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.

The search found 143 results in 0.019 seconds.

Search results

    Circular Economy: Measuring innovation in product chains

    Type of evidence: 

    Author names: 

    José Potting, Marko Hekkert, Ernst Worrell, Aldert Hanemaaijer

    Source: 

    PBL

    Year: 

    2016

    This Dutch study aims to explore how the transition to a circular economy can be measured in the production chain and focuses on asking relevant policy questions for plastic packaging (bottles and other plastic packaging) and electrical devices (washing machines and dryers, and fridges and freezers). However, it does not provide corresponding indicators.

    Three types of CE-transitions are identified:
    • CE-transitions that place the development of a specific, radical new technology central
    • CE-transitions that place socio-economic change central
    • CE-transitions...

    Delivering the circular economy - a toolkit for policymakers

    Type of evidence: 

    Author names: 

    Andrew Morlet et al.

    Source: 

    Ellen MacArthur Foundation

    Year: 

    2016

    This report wants to provide countries and their policy makers who are interested in a transition to the circular economy with a toolkit. To test this toolkit, a case study was performed for Denmark. It focused on opportunities in several sectors; food and beverage, construction and real estate, machinery, plastic packaging and hospitals. Eight important conclusions were drawn:

    • The transition to a circular economy can deliver the expected lasting benefits of a more innovative, resilient and productive economy.
    • The circular economy provides many opportunities that are...

    Growth within: A circular economy vision for a competitive Europe

    Type of evidence: 

    Author names: 

    Ellen MacArthur et al.

    Source: 

    Ellen MacArthur Foundation, the McKinsey Center for Business and Environment (sponsered by Stiftungsfonds für Umweltökonomie)

    Year: 

    2015

    This report seeks to answer five questions:

    1. Is Europe’s current resource model effective?
    2. Will the technology revolution solve Europe’s resource issues?
    3. What would a circular economy in Europe look like?
    4. What economic outcomes could a circular model achieve in Europe?
    5. If Europe decided to shift towards a circular model, how could policy-makers and business leaders accelerate the transition?

    Three of Europe’s most resource-intensive basic needs are discussed; food, mobility and the built environment, all together comprising 60% of...

    Circular economy: a commentary from the perspectives of the natural and social sciences

    Type of evidence: 

    Author names: 

    European Academies Science Advisory Council

    Source: 

    EASAC

    Year: 

    2015

    This commentary by the EASAC primarily examines the proposed benefits and potential enabling policies of the circular economy. A broad range of sources is used to recognize gaps and inadequacies in proposed benefits and policies in order to foster a substantial discussion among stakeholders as to how to proceed in the transition process. The study also examines barriers and indicators and comments on their nature and efficacy respectively. Furthermore, the commentary provides advice regarding avoidance of barriers and the use of proper indicators.

    A Circular Economy in the Netherlands by 2050

    Type of evidence: 

    Author names: 

    Dutch Ministry of Infrastructure and the Environment

    Source: 

    Dutch Ministry of Infrastructure and the Environment

    Year: 

    2016

    This program explores the challenges and possibilities for realizing a circular economy by 2050 in the Netherlands. Both current and follow-up steps are identified for this purpose. The following barriers for the transition to a circular economy are mentioned: regulations, the non-internalisation of external effects, the lack of knowledge for technical, social and system innovation, non-circular behaviour of citizens and professionals, adaptation problems in the production chain, consolidated investments and interests, limited influence in the international playing field. The Dutch...

    Resource-efficient green economy and EU policies

    Type of evidence: 

    Author names: 

    Roberto Zoboli, Susanna Paleari, Giovanni Marin, Massimiliano Mazzanti, Francesco Nicolli, Anna Montini, Valeria Miceli, Stefan Speck

    Source: 

    EEA

    Year: 

    2014

    This report wants to contribute to a better understanding of the green economy and all the major forces and policies involved. It predominantly focuses on improving resource efficiency from a macro-economic perspective, for which eco-innovation is a primary enabling factor. However, the spread of technologies derived from eco-innovation often is obstructed by several barriers, such as finance, knowledge, costs, markets etc. Fiscal reforms, like environmental taxes and emission trading schemes are also crucial major enabling factors, but to what extent depends on their design (rebound...

    The Circular Dairy Economy: Exploring the case for a farmer led, 'net positive' circular dairy sector

    Type of evidence: 

    Author names: 

    Circle Economy, FrieslandCampina

    Source: 

    Circle Economy

    Year: 

    2016

    The report focuses is on a proposed move toward circularity in the dairy industry. Recognizing the strong possibility that growth due to increased demand for dairy products will be seen in the future, the report advocates that the dairy industry transition to a more circular economic model not only to reduce the industries ecological footprint but also to ensure that producers maintain their “their license to operate. Furthermore, the report examines three possible circular transition pathways and analyzes their proposed benefits, policy implementation possibilities, and potential barriers...

    More from less - material resource efficiency in Europe

    Type of evidence: 

    Author names: 

    Paweł Kaźmierczyk et al.

    Source: 

    EEA

    Year: 

    2016

    "This report presents an overview of approaches to material resource efficiency and to circular economy in thirty two European countries. It explores similarities and differences in national policy responses, with respect to policy objectives, priority resources and sectors, driving forces, targets and indicators, and the institutional setup. The report also reviews the EU policy framework for resource efficiency and analyses trends in material use and resource productivity between 2000 and 2014. Finally, it includes a number of considerations for the development of future policies on...

    A review on circular economy: the expected transition to a balanced interplay of environmental and economic systems

    Type of evidence: 

    Author names: 

    Patrizia Ghisellini, Catia Cialani, Sergio Ulgiati

    Source: 

    University of Bologna, Dalarna University, Parthenope Universtiy of Naples, Beijing Normal Unversity

    Year: 

    2016

    "This study provides an extensive review of the literature of last two decades, with the purpose of grasping the main CE features and perspectives: origins, basic principles, advantages and disadvantages, modelling and implementation of CE at the different levels (micro, meso and macro) worldwide." (https://www.sciencedirect.com/science/article/pii/S0959652615012287)

    The history and current applications of the circular economy concept

    Type of evidence: 

    Author names: 

    K. Winans, A. Kendall, H. Deng

    Source: 

    University of California

    Year: 

    2017

    "The challenges of balancing industrial development, environmental and human health, and economic growth in China and elsewhere in the world are drivers for recent resource use and low-carbon development strategies that include the application of the circular economy (CE) concept. A central theme of the CE concept is the valuation of materials within a closed-looped system with the aim to allow for natural resource use while reducing pollution or avoiding resource constraints and sustaining economic growth. The objectives of this study are (1) to review the history of the CE concept to...

    Opportunities for a circular economy in the Netherlands

    Type of evidence: 

    Author names: 

    Ton Bastein, Elsbeth Roelofs, Elmer Rietveld, Alwin Hoogendoorn

    Source: 

    TNO

    Year: 

    2013

    "This report analyses the opportunities and obstacles that will present themselves as the Netherlands moves towards a more circular economy. It proposes a number of actions that can be taken, particularly by the government, to accelerate this process." (https://www.government.nl/documents/reports/2013/10/04/opportunities-for...)

    Resource Efficiency: Potential and Economic Implications

    Type of evidence: 

    Author names: 

    Paul Ekins, Nick Hughes et al.

    Source: 

    International Resource Panel

    Year: 

    2017

    "This report examines the potential for increasing resource efficiency in industrialized countries, including the G7, emerging economies and developing countries. It focuses on the use of natural resources and the environment, including energy, land, water, raw materials: biotic and abiotic, marine and freshwater, oceanic and terrestrial. The evidence base includes the recent and ongoing work of the International Resource Panel, as well as that of a number of international organizations that have addressed this issue. The report also seeks to identify transboundary effects and discusses...

    CoPro

    Type of evidence: 

    Year: 

    2016

    Aspires to "[…] develop and to demonstrate methods and tools for process monitoring and optimal dynamic planning, scheduling and control of plants, industrial sites and clusters under dynamic market conditions."

    DREAM

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2015

    The DREAM project aims to design, develop and demonstrate a radically improved architecture for ceramic industrial furnaces, characterised by optimised energy consumption, reduced emis-sions, and lower operating costs compared to currently available technological solutions. This will be obtained by substantially enhancing specific furnace parts (control system, refractories, emissions abatement system) and by adding new modules and sub-systems (CHP unit, heat pipes) to the current furnace architecture. DREAM Specific Objectives will be: To design innovative hardware furnace components...

    I-ThERM

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2017

    I-ThERM's goal is to investigate, design, build and demonstrate innovative plug and play waste heat recovery solutions to facilitate optimum utilisation of energy in selected applications with high replicability and energy recovery potential in the temperature range 70-1000 degrees Celcius.

    iCspec

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2017

    The iCspec project focuses on the in-line process control of many technically relevant gases such as hydrocarbons (HC). The main purpose of the project is to develop gas analyzers beyond the state-of-the-art for fast in-line multi-component monitoring of gas compositions in a process stream and to replace currently employed analyzers as gas chromatographs (GCs) or Fourier-Transform-Infrared spectrometers (FTIRs)

    INSPIREWATER

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2015

    INSPIREWATER is an EU funded project which will enable process industry companies to implement sustainable water treatment solutions as part of a corporate sustainability strategy. This will be achieved via the development, demonstration and exploitation of innovative, eco-efficient technologies which will support sustainable water resources management. INSPIREWATER technologies will increase water and resource efficiency by 20-30% in the process industry. The project will focus initially on the steel and chemical industries, with the long-term goal of applying the technologies across...

Pages