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 36 results in 0.025 seconds.

Search results

    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...

    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...

    MEASURE

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2015

    The Horizon 2020 SPIRE Public Private Partnership goals of the European Commission have set a new challenge for the European process industry. Aiming for a green economy being energy and resource efficient, but also internationally competitive and socially responsible, cross-sectorial cooperation along the value chain is strongly encouraged. The vision of industrial symbioses also forces practitioners in sustainability assessment to rethink their often sector-specific toolboxes. Consequently, current methods for sustainability assessment including in-depth life cycle based methods may need...

    SAMT

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2015

    The SAMT project (2015-2016) has now reached completion. The project focused on increasing integration of sustainability assessment methods in decision making by reviewing and making recommendations about the most potential methods, tools, and indicators for evaluating sustainability in the process industry. Final results from the SAMT project include a roadmap and an implementation plan towards the SAMT vision 2030 built together with industry and research organisations: "Sustainability assessment provides additional value for industrial decision-making. Related methods are widely...

    STYLE

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2015

    Public and private sector funding is regularly invested to develop new technologies and/or modify processes/products to bring resource and energy efficiency improvements. However, in order for EU stakeholders and industry to see the true value of these new technologies and modifica-tions, and make informed decisions surrounding their adoption, a consistent approach is needed to assess the sustainability impact across the full value chain. This is particularly challenging when it comes to assessing sustainability across sector boundaries, or in a data lean environment. For many years, the...

    RETRACE

    Type of evidence: 

    Source: 

    Interreg Europe

    Year: 

    2017

    RETRACE aims at promoting systemic design as a method allowing local and regional policies move towards a circular economy when waste from one productive process becomes input in another, preventing waste being released into the environment. RETRACE addresses the EU challenge of transitioning towards a Circular Economy following the priorities set up by the "Flagship Initiative for a Resource-efficient Europe" for a shift towards a resource-efficient, low-carbon economy to achieve sustainable growth as enshrined in Europe 2020 strategy and the EC Communication "Towards a circular economy:...

    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...

    Waste to Wealth: The Circular Economy Advantage

    Type of evidence: 

    Author names: 

    Jakob Rutqvist, Peter Lacy

    Year: 

    2015

    "Waste to wealth proves that 'green' and 'growth' need not to be binary alternatives. The book examines five new business models that provide circular growth from deploying sustainable resources to the sharing economy before setting out what business leaders need to do to implement the models succesfully." (https://www.palgrave.com/us/book/9781137530684)

    The Transfer and Application of Product System Services: from academia to UK manufacturing firms

    Type of evidence: 

    Author names: 

    M.B. Cook; T.A. Bhamra; M. Lemon

    Source: 

    Cranfield University; Loughborough University

    Year: 

    2006

    The article seeks to define the concept of Product Service Systems (PSS) and then explain its economic, environmental, and other real world impacts. The main purpose of the piece is to explain these concepts through describing the application of the PSS to a real world scenario in the manufacturing sector in the UK

    Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions: Roadmap to a Resource Efficient Europe

    Type of evidence: 

    Source: 

    European Commission

    Year: 

    2011

    Construction accounts for 50% of all extracted material use in the EU. The European Commission calls for a further strengthening of resource efficiency in buildings and construction by considering the lifetime costs of a building rather than just the initial costs and also better infrastructure planning. They have set the 2020 milestone to have the majority of rennovation and constuction standards to be of high efficiency standards.

    Recycling of WEEE's: An economic assessment of present and future e-waste streams

    Type of evidence: 

    Author names: 

    Federica Cucchiella, Idiano D'Adamo, S.C.Lenny Koh, Paolo Rosa...

    Source: 

    Renewable and Sustainable Energy Reviews

    Year: 

    2015

    Waste from Electric and Electronic Equipments (WEEEs) is currently considered to be one of the fastest growing waste streams in the world, with an estimated growth rate going from 3% up to 5% per year. The recycling of Electric or electronic waste (E-waste) products could allow the diminishing use of virgin resources in manufacturing and, consequently, it could contribute in reducing the environmental pollution. Given that EU is trying, since the last two decades, to develop a circular economy based on the exploitation of resources recovered by wastes, a comprehensive framework supporting...

    A Strategy for Material Supply Chain Sustainability: Enabling a Circular Economy in the Electronics Industry through Green Engineering

    Type of evidence: 

    Author names: 

    Megan P. O'Connor, Julie B. Zimmerman, Paul T. Anastas, and Desiree L. Plata...

    Source: 

    ACS Sustainable Che. Eng.

    Year: 

    2016

    Rapid innovation in the field of electronic technologies through the use of rare earth and specialty elements (RESE) has made the electronics industry one of the most rapidly evolving industries to date. However, innovations to har-vest these same materials from complex waste streams have not kept pace, thus leading to an unsustainable material supply chain reliant on the mining of increasingly difficult-to-extract ores. Here, we aim to provide a strategy to mitigate these challenges, identifying the technical research and development needed to further sustainable electronics through Green...

    Final Report: Processes for Recovery and Recycling of Chromium From Spent Chromium Oxide Fluorination Catalysts

    Type of evidence: 

    Author names: 

    Darrell Coons

    Source: 

    US EPA

    Year: 

    2000

    The purpose of this Phase I project was to develop a process for recovery of chromium from spent chromium(III) oxide fluorination catalysts and similar waste or byproduct streams. The spent catalysts contain 40-64% chromium, primarily in the forms of chromium(III) oxide, Cr2O3, and chromium(III) fluoride, CrF3. They are hazardous solid wastes, for which no known processes for chromium recovery had previously existed. Little has been reported on the chemistry of chromium(III) fluoride. Work in our laboratories has shown that the spent catalysts are extremely inert to chemical attack by...

    REE4EU

    Type of evidence: 

    Year: 

    2015

    The project, funded in the frame of Horizon 2020 TOPIC SPIRE-07-2015, will realize a breakthrough innovation in the field of Recovery Technologies for Metals and other Minerals. It will make available Rare Earth elements and Rare Earth alloys for magnet production by developing, for the first time at industrial scale, an efficient and cost effective method of extraction and a direct production route for Rare Earth Alloys which will be achieved through in-process and End-of-Life permanent magnets as well as Ni metal hydride battery waste.

    Remaghic

    Type of evidence: 

    Source: 

    H2020

    Year: 

    2015

    REMAGHIC is focused on contributing to Europe's rare earth recovery and magnesium recycling technologies, improving the efficiencies of these processes and advancing the technology readiness levels for a new generation of industrial processes that will produce new low cost competitive alloys for a wide variety of sectors across Europe's manufacturing value chain. The project motivation lies on the fact that magnesium alloys can offer a significant weight reduction when compared to aluminium alloys. Weight reduction is a cross sectorial key design driver, if a superior energy absorption and...

    Mobile Flip

    Type of evidence: 

    Year: 

    2015

    MOBILE FLIP aims at developing and demonstrating mobile processes for the treatment of underexploited agro- and forest based biomass resources into products and intermediates. The processes will be evaluated in terms of raw material flexibility, as the biomass resources are typically scattered and seasonal. Process concepts have been designed around the key technologies pelletizing, torrefaction, slow pyrolysis, hydrothermal pretreatment and carbonisation. The products vary depending on the process concept, being typically fuels as such or for co-combustion (pellets, torrefied pellets,...

Pages