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 39 results in 0.01 seconds.

Search results

    Circular economy in Europe: Developing the knowledge base

    Type of evidence: 

    Author names: 

    Almut Reichel, Mieke De Schoenmakere, Jeroen Gillabel

    Source: 

    EEA

    Year: 

    2016

    This report seeks to help policy makers to better understand the circular economy, by focusing on four of its dimensions; the main enabling factors and transition challenges, indicators for measuring progress and contextual issues. One of the main conclusions regarding the monitoring of progress is that for now the focus is on developments in resource efficiency and waste management, which covers a part, but not the whole, of the circular economy. More data is needed on eco-design, the sharing economy, and repair and reuse. Furthermore, social indicators, industrial symbiosis indicators...

    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...

    MAESTRI

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2017

    The MAESTRI project aims to advance the sustainability of European manufacturing and process industries. This is done by providing a management system in the form of a flexible and scalable platform, and to guide and simplify the implementation of an innovative approach, the Total Efficiency Framework. The overall aim of this framework is to encourage a culture of improvement within process industries by assisting the decision-making process, supporting the development of improvement strategies and helping define the priorities to improve the company's environmental and economic...

    SHAREBOX

    Type of evidence: 

    Year: 

    2017

    Resource efficiency offers a major economic opportunities for the European Process Industry, both in terms of cost savings as well as opportunities to offer greener products and services. Industrial Symbiosis (IS) is the use by one company or sector of by-products, including energy, water, logistics and materials, from another. The approach that underpins SHAREBOX centres on logical work flow that covers from the identification of new symbiotic synergies right through optimised connections among companies and organisations in established symbiotic relationships. SHAREBOX will provide plant...

    TRIS

    Type of evidence: 

    Source: 

    Interreg Europe

    Year: 

    2017

    Industrial Symbiosis (IS) is a building block of the Circular Economy, a means to sustainable growth increasing resource efficiency and SMEs competitiveness and resiliency (COM(2014) 398 final/2). Despite the acknowledged advantages, IS is not yet fully widespread. The challenge TRIS is facing is to enable a systemic uptake of IS in 5 European regions, supporting policy makers to increase the competitiveness of their SMEs by introducing IS practices. To do so, the TRIS consortium will: Identify facilitating elements and obstacles and embed them in (or remove them from) the appropriate...

    SYMBI

    Type of evidence: 

    Source: 

    Interreg Europe

    Year: 

    2017

    SYMBI General objective is to empower regions to build sustainable economies, resilient to en-vironmental pressures and climate change. The project will support the implementation of policy instruments and measures for the diffusion of industrial symbiosis, to add value, reduce production costs and relieve environmental pressures through increased resource efficiency and green house gas emissions. "SYMBI aims at supporting the transition towards a resource-efficient economy through industrial symbiosis, establishing territorial synergies to manage waste and exchange energy & by-...

    RESYNTEX

    Type of evidence: 

    Source: 

    H2020

    Year: 

    2017

    RESYNTEX is a research project which aims to create a new circular economy concept for the textile and chemical industries. Using industrial symbiosis, it aims to produce secondary raw materials from unwearable textile waste. Core Project Aims: Design a complete value chain from textile waste collection through to the generation of new feedstock for chemicals and textiles; Improve collection approaches while increasing public awareness of textile waste and social involvement; Enable traceability of waste using data aggregation. The collected data will evaluate the performance of the new...

    Redefining Industrial Symbiosis

    Type of evidence: 

    Author names: 

    D.R. Lombardi, P. Laybourn

    Source: 

    Year: 

    2012

    "The most commonly cited definition of industrial symbiosis (IS), by Chertow (2000), has served well to foster discussion and research for more than a decade. The definition reflected the state of research and practice at the time; as both have advanced, some terms have been interpreted in substantially different ways. In this article we analyze those generally used terms for their connection to the ecological metaphor that is the root of industrial ecology, and their varied interpretations in IS research and practice over time. We then propose an updated definition intended to communicate...

    Opportunities and limits of recycling: A dynamic-model-based analysis

    Type of evidence: 

    Author names: 

    Source: 

    Year: 

    2012

    "Ensuring continued resource availability and material flow into sustainable products requires well-designed systems that capture these resources from end-of-life (EOL) products and recycle them into new applications. Understanding the impact
    of product design and recycling system performance on this closure of material cycles requires comprehensive approaches consistent with basic principles, as presented in this article." (p. 347)

    Industrial symbiosis in Gladstone: a decade of progress and future development

    Type of evidence: 

    Author names: 

    Artem Golev, Glen D. Corder, Damien P. Giurco

    Source: 

    Year: 

    2014

    "Heavy industrial areas with large volume waste streams show great promise for applying the concept of industrial symbiosis. This article examines industrial symbiosis in Gladstone, one of Australia's rapidly developing heavy industrial areas. Along with the analysis of the area's progress over the last decade and detailed description of existing resource synergies, it also overviews Gladstone's future prospects, including identification of potential resource synergies based on likely future industries and their waste streams, and an estimation of the overall environment benefits from the...

    Achieving carbon emission reduction through industrial & urban symbiosis

    Type of evidence: 

    Author names: 

    Huijuan Dong, Satoshi Ohnishi, Tsuyoshi Fujita, Yong Geng, Minoru Fujii, Liang Dong

    Year: 

    2014

    "Industry and fossil fuel combustion are the main sources for urban carbon emissions. Most studies focus on energy consumption emission reduction and energy efficiency improvement. Material saving is also important for carbon emission reduction from a lifecycle perspective. IS (Industrial symbiosis) and UrS (urban symbiosis) have been effective since both of them encourage byproduct exchange. However, quantitative carbon emission reduction evaluation on applying them is still lacking. Consequently, the purpose of this paper is to fill such a gap through a case study in Kawasaki Eco-town,...

    Industrial Symbiosis in Kalundborg, Denmark: A Quantative Assessment of Economic and Environmental Aspects

    Type of evidence: 

    Author names: 

    Noel Brings Jacobsen

    Year: 

    2006

    "As a subdiscipline of industrial ecology, industrial symbiosis is concerned with resource optimization among colocated companies. The industrial symbiosis complex in Kalundborg, Denmark is the seminal example of industrial symbiosis in the industrial ecology literature. In spite of this, there has been no in-depth quantitative analysis enabling more comprehensive understanding of economic and environmental performances connected to this case. In this article some of the central industrial symbiotic exchanges, involving water and steam, in Kalundborg are analyzed, using detailed economic...

    The Circular Economy 100

    Type of evidence: 

    Source: 

    Ellen MacArthur Foundation

    "The Circular Economy 100 is a pre-competitive innovation programme established to enable organisations to develop new opportunities and realise their circular economy ambitions faster. It brings together corporates, governments and cities, academic institutions, emerging innovators and affiliates in a unique multi-stakeholder platform. Specially developed programme elements help memebers learn, build capacity, network, and collaborate with key organisations around the circular economy." (https://...

    PolyCE

    Type of evidence: 

    Year: 

    2017

    "Various activities address the WEEE value chain in order to reduce waste generation and enhance the sustainable resource management through use of recycled materials instead of their virgin counterparts. While the system for metals recycling is already well established, the rising volumes of waste plastics point to stalemates in the current plastics economy, which hamper its shift to a more circular model. Although there are individual efforts to improve the collection and recycling of WEEE plastics, the plastics value chain is still too fragmented and WEEE recycled plastics seem...

    ECOBULK

    Type of evidence: 

    Year: 

    2017

    "ECOBULK through a large scale demonstration effort will contribute to “closing the loop” of composite products in the automotive, furniture and building sectors by promoting greater re-use, upgrade, refurbishment and recycle of products, parts, and materials. It will bring opportunities for both the environment and the economy by offering business opportunities along the entire new defined supply and value chains. ECOBULK approach will be based on identifying and promoting commonalities in processes, technologies, products and services ensuring replicability and transferability to other...

    CIRC-PACK

    Type of evidence: 

    Year: 

    2017

    "CIRC-PACK project aims at more sustainable, efficient, competitive, less fossil fuel dependence, integrated and interconnected plastic packaging value chain. To this end, three case studies will work in developing, testing and validating better system-wide economic and environmental outcomes by i) decoupling the chain from fossil feedstocks, (ii) reducing the negative environmental impact of plastic packaging; and (iii) creating an effective after-use plastics economy. All in all, the work will be supported by non-technological analysis and advanced methodological analysis (including...

    PAPERCHAIN

    Type of evidence: 

    Year: 

    2017

    "Europe is the second world producer of pulp and paper, manufacturing 130 million tonnes in 2014 and representing 23% of world production. The EU pulp and paper manufacturing and converting industries generate an annual turnover of €180 billion, representing 1,26% of the European GDP. In particular, the Pulp and Paper industry (PPI) has a turnover of €75 billion, comprises 920 plants and provides 180,000 jobs in Europe directly, and 1.5 million in the value chain. This sector is resource intensive and produces 11 million tonnes of waste yearly . It has been found that 25-40% of municipal...

Pages