to define/standardize the regulatory requirements for outcome innovation deals, market uptake and societal acceptance.

    more_vert