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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    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...

    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...

    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)

    Indus3Es

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2017

    Indus3Es SYSTEM is aimed to recover and revalue non-recovered low-exergy surplus heat in energy intensive industrial processes. Indus3Es System will upgrade low temperature waste heat streams to process heat streams at higher temperature levels and then use them in internal industrial process, reducing primary energy consumption of the industry.

    Inspire

    Type of evidence: 

    Year: 

    2017

    The INSPIRE project will develop innovative business models for a selection of complementary sectors that will create flexible networks based on intensified processing enabling more local production in Europe and reverse the delocalisation trends. This will be possible thanks to a clear identification of research and business (including SMEs) needs, followed by the deployment of routes (roadmap) and guideline targeting to measure and assess the performance of such novel models under different possible scenarios under a cost effective and sustainable perspective.

    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...

    PROPAT

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2017

    ProPAT aims to develop novel sensors and analysers for providing measurements on composition, particle size and local bulk properties, as well as more traditional but smart sensors for measuring other process parameters, and integrate them into a versatile global control platform for data acquisition, data processing & mining and User Interface in order to measure properties of process streams and products, accurately and in real-time. The platform also provides selflearning and predictive capabilities aimed for dramatically reducing overcosts derived from even slight deviations from...

    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...

    SusPIRE

    Type of evidence: 

    Year: 

    2017

    SusPIRE project assimilates in its conception the sustainable energy use challenge described in the European SETPLAN and in SPIRE road map. It addresses its efforts to energy intensive in-dustries and within this segment market to energy recovery from residual heat streams. To achieve this goal a two clearly differentiated working areas will be key aspects of this project. Technology area will include the development of materials and equipment. New Heat Transfer Fluids (HTF) and Phase Change Materials (PCM) will be the base for manufacture high efficiency heat exchangers in terms of energy...

    SYMBIOPTIMA

    Type of evidence: 

    Year: 

    2017

    SYMBIOPTIMA is an H2020 project funded under the SPIRE-6 action. The project proposes a completely new paradigm for industrial clusters: the human-mimetic symbiosis. Drawing inspiration from one of the most complex biological organism, namely the human body, it promotes the mutual interaction of diverse industries, also among different sectors, for beneficial reuse of flows (e.g. water, waste, by-products, energy, recycled materials) that could result in a more resource-efficient production at network level, and in fewer adverse environmental impacts. Synergy and optimization of the flows...

    TASIO

    Type of evidence: 

    Source: 

    Spire2030

    Year: 

    2017

    The main objective of TASIO project is to develop solutions dealing with the development of Waste Heat Recovery Systems (WHRS) based on the Organic Rankine Cycle (ORC) technology. These solutions are able to recover the waste heat produced in energetic intensive (EII) processes of industrial sectors such as cement, glass, steelmaking and petrochemical and transform it into useful energy for internal or external use. Furthermore, WHRS are also developed and tested to recover and transform the thermal energy of the flue gases of EII into mechanical energy for internal use (compressors)....

    VULKANO

    Type of evidence: 

    Source: 

    H2020

    Year: 

    2017

    The overall objective of VULKANO project is to design, implement and validate an advanced retrofitting integrated solution to increase the energy and environmental efficiency in existing preheating and melting industrial furnaces currently fed with natural gas. This will be achieved through implementing combined new solutions based on high-temperature phase change materials (PCMs), new refractories, optimized co-firing, advanced monitoring and control systems and a holistic in-house predictive tool.

    CESME

    Type of evidence: 

    Source: 

    Interreg Europe

    Year: 

    2017

    EU 2020 highlights that the EU and Member States should enable SMEs to turn environmental challenges into opportunities. Green growth can offer significant benefits, however as stated in the Small Business Act (EP 2014/2209 INI) policy makers need to fully understand the potential of the green economy, whilst being aware of the barriers that SMEs face regarding the greening of their products, production processes, business practices and services. The circular economy is a key concept of the green economy, based on optimising systems rather than components, away from 'Resource to Waste' to...

    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...

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