The Critical Importance of Adopting Whole-of-Life Strategies for Polymers and Plastics

Plastics have been revolutionary in numerous sectors, and many of the positive attributes of modern life can be attributed to their use. However, plastics are often treated only as disposable commodities, which has led to the ever-increasing accumulation of plastic and plastic by-products in the environment as waste, and an unacceptable growth of microplastic and nanoplastic pollution. The catchphrase “plastics are everywhere”, perhaps once seen as extolling the virtues of plastics, is now seen by most as a potential or actual threat. Scientists are confronting this environmental crisis, both by developing recycling methods to deal with the legacy of plastic waste, and by highlighting the need to develop and implement effective whole-of-life strategies in the future use of plastic materials. The importance and topicality of this subject are evidenced by the dramatic increase in the use of terms such as “whole of life”, “life-cycle assessment”, “circular economy” and “sustainable polymers” in the scientific and broader literature. Effective solutions, however, are still to be forthcoming. In this review, we assess the potential for implementing whole-of-life strategies for plastics to achieve our vision of a circular economy. In this context, we consider the ways in which given plastics might be recycled into the same plastic for potential use in the same application, with minimal material loss, the lowest energy cost, and the least potential for polluting the environment.

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Monomers, Materials and Energy from Coffee By-Products: A Review

Sustainability ◽

10.3390/su13126921 ◽

2021 ◽

Vol 13 (12) ◽

pp. 6921

Author(s):

Laura Sisti ◽

Annamaria Celli ◽

Grazia Totaro ◽

Patrizia Cinelli ◽

Francesca Signori ◽

...

Keyword(s):

Circular Economy ◽

Food Industry ◽

Food Packaging ◽

Low Cost ◽

Biofuel Production ◽

Material Technology ◽

Coffee Production ◽

Coffee Pulp ◽

Coffee Waste ◽

By Products

In recent years, the circular economy and sustainability have gained attention in the food industry aimed at recycling food industrial waste and residues. For example, several plant-based materials are nowadays used in packaging and biofuel production. Among them, by-products and waste from coffee processing constitute a largely available, low cost, good quality resource. Coffee production includes many steps, in which by-products are generated including coffee pulp, coffee husks, silver skin and spent coffee. This review aims to analyze the reasons why coffee waste can be considered as a valuable source in recycling strategies for the sustainable production of bio-based chemicals, materials and fuels. It addresses the most recent advances in monomer, polymer and plastic filler productions and applications based on the development of viable biorefinery technologies. The exploration of strategies to unlock the potential of this biomass for fuel productions is also revised. Coffee by-products valorization is a clear example of waste biorefinery. Future applications in areas such as biomedicine, food packaging and material technology should be taken into consideration. However, further efforts in techno-economic analysis and the assessment of the feasibility of valorization processes on an industrial scale are needed.

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Valorization of Kiwi by-Products for the Recovery of Bioactive Compounds: Circular Economy Model

Proceedings ◽

10.3390/foods_2020-07647 ◽

2020 ◽

Vol 70 (1) ◽

pp. 9

Author(s):

Franklin Chamorro ◽

María Carpena ◽

Bernabé Nuñez-Estevez ◽

Miguel A. Prieto ◽

Jesus Simal-Gandara

Keyword(s):

Bioactive Compounds ◽

Circular Economy ◽

Agricultural Production ◽

Organic Waste ◽

Antimicrobial Activities ◽

Added Value ◽

Economic Returns ◽

Industrial Processing ◽

Pharmaceutical Industries ◽

By Products

Currently, agricultural production generates large amounts of organic waste, both from the maintenance of farms and crops, and from the industrialization of the product. Generally, these wastes are accumulated in landfills or burned, sometimes causing environmental problems. However, many scientific studies suggest that these residues are rich in bioactive compounds, so these matrices could be revalued for their use in food, cosmetic, or pharmaceutical industries. In this way, the circular and sustainable economy is favored, while obtaining products with high added value. In this case, this approach is applied to the residues generated from kiwi production, since numerous studies have shown the high content of kiwi in bioactive compounds of interest, such as phenolic compounds, vitamins, and carotenoids. These compounds have been reported for their antioxidant, anti-inflammatory, and antimicrobial activities, among other beneficial properties for health such as its use as prebiotic. Therefore, this article reviews the potential of residues derived from industrial processing and agricultural maintenance of kiwi as promising matrices for the development of new nutraceutical, cosmetic, or pharmacological products, obtaining, at the same time, economic returns and a reduction of the environmental impact of this industry, attaching it to the perspective of the circular economy.

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Sustainability: Recovery and Reuse of Brewing-Derived By-Products

Sustainability ◽

10.3390/su13042355 ◽

2021 ◽

Vol 13 (4) ◽

pp. 2355

Author(s):

Tiziana Amoriello ◽

Roberto Ciccoritti

Keyword(s):

Circular Economy ◽

Inclusive Growth ◽

Global Challenge ◽

Use Of Resources ◽

By Products ◽

Recovery And Reuse

The great global challenge in order to achieve sustainable and inclusive growth over the coming decades is the promotion of the efficient use of resources, favoring a transition to a cleaner and circular economy [...]

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‘Our Waste, our Resources; A Strategy for England’– Switching to a circular economy through the use of extended producer responsibility

Environmental Law Review ◽

10.1177/1461452919851943 ◽

2019 ◽

Vol 21 (3) ◽

pp. 210-218

Author(s):

Louis Dawson

Keyword(s):

Waste Disposal ◽

Circular Economy ◽

Food Environment ◽

Extended Producer Responsibility ◽

Legislative Agenda ◽

Producer Responsibility ◽

Polluter Pays Principle ◽

Potential Use

High landfill rates compared with flatlining rates of recycling have ensured that waste disposal is once again on the legislative agenda in England. In 2018, the Department for Food, Environment and Rural Affairs published ‘Our Waste, Our Resources: A Strategy for England’ which is the first major policy publication on waste since 2013. Encouraged by the release of this Strategy, this article examines the potential use of extended producer responsibility and the ‘polluter pays’ principle to fuel the transition to a circular economy.

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Biotransformation of phenolic acids from by-products using heterogeneous biocatalysts: one more step toward a circular economy

Current Opinion in Green and Sustainable Chemistry ◽

10.1016/j.cogsc.2021.100550 ◽

2021 ◽

Vol 32 ◽

pp. 100550

Author(s):

Daniel A. Grajales-Hernández ◽

Mariana A. Armendáriz Ruiz ◽

Victor Contreras-Jácquez ◽

Juan Carlos Mateos-Díaz

Keyword(s):

Phenolic Acids ◽

Circular Economy ◽

Heterogeneous Biocatalysts ◽

By Products

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DigiPrime: Digital Platform for Circular Economy in Cross-Sectorial Sustainable Value Networks

Proceedings ◽

10.3390/proceedings2020065001 ◽

2020 ◽

Vol 65 (1) ◽

pp. 1

Author(s):

Elena Mossali ◽

Marco Diani ◽

Marcello Colledani

Keyword(s):

Circular Economy ◽

Business Models ◽

Value Added ◽

Environmental Crisis ◽

Value Chains ◽

Economic Opportunity ◽

Construction Sector ◽

Digital Platform ◽

Sustainable Value ◽

Value Added Products

Circular Economy is the solution for the current environmental crisis, representing a huge economic opportunity to build new sustainable businesses. However, many barriers need to be faced for its implementation at industrial scale—firstly, the lack of data sharing between the different stakeholders of product value-chains. The DigiPrime project is an EU-funded Innovation Action aimed at developing and demonstrating a digital platform with services able to unlock innovative cross-sectorial business models for the remanufacturing and recycling of target value-added products. In this paper, the concept behind the DigiPrime project is reported, with a particular focus on the construction sector.

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