Library

The library contains a wealth of information on the circular economy for use by policy makers and analysts conducting impact assessments. For more information on impact assessments and the EU's Better Regulation Agenda, please click here.

Searching and filters can be used either alone or in combination. To search the library, enter any keywords and hit enter. You can narrow down the results using the filters to the left. The numbers in parentheses indicate the number of results with the respective filter tags.

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    Urban Biocycles

    Type of evidence: 

    Author names: 

    Andrew Morlet, Dale Walker, Nick Jeffries, Aurélien Susnjara, Sarah Churchill-Slough, Lena Gravis, Ian Banks

    Source: 

    Ellen MacArthur Foundation

    Year: 

    2017

    "This scoping paper focuses on the potential of the significant volume of organic waste flowing through the urban environment. The aim is to highlight the opportunities to capture value, in the form of the energy, nutrients and materials embedded in these flows, through the application of circular economy principles. Organic waste - from the organic fraction of municipal solid waste streams and wastewater that flows through sewage systems - is traditionally seen as a costly problem in economic and environmental terms. This scoping paper will explore the idea that the equation can be...

    ZERO BRINE

    Type of evidence: 

    Year: 

    2017

    "This project aims to facilitate the implementation of the Circular Economy package and the SPIRE Roadmap in various process industries by developing the necessary concepts, technological solutions and business models to re-design the value and supply chains of minerals (including magnesium) and water, while dealing with present organic compounds in a way that allows their subsequent recovery. This is achieved by demonstrating new configurations to recover these resources from saline impaired effluents (brines) generated by process industry, while eliminating wastewater discharge and...

    Water2REturn

    Type of evidence: 

    Year: 

    2017

    "Water2REturn proposes a full-scale demonstration process for integrated nutrients recovery from wastewater from the slaughterhouse industry using biochemical and physical technologies and a positive balance in energy footprint. The project will not only produce a nitrates and phosphate concentrate available for use as organic fertiliser in agriculture, but its novelty rests on the use of an innovative fermentative process designed for sludge valorisation which results in a hydrolysed sludge (with a multiplied Biomethane Potential) and biostimultants products, with low development costs...

    Cascading use of biomass: opportunities and obstacles in EU policies

    Type of evidence: 

    Author names: 

    Sini Eräjää

    Source: 

    BirdLife and European Environmental Bureau

    Year: 

    2015

    BirdLife Europe has been intensively working to highlight the environmental risks of using crops grown on agricultural land for fuel instead of food, resulting in significant emissions from indirect land use change (ILUC). This work resulted in the EU to limit the use of food based biofuels in the transport sector.  

    The effect of bioenergy expansion: Food, energy, and environment

    Type of evidence: 

    Author names: 

    J. Popp, Z.Lakner, M.Harangi-Rákos, M.Fári

    Source: 

    Renewable and Sustainable Energy Reviews

    Year: 

    2014

    "The increasing prices and environmental impacts of fossil fuels have made the production of biofuels to reach unprecedented volumes over the last 15 years. Given the increasing land requirement for biofuel production, the assessment of the impacts that extensive biofuel production may cause to food supply and to the environment has considerable importance. Agriculture faces some major inter-connected challenges in delivering food security at a time of increasing pressures from population growth, changing consumption patterns and dietary preferences, and post-harvest losses. At the same...

    Bioenergy and europes quest for a circular economy

    Type of evidence: 

    Author names: 

    Lisa Benedetti

    Source: 

    Eubioenergy

    Year: 

    2015

    "Europe is on the move to become a ‘circular economy’ which is more competitive and resource efficient. The goal is a more circular flow of materials and energy so that Europeans use and consume in a way that creates minimal waste and puts less pressure on natural resources on this continent and other parts of the world. Sounds like a common sense plan…right? Yes, but one important question arises. Why isn’t the Commission including different types of biomass (biological material) as part of the circular economy equation?" (...

    Ensuring bioenergy comes clean in the Clean Energy Package

    Type of evidence: 

    Author names: 

    Sini Eräjää, Hanna Aho, Laura Buffet

    Source: 

    BirdLife Europe, Fern, Transport & Environment

    Year: 

    2017

    "European climate and energy policies are built on the myth that all bioenergy - being a renewable energy source - is good for the climate and good for the environment. As the use of bioenergy in the EU is expected to more than double by 2020 compared to 2005, it's becoming clear that bioenergy is not the clean dream we all hoped it would be. In some cases it can even increase CO2 emissions (compared to fossil fuels) and in numerous instances it threatens nature by putting additional pressure on already burdened agricultural land and forests. As the demand for bioenergy grows (pushed by...

    The Litte Book of Biofuels

    Type of evidence: 

    Source: 

    BirdLife International, European Environmental Bureau (EEB), Transport & Environment (T&E)

    Year: 

    2014

    "With the launch of the Renewable Energy Directive (RED) in 2009, Europe’s demand for biofuels has skyrocketed. To meet this new demand, the global production of biofuels has also increased significantly. In fact, did you know that every car in Europe uses a blend of biofuels? That’s how common this product has become. Biofuels use vegetable oils, cereals, sugars and waste fats – mainly extracted from rapeseed, soy, palm trees, corn and wheat – to create energy. Because biofuels are derived from plant products, any increase or decrease in their use has a direct impact on agriculture...

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