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.
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...
Roberto Zoboli, Susanna Paleari, Giovanni Marin, Massimiliano Mazzanti, Francesco Nicolli, Anna Montini, Valeria Miceli, Stefan Speck
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...
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:...
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.
Megan P. O'Connor, Julie B. Zimmerman, Paul T. Anastas, and Desiree L. Plata
ACS Sustainable Che. Eng.
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...
The issues associated with the supply of rare-earth metals are a vivid reminder to all of us that natural resources are limited. Japan's Element Strategy Initiative is a good example of a long-term strategy towards the sustainable use of scarce elements.
"Although most bioenergy is produced by burning agricultural and forestry biomass, it is also generated by burning the organic parts of municipal solid waste, biowaste or urban biomass. This includes food waste from restaurants, households, farmers markets, gardens, textiles, clothing, paper and other materials of organic origin. But have you ever tried to fuel a bonfire with a salad? Probably not, so this may not be the most efficient use of urban biowaste." (https://www.zerowasteeurope.eu/...
"Europe is on the move to become a ‘circular economy’ which is more competitive and resource efficient. The goal is a more circular flow of materials and energy so that Europeans use and consume in a way that creates minimal waste and puts less pressure on natural resources on this continent and other parts of the world. Sounds like a common sense plan…right? Yes, but one important question arises. Why isn’t the Commission including different types of biomass (biological material) as part of the circular economy equation?" (...
Ethan Warner, Kristi Moriarty, John Lewis, Anelia Milbrandt, Amy Schwab
US Department of Energy
"This report provides a status of the markets and technology development involved in growing a domestic bioenergy economy. It compiles and integrates information to provide a snapshot of the current state and historical trends influencing the development of bioenergy markets. This information is intended for policy-makers as well as technology developers and investors tracking bioenergy developments. It also highlights some of the key energy and regulatory drivers of bioenergy markets. This report is supported by the U.S. Department of Energy’s (DOE’s) Bioenergy Technologies Office (BETO...