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.
Almut Reichel, Mieke De Schoenmakere, Jeroen Gillabel
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...
José Potting, Marko Hekkert, Ernst Worrell, Aldert Hanemaaijer
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
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...
Ellen MacArthur Foundation, the McKinsey Center for Business and Environment (sponsered by Stiftungsfonds für Umweltökonomie)
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...
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'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.
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)
IMPROOF is a European Project aiming at improving the energy efficiency of steam cracking furnaces, while reducing emissions of greenhouse gases and NOx. The strongly industrial oriented consortium is composed of 7 industrial partners, including 2 SME completed by 2 RTO and 2 Universities, showing a clear and strong path to the industrial and economical world.
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.
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...
The MONSOON project - MOdel-based coNtrol framework for Site-wide OptimizatiON of data-intensive processes - aims to establish data-driven methodology to support identification and exploitation of optimization potentials by applying model-based predictive controls so as to perform plant and site-wide optimization of production process. The ambition of MONSOON project is shared by 2 significant process industries from the sectors of aluminium and plastic.
The concept of PRINTCR3DIT is to employ 3D printing to boost process intensification in the chemical industries by adapting reactors and structured catalysts to the requirements of the reaction. This manufacturing technique is particularly useful in reactions where diffusion, mixing and/or heat transfer are limitations against reaching higher performance. The utilization of the concept of 3D printing will also reduce the resource utilization of reactor and catalyst manufacture, energy consumed (< 15%) and transportation.
As outlined in the Roadmap of the EU's SPIRE PPP (Sustainable Process Industry through Resource and Energy Efficiency), "the European process industry represents the roots of the European economy by transforming raw materials into intermediate and end-user products". What all sectors of the process industry have in common is that they are highly dependent on resources (such as energy, raw materials and water) for their production. As a consequence, the process industry is striving for long-term sustainability and efficiency in order to ensure competitiveness. The SPIRE Roadmap lists a...
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...
All companies of the European process industry are facing the same challenges: on the one hand product quality has to be improved and at the same time production costs have to be decreased to be competitive on the world market. On the other hand the resource and energy efficiency of products and processes has to be improved to lower their ecological footprint. This is independent of the industrial sector, it is true for the cement industry as well as for the food or copper industry. That means, these are cross-sectorial challenges! The development of new production technologies could be...
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...
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)....
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.
The need: process industry faces a strong need to increase product quality and reduce operating costs and environmental footprint. A complex plant comprises continuous and/or batch unit pro-cesses. The plant's complexity stems from its dynamic properties, so a plant-wide monitoring and control is a requirement for achieving economically and environmentally efficient operation. The vision: complex process industry plants will be optimally run by the operators with the guidance of a coordinating, real-time optimisation system. The objective: to enable plant-wide monitoring and control by...