Raw materials (CRM/SRM) supply from waste recycling and landfill mining: interdisciplinary approach to exploit resources from extractive waste facilities

2021 ◽  
Author(s):  
Giovanna Antonella Dino ◽  
Alessandro Cavallo ◽  
Claudia Chiappino
Keyword(s):  
New Technologies ◽  
Cost Benefit Analysis ◽  
Raw Materials ◽  
Precious Metals ◽  
Interdisciplinary Approach ◽  
Integrated Approach ◽  
Waste Recycling ◽  
Global Market ◽  
Low Carbon ◽  
Low Carbon Technologies

<p>The acceleration in deployment of the key low carbon technologies in the wind, solar, and energy storage areas has real implications for the commodities market, not only rare earths, such as indium and neodymium. Aluminum, copper, silver, bauxite, iron, lead, and others all stand to potentially benefit from a strong shift to low carbon technologies. It would be reasonable to expect that all low carbon energy systems are more likely than not to be more metal intensive than high-carbon systems. All literature examining material and metals implications for supplying clean technologies agree that building these technologies will result in considerably more material-intensive demand than would traditional fossil fuel mechanisms. At present the minerals/materials considered “critical” (Critical Raw Materials – CRM) for EU economy are mainly constituted by rare earth metals, base and precious metals. The supply of CRM is highly connected to international politics and global market conditions; most of them are exploited in countries other than EU ones, causing high economic dependence from non-EU countries.</p><p>RM and CRM are principally extracted from natural resources, urban and industrial landfill sites, and extractive waste facilities. To evaluate the potentially exploitable quantity and typologies of RM/CRM and secondary raw materials (SRM), standardized protocols, including waste characterization and waste volume potentially exploitable are needed. Further to this, and together with environmental and human health aspects, the economic and societal aspects need to be integrated and therefore common cost benefit analysis (CBA) and life cycle assessment (LCA) methodologies should be also used. A more sustainable and integrated approach in the management of extractive industry at large, also thanks to proper Guidelines, is needed to boost the waste recycling. Some tools, as the sustainable finance, can be applied to encourage industries to be more responsible.</p><p>Fundamental is the interaction within Research Centers, Academies, Industries and Public Administrations in researching innovative and newer solutions for waste recycling (in terms of new technologies and products) and in guaranteeing the application at a wider scale of the products, objects of patents and already tested, not already present in the global market. In many cases, the possibility to re-use SRM from mining waste is invalidate from landscape constraints or bans on protected areas; to move these limits, it’s necessary working harmonically with Public Administrations and Mining Companies in order to show them the results of materials recovered in terms of LCA, if compared to mining.  The typical objection from “stakeholders” is to consider the removing operations too much invasive on territory, but this belief could be debunked with a correct, agreed approach of the project; good solutions of environmental recovery should be found after exploitation, also to solve safety and pollution problems and return the site in better condition. For these reasons, we consider to give priority to the case-histories which represent a real or potential risk (for production, of stability, hydrogeological, chemical, etc.), but in perspective mostly a precious resource.</p><p>The present research investigates the chance to guarantee a more sustainable mining in selected Italian case studies.</p>

scholarly journals New Circular Challenges in the Development of Take-Away Food Packaging in the COVID-19 Period

Energies ◽  
2021 ◽  
Vol 14 (15) ◽  
pp. 4705
Author(s):  
Ewa Kochańska ◽  
Rafał M. Łukasik ◽  
Maciej Dzikuć
Keyword(s):  
Social Transformation ◽  
Food Packaging ◽  
New Technologies ◽  
Negative Impact ◽  
Raw Materials ◽  
Distribution Channels ◽  
Low Carbon ◽  
Industrial Transformation ◽  
Specific Distribution ◽  
Food Market

The COVID-19 pandemic has set new challenges for the HoReCa industry. Lockdowns have coincided with and strongly impacted the industrial transformation processes that have been taking place for a decade. Among the most important HoReCa transition processes are those related to the rapid growth of the delivery-food market and ordering meals via internet platforms. The new delivery-food market requires not only the development of specific distribution channels, but also the introduction of appropriate, very specific food packaging. Food packaging and its functionality are defined by the administrative requirements and standards applicable to materials that have contact with food and principally through the prism of the ecological disaster caused by enormous amounts of plastic waste, mainly attributed to the food packaging. To meet environmental and administrative requirements, new technologies to produce food packaging materials are emerging, ensuring product functionality, low environmental impact, biodegradability, and potential for composting of the final product. However, predominantly, the obtained product should keep the nutritional value of food and protect it against changes in color or shape. Current social transformation has a significant impact on the food packaging sector, on one hand creating a new lifestyle for society all over the world, and on the other, a growing awareness of the negative impact of humans on the environment and increasing responsibility for the planet. The COVID-19 pandemic has highlighted the need to develop a circular economy based on the paradigm of shortening distribution channels, using local raw materials, limiting the consumption of raw materials, energy, water, and above all, minimizing waste production throughout the life cycle of products, all of which are in line with the idea of low-carbon development.

Bio-based polyamide

2021 ◽  
Vol 0 (0) ◽  
Author(s):  
Medhat S. Farahat Khedr
Keyword(s):  
Atmospheric Carbon Dioxide ◽  
Chemical Properties ◽  
Carbon Dioxide Concentration ◽  
Polymeric Materials ◽  
Waste Recycling ◽  
Global Market ◽  
Published Data ◽  
Low Carbon ◽  
Polymer Waste ◽  
Biomass Feedstocks

Abstract Biobased polymers are sustainable polymers produced from renewable resources such as biomass feedstocks instead of the industrial fossil resources such as petroleum and natural gases. This trend helps in creating an environmentally friendly chemical processing that is characterized by low carbon footprint emission to the globe which in turn will limit the increase of the atmospheric carbon dioxide concentration even after their incineration. Synthesis of polymeric materials from biobased resources also solves the problem of polymer waste recycling. This chapter covers a basic background on the origin and importance of biobased polyamides, different synthetic routes of their starting monomeric materials obtained from biomass feedstocks, and a brief summary of the physical and chemical properties and applications of some common aliphatic, semiaromatic and fully aromatic polyamides. This chapter ends with a recent published data on the growth of the global market of biobased polyamides to emphasize on the economic importance of this manufacturing trend.

scholarly journals Ireland’s Transition towards a Low Carbon Society: The Leadership Role of Higher Education Institutions in Solar Photovoltaic Niche Development

2019 ◽  
Vol 11 (3) ◽  
pp. 558 ◽  
Author(s):  
William Horan ◽  
Rachel Shawe ◽  
Bernadette O’Regan
Keyword(s):  
Higher Education ◽  
Best Practice ◽  
Higher Education Institutions ◽  
Integrated Approach ◽  
Leadership Role ◽  
Solar Photovoltaic ◽  
Low Carbon ◽  
Living Lab ◽  
Sociotechnical Analysis ◽  
Low Carbon Technologies

Ireland is currently considered a laggard within Europe in relation to decarbonisation of its society, with future projections estimating increases in greenhouse gas emissions up to and beyond 2030. To accelerate Ireland’s transition towards a low-carbon society, there is a need for leadership in deployment and experimentation of low carbon technologies. As Higher Education Institutions (HEI) currently play a major role in generation of human capital and the associated impact on societal development, HEIs are ideal locations to focus resources in terms of deployment and experimentation of decarbonisation technologies to demonstrate best practice for further replication within wider society. To guide Irish HEIs in this regard, a novel integrated approach titled ‘Higher Education Accelerating Development for Sustainability’ (HEADS) has been developed and applied to the sector. The HEADS approach utilises the perspectives of quantitative systems analysis, sociotechnical analysis, and living lab learning to inform HEIs of their potential roles within national sustainability transitions. Applied to solar photovoltaic transitions in Ireland, the HEADS approach has identified HEIs as vital locations to deploy low-carbon technologies due to their amplification effect in signalling to wider society the attractiveness of these technologies.

scholarly journals Gestão de Qualidade Proporcionando Competitividade Organizacional

2018 ◽  
Vol 22 (35) ◽  
pp. 41
Author(s):  
Alberto Luiz Ramos ◽  
Murilo Rostirola ◽  
Jose Mateus Gura ◽  
Sandra Mara Dias Pedroso ◽  
Nelson Malta Callegari
Keyword(s):  
Quality Management ◽  
Positive Result ◽  
Performance Management ◽  
New Technologies ◽  
Raw Materials ◽  
New Products ◽  
Global Market ◽  
Total Quality ◽  
Great Role ◽  
Market Needs

Diante das necessidades do mercado global, as empresas estão redirecionando, frequentemente, suas estratégias de produção e de divulgação de seus produtos. Fatores como: novas tecnologias, matérias-primas diferenciadas e marketing têm grande atuação durante a produção desses produtos ou na execução de serviços. Há a necessidade de observação dos métodos utilizados para proporcionar o alcance de um resultado final positivo. Nessa concepção vem se buscando o método mais adequado para a gestão da qualidade, proporcionando competitividade organizacional de cada empresa, processo e produto final.Palavras chave: Desempenho. Gestão. Controle. Qualidade Total.AbstractBefore the global market needs, the companies have been directing, frequently their production and productions divulgation strategies . Factor such as: new technologies, differentiated raw materials and marketing play a great role during the production of these new products or the services execution. There is a need to observed the methods used to provide the achievement of a final positive result. In this concerption it has been searching the most appropriate method for the quality management, providing organizational competitivity of each company, process and final proeuct.Keywords: Performance. Management. Contro. Total Quality.

scholarly journals Exploration of the material distribution of complex components in waste electrical and electronic equipment

2018 ◽  
Vol 20 (4) ◽  
pp. 725-736 ◽  
Keyword(s):  
Printed Circuit Boards ◽  
Raw Materials ◽  
Technological Development ◽  
Hard Disk Drives ◽  
Precious Metals ◽  
Global Market ◽  
Electronic Equipment ◽  
Material Composition ◽  
Annual Growth Rate ◽  
Complex Components

<p>Technological development combined with a rapid and global market penetration has led to high volumes of Waste Electrical and Electronic Equipment (WEEE). Simultaneously, the use-phase has become shorter resulting in an annual growth rate of WEEE between 3-5%, which makes WEEE one of the fastest growing waste streams. The high metal content of WEEE has been a driving force for behind the expansion of recycling industry. However, during the de-pollution process, a certain type of components is sorted out, which due to their diversity in shape, size, and material composition, cannot be assigned to any homogenous material. These components can generally be classified as complex components and include Printed Circuit Boards (PCB), Hard Disk Drives, Power Supply Units, etc. The aim of the present research is to provide an assessment of the material composition of complex components exemplified in more detail on PCBs. A set of minimal requirements has been developed in order to increase comparability of available data sets. Furthermore, a novel classification system has been designed for PCBs with according to the current recycling practices in EU. Finally, the paper provides a mapping of complex components with a particularly high content of precious metals and critical raw materials.</p>

scholarly journals Sensitivity Analysis as a Tool in Environmental Policy for Sustainability: The Case of Waste Recycling Projects in the Republic of Serbia

2020 ◽  
Vol 12 (19) ◽  
pp. 7995
Author(s):  
Ksenija Denčić-Mihajlov ◽  
Mladen Krstić ◽  
Dejan Spasić
Keyword(s):  
Sensitivity Analysis ◽  
Cost Benefit Analysis ◽  
Raw Materials ◽  
Cost Benefit ◽  
Waste Recycling ◽  
Consumer Society ◽  
Investment Projects ◽  
Sustainable Investment ◽  
The Republic ◽  
The Impact

Modern consumer society uses an increasing number of products to meet its needs, which become waste after use, thus posing a serious problem that threatens sustainable development. Investment in waste recycling, due to a high level of non-financial benefits, is considered sustainable, especially in the End-of-life Vehicles (ELV) and Waste Electrical and Electronic Equipment (WEEE) recycling areas. The research objective of this paper is to test the sensitivity of the model for sustainable management of recycling projects by applying a cost-benefit analysis (CBA) to investment projects of car and refrigerator recycling in the Republic of Serbia. By testing the key risk factors of the above investment projects within the sensitivity analysis, the main aim is to determine the critical value of these variables in terms of the financial and social acceptability of these investment alternatives. The results obtained indicate that state subsidies have the greatest influence on defining the model of sustainable investment, especially in the field of e-waste recycling. The impact of other factors, the price of secondary raw materials and the social cost of CO2 emissions, is significantly smaller, but should certainly be taken into account when defining the optimal model of sustainable investment.

Securing Decarbonisation and Growth

2019 ◽  
Vol 250 ◽  
pp. R54-R60
Author(s):  
Dimitri Zenghelis
Keyword(s):  
Climate Change ◽  
Structural Adjustment ◽  
New Technologies ◽  
Production Systems ◽  
Global Climate ◽  
Global Market ◽  
Low Carbon ◽  
Market Failures ◽  
Executive Summary ◽  
The Uk

Executive SummaryThe need to decarbonise the economy in order to slow the pace of climate change is now recognised as one of the most pressing international policy challenges. While the UK cannot by itself materially affect global climate change, it has an opportunity to play an influential role, both by persuading others of the need for action but also by reshaping its domestic economy to benefit from a low-carbon transition.Far from hampering competitiveness, adoption of a coordinated policy approach to climate change today would generate positive benefits for the UK economy, especially if it addresses the multiple market failures that promote pollution and places decarbonisation at the heart of structural economic policy.Desirable strategies would include public support for research, development, and deployment of new technologies, and measures to foster an environment where innovation can rapidly shift the economy from dirty to clean production systems. Focusing UK industrial strategy on securing strong domestic supply chains for green products and services, for example, could help create an early mover advantage in rapidly growing global market sectors. Interventions could include the establishment of a National Infrastructure Bank to support decarbonisation in crucial sectors such as energy and transport, and would also need to encompass measures to assist structural adjustment in affected industries and their workforces.

Mineral resources - crucial components of a vital and wealthy society

2020 ◽  
Author(s):  
Antje Wittenberg ◽  
Daniel P. S. de Oliveira ◽  
Javier González Sanz ◽  
Lisbeth Flindt Jørgensen ◽  
David Whitehead ◽  
...  
Keyword(s):  
Spatial Data ◽  
New Technologies ◽  
Raw Materials ◽  
Mineral Resources ◽  
Raw Material ◽  
Mineral Deposits ◽  
Low Carbon ◽  
The European Union ◽  
Public Data ◽  
Local Sourcing

&lt;p&gt;Changes in our world mean that Europe is facing many pressing demographic and geographic challenges. A growing, aging population coupled with changes in population density are causing environmental stresses to our ecosystem that when coupled with climate change create challenges in sustainable food production and the use of natural raw materials. At the same time, the Fridays For Future Movement is calling out loudly for Future and Climate Justice, CO&lt;sub&gt;2&lt;/sub&gt;-neutrality, resource efficiency and (almost) closed material loops. These issues are already expressed by the 17 UN sustainable development goals (SDGs) and widely shared through the Paris Agreement. The European Union and the National Governments have launched many frameworks and action plans such as the European Green Deal to achieve a carbon-neutral economy and clean mobility for example. Certainly, any of those transformations and any infrastructure developments will require sustainably produced mineral raw materials to deliver key enabling technologies and to meet the needs of the Industry 4.0 society. Moreover, improvements in buildings such as energy efficiency through insulation technologies, other infrastructure developments and the Europe&amp;#8217;s cultural heritage preservation add to the increasing demand in mineral resources.&lt;/p&gt;&lt;p&gt;The demand for ever increasing volumes of mineral resources cannot be met exclusively by recycling and thermodynamics does not allow for fully closed material loops. Hence, a sustainable supply of raw materials will always require accessibility to mineral deposits and productive mines while the effects of competing land-use issues and NIMBY activism are increasing too.&lt;/p&gt;&lt;p&gt;The realisation of a low-carbon society and a self-concept of reliable sourcing increasingly require short feed strokes and local sourcing. A good understanding of mineral systems, mining sites, and remaining resources of historical sites will stay of utmost importance. The four &lt;strong&gt;GeoERA Raw Materials&lt;/strong&gt; projects* EuroLITHOS, FRAME, MINDeSEA and Mintell4EU share expertise, information and focus on European on-shore and off-shore resources.&lt;/p&gt;&lt;p&gt;&lt;strong&gt;EuroLITHOS&lt;/strong&gt; gives specific attention to ornamental stone resources for which Europe has a long tradition in mining, processing and usage.&lt;/p&gt;&lt;p&gt;&lt;strong&gt;FRAME&lt;/strong&gt; designed to research the Strategic and Critical Raw Materials (SCRM) in Europe to gain new insights into reserves and resources taking into account new technologies and developments.&lt;/p&gt;&lt;p&gt;&lt;strong&gt;MINDeSEA&lt;/strong&gt; focuses on exploration and investigation of SCRM from seafloor mineral deposits in European waters. Identifying areas for responsible resourcing and information on management and Marine Spatial Planning in European Seas are in its core of action.&lt;/p&gt;&lt;p&gt;&lt;strong&gt;Mintell4EU&lt;/strong&gt; focuses on harmonizing data, utilizes the UNFC, providing spatial data and thematic maps. Updated electronic Minerals Yearbook and Europe&amp;#8217;s Minerals Inventory are among the products.&lt;/p&gt;&lt;p&gt;Foresight and forecasting of the raw material supply potential of Europe will become more reliable through increased data quality and harmonization. Workshops and training courses will add to ensure an improvement of the European Raw Materials Knowledge Base. GeoERA Raw Materials projects create valuable, accessible and public data, and information for policy-makers and end-users of geological data and minerals information in Europe.&lt;/p&gt;&lt;p&gt;&amp;#160;&lt;/p&gt;&lt;p&gt;[*] This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 731166&lt;/p&gt;

scholarly journals DEFINITION OF ENVIRONMENTAL ACTIVITY IN ACCOUNTING AND MECHANISMS FOR ITS STIMULATION

2021 ◽  
Author(s):  
Veronika Hanusych
Keyword(s):  
Natural Resources ◽  
New Technologies ◽  
Integrated Approach ◽  
Waste Recycling ◽  
Environmental Accounting ◽  
Tree Planting ◽  
The Government ◽  
Save Energy ◽  
Environmental Capital ◽  
Environmental Activities

In article we consider environmental activities in a broad and narrow sense. Definitely, that exactly environmental motivated movements allow attributing one or another housewifely transaction to environmental action. Environmental activities housewifely subjects could be done in two ways: special actions aimed at improving the environmental situation and greening various housewifely processes. This separation allows to develop separate approaches to accounting for relevant processes environmental activities. The main problem of environmental accounting is the assessment of natural resources during their primary development because we get them from nature for free. But their renewable cost is very high. Environmental problems can be solved only with an integrated approach. Introduction to accounting practice of valuation at replacement cost and environmental capital will allow partially solve the problem of financing the restoration of natural resources and will increase the responsibility of enterprises in the environmental sphere. Accumulation environmental capital must be carried out simultaneously with primary consumption of environmental assets. Environmental assets mean all natural resources, that are used by the enterprise in the course of housewifely activities. Environmental capital must become a reliable permanent source of financing for the company's environmental activities. Directions of use of environmental capital could be restoration of natural resources (e.g. tree planting), replacement of materials with environmentally friendly, waste recycling, introduction of new technologies, which save energy resources. To induce businesses to spend more money on the environment, the government must develop a set of incentives that will turn environmental spending into an effective investment.

Optimal approaches to manage power system decarbonation

2020 ◽  
Vol 64 (1-4) ◽  
pp. 1447-1452
Author(s):  
Vincent Mazauric ◽  
Ariane Millot ◽  
Claude Le Pape-Gardeux ◽  
Nadia Maïzi
Keyword(s):  
Free Energy ◽  
Linear Programming ◽  
Phase Transitions ◽  
Power System ◽  
Energy System ◽  
Energy Sources ◽  
Low Carbon ◽  
Faraday’S Law ◽  
Optimal Description ◽  
Low Carbon Technologies

To overcome the negative environemental impact of the actual power system, an optimal description of quasi-static electromagnetics relying on a reversible interpretation of the Faraday’s law is given. Due to the overabundance of carbon-free energy sources, this description makes it possible to consider an evolution towards an energy system favoring low-carbon technologies. The management for changing is then explored through a simplified linear-programming problem and an analogy with phase transitions in physics is drawn.

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