Oslo has been developing a waste management system based on circular principles to ensure separate waste collection is maximised and transform waste into secondary raw materials. To do so it has actively engaged with citizens, farmers as well as with its city’s public transportation company.
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Investissements initiaux élevés
Munich has taken its ambitious waste reduction strategy to the next level by developing an innovative reuse lab and shop concept. Its Halle 2 municipal secondhand store not only enables citizens to take responsibility for living more sustainably, it also provides opportunities for job creation, educational programmes and voluntary activities.
Terra Humana's 3R zero emission pyrolysis and nutrient recovery technology transform animal by-products into safe and high value Bio-Phosphate fertiliser.
Tale Me is the first European dressing room to rent clothing for maternity and babies/children from 0 to 6 years old.
The Granada Sur Biorefinery of Emasagra has set up an ambitious environmental strategy in order to become European circular economy reference in the field of sanitation and wastewater treatment.
The company Van de Sant Innovations BV designs and manufactures comfortable sustainable furniture, made from recovered (ocean) plastics.
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.
Production of organic, natural, luxury mattresses, toppers and bedding, using 100% biodegradable material wherever possible.
The use of alternative resources has a long tradition in the Austrian Cement Industry. The success story originally started with the processing of alternative main constituents for cement production. The recent trend reaches out further for the substitution of natural raw materials for the clinker production. For every ton of cement, almost 500 kg of alternative resources have been reused.
Attero introduces a new high quality product that is used as ingredient for substrates and potting soils: biobased substrate compost. The process for achieving this quality is unique in the world of compost production.
Destaclean® Puukivi (Wood stone) is a progressive recycled material, of which the prepared products are ecological, lightweight, durable and easy to machine. The resulting wood stone is a composite of pure recycled wood fibre, rock minerals, cement and water.
New, innovative bioenergy products from paper and pulp mills’ sidestreams utilizing novel biogas technology
EcoEnergySF Oy has a biogas plant in the area of Metsä Fibre Bioproduct Mill in Äänekoski, Finland. The biogas plant processes the wastewater slurries of the BioproductMill, and turn those into biogas for transportation, carbon dioxide for pulping process as well as fertilizers and solid biofuel for boiler plants.
Zero Carbon Resorts project towards Sustainable Development of the Tourism Sector in the Philippines and Thailand
Tourism in the Philippines and Thailand is receiving increasing attention as an excellent development option but with the vulnerability of developing countries to climate change it is inevitable to take the environmental performance of the tourism business into serious consideration.
Covestro has developed an innovative technology that allows using CO2 as raw material for the production of chemical building blocks for high-quality plastics.
The Circular Economy Demonstration Projects programme was launched in 2014 and has been repeated yearly, having developed 36 projects by 2016.
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.
BREAD4PLA is a project conducted by a consortium of four European organisation led by AIMPLAS.
It seeked to demonstrate, in a pre-productive pilot plant process, the viability of poly(lactic acid), a bioplastic polymer (PLA), synthesized from waste products of the bakery industry for the production of bakery packaging.