The Horizon 2020 project SUSTAINair was launched recently. It aims to research and develop solutions to increase resource efficiency and aircraft performance while cutting down on waste and material costs throughout the aircraft life cycle - what is known as "circular aviation".
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Harmonisation de la législation de l’UE
Enrich manufactures organic compost in an open windrow system using source segregated green waste such as garden clippings and landscaping materials.
Hewlett-Packard (HP) endorses the Circular Computing and proposes remanufactured models as alternatives for new models. This action underlines a highly significant endorsement of Circular Computing’s approach to sustainability at the high end of the IT market.
A Better Life with MgO: a flue gas desulphurisation process with a positive net environmental impact
LIFEPOSITIVEMgOFDG - a project co-financed under the EU's LIFE programme - is about designing and implementing a novel technique for air pollution abatement which respects circular economy principles.
ETV4INNOVATION is a two-and-a-half-year long European Commission funded vocational education and training Strategic Partnership project under Erasmus+ programme. It has been designed with the aim to support the development and the implementation of an innovative practice and a new training path in the field of Environmental Technology Verification (ETV).
RacionaLUSO offers a compact system that meets the recently-introduced Portuguese quality legislation for water reuse. With the availability of just 2m2, the system can treat 15m3 of water per day with a recovery efficiency of 80 % of water and 45.6 % of energy (thermal).
Contaminated sediment from the Port of Dunkirk has been re-used in road structures since 2002, when the Port started to cooperate with the Ecole des Mines de Douai and various industrial partners in order to design alternative materials for stabilised sub-base road layers.
On 9 May 2019, the National Institute for Circular Economy (INEC) and Orée, the two main circular economy organisations in France, presented their collaborative research on the political dynamics of circular economy in Europe and the civil society networks that drive this circular transition.
NAFIGATE’s Hydal Biotechnology uses waste cooking oil to produce a fully biodegradable and biocompatible PHA biopolymer named Hydal (Polyhydroxyalcanoates). This is the first biopolymer of its kind being produced on an industrial scale at an affordable price.
By experimenting with recycled water bottles as material for internal components, Océ discovered the drivers and barriers to using recycled plastic in manufacturing
In designing the varioPrint 135, Océ partnered with the Netherlands Enterprise Agency and Philips to experiment with the use of recycled plastic in the production of industrial printers. The company has made a further step towards circular economy and succeeded in developing an internal component that contains at least 30% post-consumer recycled polycarbonate.
In the framework of the Urban Agenda Partnership on Circular Economy, ACR+ co-organised a workshop with its member OVAM, the European Economic and Social Committee, the Council of European Municipalities and Regions and Eurocities.
In October 2015 the Luxembourg government named the municipality of Wiltz a Circular Economy Hotspot. In February 2018 Wiltz renewed its political commitment with a Circular Economy Charter signed by its municipal council, by which it committed itself to mainstreaming circular economy in its future project and activities.
Water2REturn is an Innovation Action co-funded by the European Commission under its Horizon 2020 (H2020) programme.
On the 24th of May, C&A Foundation, together with Ecopreneur.EU hosted a Circular Fashion Policy Lab in Brussels at the European Economic and Social Committee in the context of the Circular Economy Stakeholder Platform. The purpose of the event was to bring together representatives from across the fashion industry to discuss key policy measures to make a meaningful impact for a green economy.
The EU cement industry supports the promotion of industrial symbiosis and the recognition of energy recovery as a waste management solution for non-recyclable waste. The use of waste materials in the cement industry with a simultaneous energy recovery and material recycling, referred to as co-processing, contributes towards achieving the objectives of the circular economy.
After several years of research, a pilot plant has been constructed and gone into operation within Covesto’s project Cycles (funded by German Federal Ministry of Environment (BMUB)), to demonstrate the reuse of low-concentrated salt-containing wastewater streams.
CIRC-PACK project aims at more sustainable, efficient, competitive, integrated and interconnected plastic packaging value chain with less fossil fuel dependence.
Cement recarbonation refers to the process where part of the CO2 emitted during the cement production is re-absorbed by concrete in use through carbonation.
Food and drink manufacturers work continuously to preserve the value of resources that go into food and drink products during the manufacturing process. The website Ingredients for a circular economy presents through concrete examples what manufacturers do to move towards a more circular economy: for instance, striving to preserve the value of resources such as water, energy and materials.
SCREEN is a Horizon 2020 project covering 17 European regions.
It aims at defining a replicable systemic approach towards a transition to Circular Economy in EU regions within the context of the Smart Specialization Strategy. The project also deals with the identification and implementation of operational synergies between investments in research and innovation under Horizon 2020, the Structural Funds and the European Investment Funds.
PolyStyreneLoop project: pioneer demonstration plant to treat up to 3300 tonnes of polystyrene waste/yr as of 2018
The PolyStyreneLoop Cooperative is the European EPS/XPS industry’s closed loop solution for the recycling of polystyrene (PS) insulation foam waste.
This project employs a ground-breaking technology to dissolve PS foam waste while also allowing for the extraction and recovery of bromine from the restricted flame retardant chemical, HBCD, which can then be used again in the production.
From waste water to RichWater, an innovative technology for combining treatment and reuse in agriculture
RichWater is a EU Horizon 2020 funded project which has provided an innovative technology for wastewater reuse in agricuture. An integrated approach combining treatment and irrigation in a single system enables taking maximum advantage of nutrients.
The functional economy in the chemical industry: 8 case studies demonstrate efficiency and sustainability
Take Back Chemicals is innovating by proposing a 'functional economy' business model in the use of chemicals. Traditional business models are based on sales per volume, whereas TBC uses "chemical leasing" and regeneration process for greater efficiency and sustainability.
The report is based on the study of 3 cases in Belgium and 5 cases in the Netherlands with leading chemical industries.