Your search keyword '"Waste Management"' showing total 387 results

1. Waste Management and Innovation: Insights from Europe.

Author

Laureti, Lucio, Costantiello, Alberto, Anobile, Fabio, Leogrande, Angelo, and Magazzino, Cosimo

Subjects

WASTE recycling, INFORMATION dissemination, RECYCLING management, WASTE management, INFORMATION & communication technologies

Abstract

This paper analyzes the relationship between urban waste recycling and innovation systems in Europe. Data from the Global Innovation Index for 34 European countries in the period 2013–2022 were used. To analyze the characteristics of European countries in terms of waste recycling capacity, the k-Means algorithm optimized with the Elbow method and the Silhouette Coefficient was used. The results show that the optimal number of clusters is three. Panel data results show that waste recycling increases with domestic market scale, gross capital formation, and the diffusion of Information and Communication Technologies (ICTs), while it decreases with the infrastructure index, business sophistication index, and the average expenditure on research and development of large companies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Measuring the circular economy in Europe: Big differences among countries, great opportunities to converge.

Author

Claudio‐Quiroga, Gloria and Poza, Carlos

Subjects

CIRCULAR economy, CLUSTER analysis (Statistics), WASTE management, TIME series analysis, DATABASES

Abstract

The main aim of this article is to analyze the circular economy (CE) transition of European countries between 2014 and 2021, using the European Commission approach of production and consumption, waste management, secondary raw materials, and competitiveness and innovation. To do so, we have built a multidimensional Circular Economy Index that classifies European countries according to their progress towards a circular economy. We used data from the Eurostat database and extracted all circular economy indicators for the EU27 countries plus Liechtenstein, Norway, Switzerland, the United Kingdom, and Iceland. The time series starts in 2014 and ends in 2021 and we have used 15 variables grouped in four dimensions by means of a second order factor analysis with a Promax rotation. We have also applied a hierarchical cluster analysis to group countries by circular economy performance. Our results suggest an improvement in circular economy performance between 2014 and 2021 in Europe. We likewise find there is a 'four‐speed Europe' in terms of a circular economy, highlighting the good results of the Netherlands, Germany, Italy, and Belgium. [ABSTRACT FROM AUTHOR]

Published

2024

3. Optimization of the end‐of‐life tire repartition within the European treatment system to minimize its environmental impacts.

Author

Duval, Lisa, Majeau‐Bettez, Guillaume, Saunier, François, Maréchal, François, and Margni, Manuele

Subjects

*PRODUCT life cycle assessment, *SYNTHETIC sporting surfaces, *NUCLEAR energy, *FOSSIL fuels, *CIVIL engineering, *LOCAL transit access

Abstract

This study contrasts two different approaches to inform European‐scale decision‐making to mitigate the environmental impacts of the end‐of‐life tires (ELT) management system. The first analysis is a traditional life cycle assessment (LCA) that compares the environmental performances of the 12 main available European end‐of‐life (EOL) technologies in ELT processing while restricting the boundaries to the EOL stage. The second analysis has a broader scope, addressing the optimization of the ELT distribution within the 12 considered pathways to minimize the environmental impacts of the total tire use in Europe under present capacity and constraints. The results of the traditional LCA show that, except for landfill, all the tested EOL routes present environmental benefits. Material recovery pathways bring the most environmental credits, whereas civil engineering pathways are the least promising. The LCA results that emerged from the optimization of ELT management technologies yield two optimal technological mixes that maximize the quantity of ELT recycled in molded objects production: such results represent a hypothetical case with no constraints. When considering constraints, that is, limitations on maximum quantities of ELT that can undergo retreading, pyrolysis, or recycling in synthetic turfs, in molded objects and in production, the number of optimal technology mixes increases to five. The type of technologies favored depends on the minimized impact categories (climate change, fossil and nuclear energy use, human health, and ecosystem quality). A comparison between constrained and unconstrained scenarios shows that achieving the best environmental performances is conditional to the accessibility of the EOL technologies as well as their individual environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2024

4. Volume Determination Challenges in Waste Sorting Facilities: Observations and Strategies.

Author

Maus, Tom, Zengeler, Nico, Sänger, Dorothee, and Glasmachers, Tobias

Subjects

*CONVEYOR belts, *MACHINE learning, *WASTE management, *VOLUME measurements, *BELT conveyors, *FACILITIES

Abstract

In this case study on volume determination in waste sorting facilities, we evaluate the effectiveness of ultrasonic sensors and address waste-material-specific challenges. Although ultrasonic sensors offer a cost-effective automation solution, their accuracy is affected by irregular waste shapes, varied compositions, and environmental factors. Notable inconsistencies in volume measurements between storage bunkers and conveyor belts underscore the need for a comprehensive approach to standardize bale production. With prediction reliability being constrained by limited datasets, undocumented modifications to machine settings, and sensor failures, this task renders a challenging application area for machine learning. We explore related research and present dataset analyses from three distinct waste sorting facilities in Europe, addressing issues such as sensor usability, data quality, and material specifics. Our analysis suggests promising strategies and future directions for enhancing waste volume measurement accuracy, ultimately aiming to advance sustainable waste management. [ABSTRACT FROM AUTHOR]

Published

2024

5. A model to assess the environmental and economic impacts of municipal waste management in Europe.

Author

Albizzati, P.F., Foster, G., Gaudillat, P., Manfredi, S., and Tonini, D.

Subjects

*WASTE management, *ECONOMIC impact, *LIFE cycle costing, *CIRCULAR economy, *PRODUCT life cycle assessment

Abstract

• We propose an advanced model to assess municipal waste management impacts. • We propose an approach to improve data reporting on generated waste amounts. • The C-footprint varies from a burden of 539 to a saving of 490 kg CO 2 -eq. t−1. • The cost of managing municipal waste in EU27 averages 162 EUR t−1. • The Full-Environmental-Cost of managing municipal waste in EU27 averages 109 EUR t−1. The Monitoring Framework proposed in the EU27 New Circular Economy Action Plan comprises two mass-based indicators, namely overall recycling rate and recycling rate for specific waste streams. Yet, to monitor and assess the impacts of circular economy, indicators cannot be limited to mass-based indicators; we argue assessments should also include environmental and economic effects. Towards this end, these impacts can be quantified by an advanced model based on life cycle thinking, entailing the use of life cycle assessment and costing (LCA/LCC). Calculating these effects for municipal waste management is challenging due to gaps in available data for estimating generated waste. We propose a methodology to estimate more finely the amounts of waste generated in the Member States, complemented with LCA/LCC. The results highlight that important inconsistencies in municipal waste data reporting exist and that recycling rates calculated from these are lower than hitherto estimated. The impacts quantification shows great performance variation across EU27, with C-footprint ranging from −490 to 539 kg CO 2 -eq. t−1. Potentials for improvement are substantial and can bring up to 103 Mt CO 2 -eq. additional annual saving, reducing costs (calculated as Full Environmental LCC) of waste management by 8.4 billion EUR and bringing 206,100 new jobs in the sector. The approach presented highlights the rationale for improved data management on waste statistics and the potential for harmonised models. It also paves the way for more sophisticated impact analyses relevant for policymaking, by bringing a richer perspective to the environmental and economic impacts of waste management on top of tracking generated, collected and recycled waste flows. [ABSTRACT FROM AUTHOR]

Published

2024

6. Battery Waste Management in Europe: Black Mass Hazardousness and Recycling Strategies in the Light of an Evolving Competitive Regulation.

Author

Gianvincenzi, Mattia, Mosconi, Enrico Maria, Marconi, Marco, and Tola, Francesco

Subjects

WASTE management, TECHNOLOGICAL innovations, WASTE recycling, STORAGE batteries, TWENTY-first century, BASIC needs

Abstract

The increasing significance of batteries in the 21st century and the challenges posed by the anticipated surge in end-of-life batteries, particularly within the European context, are examined in this study. Forecasts predict a notable escalation in battery waste, necessitating a focus on the recycling of black mass (BM)—a complex and hazardous byproduct of the battery recycling process. Employing systematic analysis, this research investigates the hazardous nature of BM derived from various battery types. The study underscores the urgent need for definitive legislative classification of BM's hazardous properties (HPs), in accordance with European regulations. This comprehensive examination of BM's HPs contributes significantly to the understanding of BM recycling complexities, proving essential for industry stakeholders and guiding future developments in this field. Additionally, the study explores innovative technologies and strategies that could improve recycling efficiency and reduce associated risks. A pivotal finding of this investigation is the inherently hazardous nature of BM, leading to the recommendation that BM should be classified at a minimum under the "HP3—Flammable" category. This discovery underscores the critical need for stringent management protocols and robust regulatory frameworks to address the burgeoning challenge of battery waste in Europe. [ABSTRACT FROM AUTHOR]

Published

2024

7. PREDICTING THE FUTURE TRENDS OF EUROPEAN AND NATIONAL BENCH-MARKS IN THE MANAGEMENT OF BIODEGRADABLE MUNICIPAL WASTE USING ARTIFICIAL NEURAL NETWORKS.

Author

PUNTARIĆ, Eda, PEZO, Lato, ZGORELEC, Željka, GUNJAČA, Jerko, KUČIĆ GRGIĆ, Dajana, and VOĆA, Neven

Subjects

ARTIFICIAL neural networks, WASTE minimization, WASTE paper, WOOD waste, WASTE management

Abstract

This research employs Artificial Neural Networks (ANN) to develop predictive models for biodegradable municipal waste at both European and national levels. Leveraging socio-demographic and economic data spanning 25 years across 17 European Union (EU) countries, the models aim to forecast biodegradable waste generation over a five-year period. The primary objective is to examine the influence of socio-demographic and economic factors on waste generation. According to the study's findings, it is anticipated that by 2025, the 17 EU countries will produce approximately 67.4 million tons of mixed municipal waste (MMW), 14.7 million tons of municipal paper and cardboard waste (PCW), 6.4 million tons of municipal wood waste (WW), and approximately 0.6 million tons of municipal textile waste (TW). This substantial volume underscores the pressing need for robust infrastructure covering collection, processing, recycling, and disposal mechanisms. The ANN model demonstrated impressive predictive capabilities for MMW, PCW, WW, and TW. Test predictions spanning 2020 to 2025 revealed R2 values ranging between 0.965 and 0.998 during the training phase for the output variables. [ABSTRACT FROM AUTHOR]

Published

2024

8. SWOT ANALYSIS AND GOOD PRACTICES ON SIDE STREAM UTILIZATION AND WASTE MANAGEMENT IN WOOD CONSTRUCTION VALUE CHAIN IN FOUR-MACRO-REGIONS IN EUROPE.

Author

VERKASALO, Erkki, MÖTTÖNEN, Veikko, RÄTY, Tarmo, PARTANEN, Asta, VOM BERG, Christopher, PILTZ, Gunilla, D'ANGHELA, Mariapia, and TOSI, Giovanni

Subjects

*WASTE recycling, *WASTE management, *VALUE chains, *WOOD waste, *SWOT analysis

Abstract

Transitioning from a linear to a circular economy is an important part of Europe's strategy to counteract climate change, boost green transformation and accomplish new business and welfare. Through the introduction of the European Green Deal in December 2019, this transition has received greater attention and activity to analyze and implement circularity throughout Europe. WoodCircus project of European Horizon 2020 program (2018-2021), a consortium of seven research centers, eight industry stakeholders, two EU networks and seven countries, aimed to increase knowledge, raise awareness, and improve conditions for an uptake of resource efficient processing, recycling and circularity in wood construction value chains, and foster competitiveness of the European woodworking sector. The project was based on an extensive fact finding and state-of-art process with a focused literature review and internet search, expert interviews of 99 stakeholders in ten countries in four macro-regions in Europe and three workshops with invited experts. The thematic focus was in wood-based side stream utilization and waste management systems, availability and suppliers of raw materials, bio-circular product solutions and markets, and resource efficiency, recovering, recycling, reuse and processing technologies. In addition, organization and set-up of different value chains, with specific attention to material flows, industrial ecosystems as well as composition and collaboration of stakeholders were mapped. The data were used for elaboration of SWOT analysis in the macro-regions, identification of good practices and development needs, and individuation of potential for novel bio-circular applications and cross-border transfer of practices. An invited review panel selected 25 of them for a European good practices catalogue. This paper summarizes this part of the project with recommendations for industry and policy development. [ABSTRACT FROM AUTHOR]

Published

2023

9. Structuring the unknown – insights on waste management research in Europe.

Author

Martini, Melanie and John, Marcus

Subjects

WASTE management, INNOVATION management, METADATA, K-means clustering

Abstract

Innovation managers and other professionals dealing with new technologies need to be able to quickly gain an overview over broad topics. This work introduces a method combining the semantic information of scientific publications with its respective metadata. To do so, a Latent Dirichlet Analysis and K-Means Clustering are performed. As a proof of concept, the topic of waste management in Europe is chose. The subject is approached with the help of a classification system based on the SDGs. More specifically, SGD12 is used as starting point to approach the topic. Afterwards the analysis is limited to waste management. The results show what topics are researched in this context and which disciplines are concerned with them. [ABSTRACT FROM AUTHOR]

Published

2023

10. The ability to form environmental competence throughout Waste management.

Author

Doychinova, Klaida

Subjects

*SUSTAINABILITY, *WASTE management, *COGNITIVE ability, *SOCIALIZATION

Abstract

Environmental competence is a category related to environmental awareness, environmental culture, environmental ethics and environmental behaviour and is a key competence. An efficient way to build a public awareness of environmental responsibility is to separate waste, a concept that is now widespread across Europe. Project work is an integrative strategy that provides opportunities for cooperation and interaction between students in the team organization of cognitive activity, realizing the connection between theoretical knowledge and practical activity of students, for conducting active training of students and effective socialization of the training, thus increasing the practical focus of the acquired knowledge and competences. The article presents results following the application of the project method as an opportunity to increase the environmental competence of junior high school students, with regards to sustainable waste management at school and in their households. [ABSTRACT FROM AUTHOR]

Published

2023

11. Self-reported behaviours and measures related to plastic waste reduction: European citizens' perspective.

Author

Dagiliūtė, Renata, Žaltauskaitė, Jūratė, and Sujetovienė, Gintarė

Subjects

WASTE minimization, CITIZENS, MARINE pollution, CONSUMER behavior, PLASTIC scrap, WASTE management, RIVER pollution

Abstract

Consumer attitudes and behaviour regarding consumption of plastic goods and proper waste management are of importance for reducing plastic and microplastic (MP) pollution. Therefore, based on Eurobarometer survey, this study aims to analyse European attitudes and behaviour related to plastic pollution reduction. Europeans acknowledge marine and river pollution as important environmental problems and are worried about plastics and MP environmental impacts. However, this does not translate into related plastic reduction behaviours. Regression analysis show that analysed behaviours are likely to be undertaken by women, younger, with higher incomes respondents and by those who express higher worry about plastic and MP environmental impacts. Industry and big companies are seen as having the main role in reducing plastic waste and littering, chargers for single use plastics being less important. Respondents also stress the role of education. Hence, focus on concrete steps to reduce plastic waste, highlighting the interaction of individual actions and environment should be given. [ABSTRACT FROM AUTHOR]

Published

2023

12. ENVIRONMENTAL POLICIES, WASTE AND CIRCULAR CONVERGENCE IN THE EUROPEAN CONTEXT.

Author

Zecca, Emy, Pronti, Andrea, and Chioatto, Elisa

Subjects

COVID-19 pandemic, ENVIRONMENTAL policy, CIRCULAR economy, SUSTAINABILITY

Abstract

This work explores the transition process towards a circular economic model in the European context. By placing the role of policies and waste as a focus of the debate, it first examines the possible effects that a stringent policy can generate and, secondly, how much waste and its management can influence the goodness of the transition process. By analyzing European data on major indicators of circularity, waste generation, and management, this paper attempts to provide a snapshot of the European situation and its different speeds along the transition path. In light of the recent development programs established by European institutions in the aftermath of the Covid-19 pandemic that strained the world economy, the trends show how program resources should be directed towards key sustainability sectors that can stimulate European countries towards a common circular pathway. [ABSTRACT FROM AUTHOR]

Published

2023

13. Experience with NORM waste disposal in different European countries.

Author

Gellermann, Rainer, Caplin, Helen, Chambers, Nick, Dongen, Oskar van, Grandia, Fidel, Hondros, Jim, Kunze, Christian, Michalik, Boguslaw, Pepin, Stéphane, Rovenska, Katerina N, and Trevisi, Rosabianca

Subjects

WASTE management, RADIATION protection, RADIOACTIVE substances, MANUFACTURING processes, COUNTRIES

Abstract

Industrial processes generate various quantities of waste that can be contaminated with radionuclides of natural origin (naturally occurring radioactive material ('NORM waste')). The efficient management of this waste is essential for any industries affected by NORM waste generation. To obtain an overview of current practices and approaches in Europe, the IRPA Task Group on NORM conducted a survey among task group members and other experts from European countries. The results revealed significant differences in methods and approaches in the European countries. In many countries, landfills are used to dispose of small- and medium-sized quantities of NORM waste with limited activity concentration. But our survey indicated that despite a uniform reference basis for national legislation in Europe, there are different framework conditions for the disposal of NORM waste in practice. In some countries, the disposal is hampered because the interface between the radiation protection system and the waste regime is not yet clearly regulated. Particular practical problems include the lack of acceptance of waste because of the 'radioactivity' stigma and only vague specifications by the legislators on acceptance obligations of the waste management sector. [ABSTRACT FROM AUTHOR]

Published

2023

14. A COMPARATIVE STUDY ON THE TAXATION OF WASTE DISPOSAL IN EUROPE.

Author

Ergun, Merve

Subjects

*WASTE management, *INDUSTRIAL waste management, *RECYCLING & the environment, *TAX incentives, *TAX rates, *WASTE recycling, *ENVIRONMENTAL impact charges

Abstract

Taxation can be used as a tool to promote sustainable waste management and recycling of industrial plastic, paper and glass; therefore, this article aims to assess the effectiveness of existing waste taxes by considering their effects on waste generation and disposal in Europe. In this context, a comparative study has been carried out to understand taxpayers' behaviours towards waste taxation, tax rates and methods preferred to calculate the amount of tax to be paid. Sustainable waste management is of particular importance for countries and requires effective investment and financing mechanisms. It can be argued that today's tax systems are asked to contribute to sustainable development by eradicating poverty, reducing inequalities and using tax incentives to limit the amount of waste produced. This also means that tax systems, from time to time, may require to take more proactive Pigouvian roles. Collection of waste tax is mostly under the responsibility of local authorities, and these authorities may opt different methods, such as: Unit-Based Pricing (UBP) and pay-asyou-throw (PAYT) schemes, while calculating the amount of tax to be collected. Pigouvian taxes intend to discourage consumption of products that affect society and/or environment hazardously; therefore, it is argued that the waste taxes that are not inconformity with the Pigouvian approach should be updated because waste taxes should not only finance the service taken by the users(taxpayers), but also promote recycling and protect the environment and human health. [ABSTRACT FROM AUTHOR]

Published

2022

15. Perspectives of Using Sewage Sludge Char in CO 2 Sequestration on Degraded and Brownfield Sites.

Author

Sajdak, Marcin, Zajemska, Monika, Ouadi, Miloud, Mucha, Walter, Misztal, Edyta, Pieszko, Celina, and Gałko, Grzegorz

Subjects

*BROWNFIELDS, *CARBON sequestration, *SEWAGE sludge, *GREENHOUSE gas mitigation, *GREENHOUSE gases, *WASTE management

Abstract

One of the greatest challenges humankind currently faces is global warming, mainly caused by greenhouse gas emissions. Here we have attempted to show how thermal conversion products, specifically from the pyrolysis of biomass wastes such as sewage sludge, can be used effectively and equivalently to sequester CO2 in brownfield and degraded areas. Scenarios were devised that showed the significant potential for CO2 sequestration in the form of biochar from sewage sludge deposited on degraded and brownfield areas. With the current amount of sludge production, such sludge could even be used in its entirety as a raw material in pyrolysis processes, where, in addition to the biochar, the heat necessary for drying the sludge could be generated and high-energy gas and liquid fractions could be obtained, which could be used to produce alternative fuels. It is therefore important to consider both the potential for CO2 sequestration on degraded and brownfield sites and the potential for sludge disposal in Europe as viable options for reducing greenhouse gas emissions and promoting sustainable waste management practices. [ABSTRACT FROM AUTHOR]

Published

2023

16. Life cycle assessment (LCA) on waste management options for derelict fishing gear.

Author

Schneider, Falk, Parsons, Sophie, Clift, Sally, Stolte, Andrea, Krüger, Michael, and McManus, Marcelle

Subjects

WASTE management, PRODUCT life cycle assessment, WASTE treatment, WASTE recycling, CARBON offsetting, MARINE debris, MECHANICAL energy

Abstract

Purpose: Derelict fishing gear (DFG) is one of the most abundant and harmful types of marine litter that gets increasingly retrieved from the ocean. However, for this novel waste stream recycling and recovery pathways are not yet commonly established. To identify the most suitable waste management system, this study assesses the potential environmental impacts of DFG waste treatment options in Europe. Methods: This study applies an attributional life cycle assessment (LCA) to four DFG waste treatment scenarios, namely a mechanical recycling, syngas production, energy recovery and landfill disposal. The scope spans from the retrieval and transport processes to pre- and end-treatment steps until the outputs are sent to landfill or assumed to substitute products or energy. Primary data was collected from retrieval and waste treatment trials in Europe. Contribution, sensitivity and uncertainty analyses were conducted using the LCA software SimaPro and ReCiPe as the impact methodology. Results and discussion: The results show that the mechanical recycling and energy recovery achieve the lowest potential environmental impacts. The syngas production and landfill disposal scenario are not environmentally competitive because they require too much electricity, or their avoided production credits were too small to offset their emissions. Unlike the pre-treatment and transport processes, the retrieval and end-treatment processes have a significant impact on the overall results. The transport distances, energy mix and market and technological assumptions are least sensitive, while changes to the waste composition significantly affect the results. Especially a reduced lead content benefits the human toxicity impact potential of the landfill disposal scenario. The uncertainty analysis showed that the results are very robust in nine of twelve impact categories. Conclusions: This is the first LCA study that compares waste treatment options for marine litter. The results indicate that a disposal of DFG is hazardous and should be replaced with mechanical recycling or energy recovery. While this may be technologically possible and environmentally beneficial, economic and social factors should also be considered before a final decision is made. To further reduce environmental impacts, marine litter prevention should play a more important role. [ABSTRACT FROM AUTHOR]

Published

2023

17. Microbial Enzyme Biotechnology to Reach Plastic Waste Circularity: Current Status, Problems and Perspectives.

Author

Orlando, Marco, Molla, Gianluca, Castellani, Pietro, Pirillo, Valentina, Torretta, Vincenzo, and Ferronato, Navarro

Subjects

*ENZYME biotechnology, *PLASTIC scrap, *MICROBIAL biotechnology, *MICROBIAL enzymes, *PLASTICS, *POLYOLEFINS, *WASTE management

Abstract

The accumulation of synthetic plastic waste in the environment has become a global concern. Microbial enzymes (purified or as whole-cell biocatalysts) represent emerging biotechnological tools for waste circularity; they can depolymerize materials into reusable building blocks, but their contribution must be considered within the context of present waste management practices. This review reports on the prospective of biotechnological tools for plastic bio-recycling within the framework of plastic waste management in Europe. Available biotechnology tools can support polyethylene terephthalate (PET) recycling. However, PET represents only ≈7% of unrecycled plastic waste. Polyurethanes, the principal unrecycled waste fraction, together with other thermosets and more recalcitrant thermoplastics (e.g., polyolefins) are the next plausible target for enzyme-based depolymerization, even if this process is currently effective only on ideal polyester-based polymers. To extend the contribution of biotechnology to plastic circularity, optimization of collection and sorting systems should be considered to feed chemoenzymatic technologies for the treatment of more recalcitrant and mixed polymers. In addition, new bio-based technologies with a lower environmental impact in comparison with the present approaches should be developed to depolymerize (available or new) plastic materials, that should be designed for the required durability and for being susceptible to the action of enzymes. [ABSTRACT FROM AUTHOR]

Published

2023

18. INTRODUCING GIS TO LEARNING AND STIMULATING INTERACTIVITY AMONG STUDENTS.

Author

ELEFTERIU, CRINA-AURELIA

Subjects

GEOGRAPHIC information systems, DATABASES, URBAN planning, WASTE management, TELECOMMUNICATION systems

Abstract

Railway Technical College "Unirea" in Paşcani embarked on the ambitious two-year Erasmus KA220 project, "GIS FOR GIST OF EUROPE," commencing in December 2022. This endeavor is significant for both the institution and the local community. The project focuses on using Geographic Information Systems (GIS) to study the impact of climate change on the European environment. Interactive GIS maps allow users to explore the regions most affected by climate change, assess its effects on biodiversity and natural resources, and develop strategies to mitigate these environmental challenges. Within the Erasmus+ initiative, "GIS for Gist of Europe," GIS plays a central role, aiding urban planning, territorial development, and sustainable resource management. It also contributes to efficient communication networks and waste management systems. Project activities include online and in-person meetings, as well as Learning, Teaching, and Training (LTT) sessions. Key objectives involve creating two eLearning platforms, one with STEM educational resources featuringGISmaps and another forGIS training. The project fosters the advantages of GIS in data accessibility, correlation, and localized database creation. This project employing GIS will address climate change's impact on Europe, enhancing education and advancing climate-resilient strategies. The digitization of Geography remains pivotal in modern education and research, deepening our understanding of our ever-changing world. [ABSTRACT FROM AUTHOR]

Published

2023

19. Suspension Fertilizers Based on Waste Phosphates from the Production of Polyols.

Author

Bogusz, Paulina, Rusek, Piotr, and Brodowska, Marzena Sylwia

Subjects

*POLYOLS, *PHOSPHATE fertilizers, *PHOSPHATES, *PLANT nutrients, *RAW materials, *AGRICULTURAL productivity

Abstract

Phosphorus raw materials are non-renewable, and their resources are shrinking faster and faster as a result of increased fertilizer production. This is due to the increasing population and the need to produce more food. Phosphorus, on the other hand, is one of the main nutrients of plants, without which it is impossible to conduct intensive agricultural production. There are no economically significant phosphate resources in Europe, so they must be imported. That is why it is so important to reduce losses and recover this element from waste streams, which was reflected in the new EU Regulation 2019/1009. A prospective option is to use waste phosphates from the production of polyether polyols. Previous studies show that they contain about 20% phosphorus. Due to their high water content, the most advantageous form of their application is the production of fertilizers in the form of a suspension. The aim of the study is to assess the possibility of using waste phosphates from the production of polyols as raw materials for the production of suspension fertilizers. [ABSTRACT FROM AUTHOR]

Published

2022

20. Material flow analysis and recycling performance of an improved mechanical recycling process for post-consumer flexible plastics.

Author

Lase, Irdanto Saputra, Bashirgonbadi, Amir, van Rhijn, Freek, Dewulf, Jo, Ragaert, Kim, Delva, Laurens, Roosen, Martijn, Brandsma, Martine, Langen, Michael, and De Meester, Steven

Subjects

*MATERIALS analysis, *PLASTIC recycling, *WASTE recycling, *PLASTICS, *PLASTIC scrap recycling, *PLASTIC scrap, *DEODORIZATION

Abstract

• MFA is used to predict flows of post-consumer flexible plastics (PCFP) via mechanical recycling. • The process yield of conventional and improved mechanical recycling is similar (64–66%). • Net recovery of transparent-monolayer PCFP reaches up to 93% in improved mechanical recycling. • Quality indicators indicate that the regranulates are of high purity. • MFA is used for decision support of new plastic waste recycling systems. Increasing the recycling rates for post-consumer flexible plastics (PCFP) waste is imperative as PCFP is considered a difficult-to-recycle waste with only 17 % of PCFP effectively recycled in Europe. To tackle this pressing issue, improved mechanical recycling processes are being explored to increase the recycling rates of PCFP. One interesting option is the so-called quality recycling process (QRP) proposed by CEFLEX, which supplements more conventional mechanical recycling of PCFP with additional sorting, hot washing, improved extrusion, and deodorization. Material flow analysis (MFA) model is applied to assess the performance of QRP. Four performance indicators related to quantity (process yield and net recovery) and quality (polymer grade and transparency grade) are applied to measure the performance of three PCFP mechanical recycling scenarios. The results are compared against the conventional recycling of PCFP, showing that QRP has a similar process yield (64 % – 66 %) as conventional recycling (66 %). The net recovery indicator shows that in QRP higher recovery rates are achieved for transparent-monolayer PCFP (>90 %) compared to colored-multilayer PCFP (51 % – 91 %). The quality indicators (polymer and transparency grades) demonstrate that the regranulates from QRP have better quality compared to the conventional recycling. To validate the modeling approach, the modeled compositional data is compared with experimental compositional analyses of flakes and regranulates produced by pilot recycling lines. Main conclusions are: (i) although yields do not increase significantly, extra sorting and recycling produces better regranulates' quality (ii) performing a modular MFA gives insights into future recycling scenarios and helps in decision making. [ABSTRACT FROM AUTHOR]

Published

2022

21. DEVELOPING WASTE MANAGEMENT SKILLS FOR VOCATIONAL EDUCATIONAL INSTITUTIONS OF FOOD SECTOR.

Author

Grinberga-Zalite, Gunta, Zvirbule, Andra, Hernik, Joanna, and Popluga, Dina

Subjects

*FOOD industrial waste, *WASTE management, *FOOD industry, *WASTE minimization, *WASTE recycling, *SUSTAINABILITY

Abstract

Economic growth in Europe is causing environmental problems thus highlighting the need to minimize waste. Sustainable Development Goal 12 "Sustainable Production and Consumption" focuses on three aspects: waste management, energy saving and resource usage minimization. The aim of this study is to analyse the current needs for professional food waste management knowledge in European food production companies and develop waste minimization skills for food sector's vocational education students. The study is based on a mixed methodology combining desk study, comparative analysis and logical design research methods as well as focus group interviews with the representatives of different food sub-sectors. The results of the study reveal that, although waste management processes in European countries are well regulated, food sector workers currently lack waste management skills and thus need professional trainings to efficiently participate in waste reduction, reuse and recycling to comply with the principles of the circular economy. The results of the research were used to develop a vocational training curriculum that can be used by vocational education trainers as well as food sector companies to reduce waste and promote a zero-waste management culture in Europe. [ABSTRACT FROM AUTHOR]

Published

2022

22. everyday environmentalism in europe.

Author

tuntiya, nana

Subjects

ENVIRONMENTALISM, WASTE management

Published

2022

23. Assessment of the effectiveness and efficiency of packaging waste EPR schemes in Europe.

Author

Colelli, Francesco Pietro, Croci, Edoardo, Bruno Pontoni, Federico, and Floriana Zanini, Sara

Subjects

*PACKAGING waste, *PACKAGING recycling, *PLASTICS in packaging, *WASTE recycling, *REGRESSION analysis, *GRAND strategy (Political science)

Abstract

• We study the performance of packaging EPR in the EU with novel industrial data. • PROs achieving higher recycling rates do not entail necessarily higher costs. • Non-competitive systems are more successful in increasing recycling rates. • Systems that exclude local authorities in the collection underperform. This paper provides an analysis of the performance of European packaging waste systems, focusing on Extended Producer Responsibility schemes and Producer Responsibility Organizations. We adopt two separate but complementary empirical analysis: i) an indicator-based assessment of the cost-efficiency and recycling effectiveness of PROs; ii) a regression analysis of the determinants of recycling rates at the national level. The analysis spans over 25 national schemes and 21 Producer Responsibility Organizations. Our findings show that systems that have higher recycling rates do not entail necessarily higher costs. Non-competitive systems are more successful in increasing recycling rates no matter the cost; moreover, they are better able to use funds collected from EPR fees charged to producers, delivering improved cost-efficiency. Furthermore, higher recycling rates are associated with systems in which local authorities retain the operational responsibility of collection. Systems that do not involve local authorities always underperform. The policy implications are clear: local authorities should have some responsibility for collecting and sorting packaging waste and competitive systems should not be looked at as a first choice when designing a national recycling strategy. A mix of policy schemes, including non-profit EPR, door-to-door collection and Deposit-Refund-Schemes can be effective strategies for increasing the recycling rates of the waste streams that need more intervention, most notably plastic packaging. [ABSTRACT FROM AUTHOR]

Published

2022

24. Distinguished Member of the Euro(trash) Family? Israeli Self-Representation in the Eurovision Song Contest.

Author

Mahla, Daniel

Subjects

*MUSIC festivals, *WASTE management, *PLACE marketing, *EURO, *BRAND image

Abstract

Israel has been competing in the Eurovision song contest, Europe's biggest music festival, since 1973. The spectacle is a formidable arena for participating countries to shape their image and brand their nations. At the same time, its distinctively European character challenges Israelis, whose country is one of the few located outside the continent's geographical borders, to grapple with their social, cultural, and political affiliations with Europe and its institutions. Against this backdrop, the article traces the participation of the Jewish state in Eurovision and the debates this has generated in the Israeli public in order to investigate the shifts that have occurred in the country's self-representation and thereby, the messages Israel has sought to convey to Europeans. [ABSTRACT FROM AUTHOR]

Published

2022

25. Wood Waste Management in Europe through the Lens of the Circular Bioeconomy.

Author

Zbieć, Marcin, Franc-Dąbrowska, Justyna, and Drejerska, Nina

Subjects

*WOOD waste, *WASTE management, *WOOD combustion, *HEAT of combustion, *MANUFACTURING processes, *BIOMASS liquefaction

Abstract

Over 30% of the world's land area is covered by forests. Approximately 761 million m3 of wood is harvested annually in Europe (2017). The aim of the paper is to assess the amount of wood (biomass) produced in Europe per year, as it determines the amount of carbon dioxide released from wood because of combustion for heating and energy purposes. The circular bioeconomy was applied as the theoretical framework for this study. The study employs official statistics on material flows and also uses a technology assessment, which allows for more precise estimations. It can be estimated that 110 million tons of harvested woody biomass are converted into energy every year. This constitutes nearly 69% of processed wood, with burned wood treated as zero-emission. From the analysis of the compiled results, it can be concluded that, in Europe, more than 50% of the mass of raw wood material harvested per year is used for energy in the first stage of processing by manufacturing industries. These processes produce products that become the raw material for further processing, as a result of which, further amounts of wood biomass are used for energy purposes. [ABSTRACT FROM AUTHOR]

Published

2022

26. Management of textile waste in Europe: An environmental and a socio-economic assessment of current and future scenarios.

Author

Solis, Martyna, Huygens, Dries, Tonini, Davide, and Fruergaard Astrup, Thomas

Subjects

TEXTILE waste, WASTE management, ENVIRONMENTAL economics, WASTE recycling, CHEMICAL recycling

Abstract

• Technology performance must be assessed individually for selected textile stream. • Preparing for reuse is the most preferred option in all instances. • Incineration has second lowest full environmental cost (after preparing for reuse). • New recycling technologies are not a silver bullet under current market prices. • Focusing on preparing for reuse and changes in consumption seems more sustainable. Textile production and consumption continues to grow, and yet textile waste management in Europe remains suboptimal. This study assesses and compares the life cycle impacts of managing selected textile waste fractions via selected technologies, under current and future framework conditions. The study combines environmental and socio-economic analyses with data input from stakeholder consultation within the European Union. Preparing for reuse is the most beneficial management pathway from both an environmental and a socio-economic perspective. Overall, mechanical recycling is the second-most preferred pathway for most environmental impact categories. However, for recycling pathways to be economically competitive against incineration, either CO 2 prices will have to increase, or technology and processing costs will have to decrease. The uncertainty analysis identified critical parameters, such as substitution factors and yields of most desirable products from the recycling processes. The results offer a detailed basis for prioritising technology pathways for future textile waste management in Europe. [ABSTRACT FROM AUTHOR]

Published

2024

27. A life cycle assessment of the laboratory—scale oxidative liquefaction as the chemical recycling method of the end-of-life wind turbine blades.

Author

Sobek, Szymon, Lombardi, Lidia, Mendecka, Barbara, Mumtaz, Hamza, Sajdak, Marcin, Muzyka, Roksana, and Werle, Sebastian

Subjects

*WIND turbine blades, *CHEMICAL recycling, *PRODUCT life cycle assessment, *EPOXY resins, *WASTE management, *GLASS fibers

Abstract

According to the latest reports, estimated values of 50,000–66 000 t of end-of-life wind turbine blades (WTB) are expected to be decommissioned in Europe in 2025–2030, posing a significant threat from the environmental and waste management perspectives. This study aims to present the preliminary Life Cycle Assessment (LCA) with sensitivity and uncertainty analysis of the lab-scale oxidative liquefaction process of the WTB, as the original method to recover the high-quality glass fibers with simultaneous production of the secondary chemicals: phenols, ketones, acids, and fatty acids, from the oxidation of the epoxy resin from the polymer matrix. The LCA is based on the experimental results of the oxidative liquefaction process carried out on a laboratory scale using a Parr 500 ml batch reactor, at two different conditions sets for the functional unit (FU) of 1 kg of treated WTB. Each of the analyzed scenarios resulted in higher impact indicators compared to the landfilling. The highest quality fibers were obtained at 350 °C and 40 wt % H 2 O 2 content resulted in 5.52 ± 1.20 kgCO 2 eq Climate change impact and 97.8 ± 20.6 MJ of Resource use, fossil per kg of recycled WTB. The lowest quality fiber recovered in char, yet well separated from the matrix obtained at 250 °C and the lowest H 2 O 2 content resulted in 0.0953 ± 0.487 kgCO 2 eq Climate change impact and 8.84 ± 7.90 MJ of Resource use, fossil per kg of recycled WTB. The hot spot and sensitivity analysis indicated, that the oxidizer for the process – hydrogen peroxide, when acquired as a shelf product causes a significant burden on the whole process, with sensitivity ratios on the total impact indicators varying across the categories from 0.56 to 0.99. Substitution of H 2 O 2 with theoretical 0-input oxidizer allowed to significantly lower environmental load of the recycling process, which in all of the analyzed scenarios presented environmental benefits compared to landfilling with recovery of the glass fiber and secondary chemicals. • The LCA of oxidative liquefaction of wind turbine blades was studied. • Climate change impact category of recycled fibers varied at 0.00953–5.52 kgCO 2eq. • Sensitivity analysis showed that the biggest impact was caused by hydrogen peroxide. [ABSTRACT FROM AUTHOR]

Published

2024

28. Regulation and competition in the extended producer responsibility models: Results in the WEEE sector in Europe.

Author

Favot, Marinella, Grassetti, Luca, Massarutto, Antonio, and Veit, Raphael

Subjects

*MARKET design & structure (Economics), *ECONOMIC competition, *ELECTRONIC equipment, *ECONOMIC indicators, *WASTE management

Abstract

• Classification of the 28 National WEEE EPR systems in Europe in four main models. • Econometric model applied to a dataset covering economic performance and regulation. • Assessment of the degree of competition/regulation in the EU WEEE recycling industry. • The estimated impact of competition on the economic performance is positive. • Policy implications: design EPR scheme allowing many competing PRO schemes. The application of extended producer responsibility (EPR) in Europe has followed different patterns, with varying intensity of competition among producer organisations responsible for meeting take-back and recycling obligations. The literature has suggested possible reasons in favour or against the creation of dedicated compliance organisations, and arguments in support or against having many alternative recycling schemes competing on the market. However, little has been done on the empirical side to test these hypotheses. Our study contributes to filling this gap in the empirical literature by analysing the effect of competition and regulation in the field of waste from electric and electronic equipment (WEEE). We exploit an original database to provide an econometric assessment of the effects of competition and regulation on the cost of dealing with WEEE. The European case is interesting since all member country are subject to the same policy targets imposed by EU directives but enjoy significant degrees of freedom in choosing the policy mix and the industrial structure to which the achievement of policy targets is devoted. Our results are several. First, we provide valuable details on EPR models. Second, we present collection and economic results achieved by compliance organisations. Third, with a statistical analysis based on the panel data structure, we provide significant evidence that a more competitive market structure allows achieving the same collection outcomes at a lower cost. This result is potentially relevant for waste management policies since it encourages the search for a more articulated market architecture for the design of EPR systems. [ABSTRACT FROM AUTHOR]

Published

2022

29. Racialized politics of garbage: waste management in urban Roma settlements in Eastern Europe.

Author

Dunajeva, Jekatyerina and Kostka, Joanna

Subjects

*RACIALIZATION, *WASTE management, *ROMANIES, *RACISM

Abstract

Disproportionate exposure to adverse environmental conditions is part of the complex cycle of dispossession and racial discrimination faced by marginalized minorities in Europe—primarily the Roma. The concept of environmental justice or the analysis of environmental risk along racial dimensions are largely absent from policy debates. This is a critical omission considering that the consolidation of neoliberal governance powerfully recomposes access to public services and individualizes collective responsibilities for a safe environment. Driven by competitive logic, neoliberalism champions the zero-sum game where losers are either abandoned or punished by the governing apparatus. This article argues that neoliberal governance, underpinned by moral appeals and racist imaginaries, legitimizes repression of marginalized groups such as the Roma. The primary purpose of this paper is to fill a theoretical and conceptual gap in the literature linking environmental issues to racism. [ABSTRACT FROM AUTHOR]

Published

2022

30. Waste management in the operating theatre.

Author

Talbot S and Moore D

Subjects

Humans, Ireland, Waste Management, Medical Waste, United States, Hazardous Waste, Europe, Operating Rooms, Medical Waste Disposal standards

Abstract

Introduction: Poor clinical waste management and its effect on the environment is an increasingly recognised concern for global healthcare systems. Approximately two thirds of waste produced in healthcare is from the operating theatre. In the Republic of Ireland, an estimated 580,977 tonnes of hazardous waste was produced in 2019. The cost of incineration of this hazardous waste is approximately €2,125 per tonne and €935 per tonne for sterilisation. Pollution from incineration is substantial and harmful., Methods: A literature review was performed on the topic of hospital waste management, specifically looking at the Republic of Ireland. A comparison could then be drawn between Ireland, Europe and the United States of America. Observation of our current operating theatre environment and practices were carried out., Discussion: An increased focus towards sustainability and reusable equipment means that there is potentially a decreased amount of waste for disposal, but an increase in the process of sterilisation. Approximately 66% of healthcare related waste is inappropriately contaminated, meaning that significant savings are possible if correct segregation and recycling were to occur. An increase in the amount of bins, identification labels above bins and education of staff results in an increased likelihood of successful segregation of waste. Clear and concise hospital guidelines of what is considered hazardous versus non-hazardous waste will decrease the amount of inappropriately disposed items., Competing Interests: Declaration of competing interest All authors have declared no conflicts of interest., (Copyright © 2024 Royal College of Surgeons of Edinburgh (Scottish charity number SC005317) and Royal College of Surgeons in Ireland. Published by Elsevier Ltd. All rights reserved.)

Published

2024

31. Municipal Waste Management in Poland Compared to Other European Union Countries.

Author

Poniatowska, Agnieszka, Kisiel, Monika, and Panasiuk, Damian

Subjects

WASTE management, WASTE recycling, WASTE treatment, LANDFILLS

Abstract

Copyright of Studia Ecologiae et Bioethicae is the property of Uniwerystet Kardynala Stefana Wyznskiege w Warzawie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

32. Information Practices and Digital Perspectives of Municipal Waste Recovery Providers in Europe.

Author

Luić, Ljerka and Labura, Krešimir

Subjects

DIGITAL technology, WASTE products, DIGITAL communications, WASTE management, RECYCLING management, WASTE recycling

Abstract

The priority of modern business systems of municipal waste management is recycling of waste materials while the imperative of their mission is determined by the degree of digital transformation which enables their reproduction, distribution, usage, and storage of information in digital form, as well as new ways of digital communication with the general public. In this paper the focus is on examining the information practices and digital perspectives of municipal waste recycling service providers in Europe. The goal of this paper was to detect information concepts relevant for establishing the degree of their digital maturity. Five data classes were created for the purpose of content analysis method to conduct research on practices on digital communication channels in seven countries to evaluate their availability and accuracy. The designed information model defines a unique conceptual framework of the digital communication information set of the municipal waste recycling service providers. [ABSTRACT FROM AUTHOR]

Published

2021

33. La propiedad intelectual en la gestión de residuos: una referencia para afrontar un reto de futuro.

Author

Charterina, Jon and Zamanillo, e Ibon

Subjects

COVID-19 pandemic, WASTE management, INTELLECTUAL property, SOCIAL impact, DATA extraction

Abstract

Copyright of DYNA - Ingeniería e Industria is the property of Publicaciones Dyna SL and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

34. Emission factors for PM10 and polycyclic aromatic hydrocarbons (PAHs) from illegal burning of different types of municipal waste in households.

Author

Hoffer, András, Jancsek-Turóczi, Beatrix, Tóth, Ádám, Kiss, Gyula, Naghiu, Anca, Levei, Erika Andrea, Marmureanu, Luminita, Machon, Attila, and Gelencsér, András

Subjects

WASTE management, INCINERATION, SOLID waste, POLYCYCLIC aromatic hydrocarbons, SCIENTIFIC literature, WOOD combustion, FUELWOOD, TIRE recycling

Abstract

It is a common practice in developing countries and in some regions of Europe that solid wastes generated in households (e.g. plastic beverage packaging and other plastic wastes, textile wastes, fibreboards, furniture, tyres, and coloured-paper waste) are burned in wood- or coal-fired stoves during the winter months. In Europe, the types and volume of municipal waste burned in households is virtually unknown because these activities are illegal and not recorded, with the exception of a few media reports or court cases. Even though particulate emissions from illegal waste burning pose a significant hazard to human health due to the combination of excessive emission factors (EFs) and uncontrolled chemical composition, there is scarce information on the specific EFs for PM 10 and polycyclic aromatic hydrocarbons (PAHs) in the scientific literature. In this work, controlled combustion tests were performed with 12 different types of municipal solid waste, and particulate emissions were measured and collected for chemical analysis. Absolute EFs for PM 10 and PAHs as well as the benzo(a)pyrene (BaP) toxicity equivalent of the latter are reported for the first time for the indoor combustion of 12 common types of municipal solid waste that are frequently burned in households worldwide. It was found that the PM 10 emission factors from the combustion of wood-based waste samples were about twice that of firewood, whereas EFs in the range of 11–82 mg g -1 (a factor of 5–40 times higher than that of dry firewood under the same conditions) were obtained for different types of plastic waste. The latter were also found to emit exceptionally high quantities of PAHs, by a factor of 50–750 more than upon the combustion of dry firewood under the same conditions. Since the more toxic 4–6 ring PAHs were predominant in the particulate emission from plastic waste burning, BaP equivalent toxicity was up to 4100 times higher than that from wood combustion. [ABSTRACT FROM AUTHOR]

Published

2020

35. Development of an entrepreneurship typology for integration of Roma informal Waste collection practices into environmental policy in the CEE region.

Author

Gittins, Tim

Subjects

ENVIRONMENTAL policy, INTEGRATED waste management, WASTE products, WASTE management, ENTREPRENEURSHIP

Abstract

Roma communities in the CEE (Central and Eastern Europe) region work in the informal economy through scavenging municipal waste. This conceptual paper has the aim of examining the extent for integration of scavenging into environmental policy through the development of a research paradigm applied to Roma and similarly marginalized non-Roma individuals. Evidence from studies of informal waste collection outside Europe suggests that in some cases it has been integrated into municipal waste management policy. In the CEE region, environmental policy insufficiently acknowledges the existence of informal scavenging whereby waste material categorization and disposal is not monitored to infer a research gap which is addressed in the research paradigm. This paper also adds to ongoing debate on entrepreneurship theory by developing a typology incorporating categories of ethnic (Roma) and informal (non-ethnic) entrepreneurship and thus serves to inform policy development for more socio-economically effective municipal waste collection and disposal in the CEE region. [ABSTRACT FROM AUTHOR]

Published

2020

36. Waste management in Europe - from theory to practice.

Author

Bogdan-Cristian, Chiripuci and Maria-Floriana, Popescu

Subjects

WASTE management, SOLID waste management, THEORY-practice relationship, WASTE products, REFUSE containers

Abstract

Daily human's activities produce waste which, since it is considered useless, is mostly thrown away. Many of these waste materials can be reused however and, if properly handled, can also become a resource for industrial or energy production. The way we live today generates massive quantities of waste and most people want to maintain their lifestyle, while preserving the environment and public health. Waste management has become one of the most critical issues today. Businesses, citizens and policymakers pursue ways to minimize the waste generated from most homes and businesses while reusing or disposing it in a cleaner and cost-effective way. The aim of this paper is to provide background information on these issues and challenges involved in urban solid waste management and to provide a basis for input on relevant European actions carried out. [ABSTRACT FROM AUTHOR]

Published

2020

37. Steam gasification of lignite and solid recovered fuel (SRF) in a bench scale fluidized bed gasifier.

Author

Savuto, Elisa, Di Carlo, Andrea, Gallucci, Katia, Di Giuliano, Andrea, and Rapagnà, Sergio

Subjects

*LIGNITE, *FLUIDIZED bed reactors, *ENVIRONMENTAL protection, *FUEL, *WASTE products, *WASTE management

Abstract

• Lignite and SRF gasification tests carried out in a fluidized bed reactor. • The effects of operating temperature were evaluated. • SRF up to 20%wt did not cause relevant changes in the test performances. • Affinity between Ca and S was observed, Ca showed capacity of retaining S in the ashes. • Pressure fluctuation analysis showed correct fluidization and no sign of agglomeration. The reduction of CO 2 emissions and solid waste disposal are critical issues with high importance for the environmental protection. Gasification is a promising process for sustainable energy production, because it can produce a versatile gaseous fuel starting from a wide range of organic feedstocks, and with reduced greenhouse gas emissions compared to combustion. Lignite is an abundant carbonaceous resource in Europe and in this work, gasification tests were carried out with lignite and a lignite and Solid Recovered Fuel (SRF) mixture, to evaluate the quality of gas produced from co-gasification of waste materials, in view of the final uses of the gas. Experimental gasification tests were carried out in a bench scale fluidized bed gasifier at different operating temperatures; the results were evaluated in terms of gas composition, tar content and conversion rates. In addition, characterization analyses were carried out on materials before and after the tests, and pressure fluctuation signals were analysed in order to evaluate the fluidization quality of the bed inventory. [ABSTRACT FROM AUTHOR]

Published

2020

38. Dynamic probabilistic material flow analysis of engineered nanomaterials in European waste treatment systems.

Author

Rajkovic, Sana, Bornhöft, Nikolaus A., van der Weijden, Renata, Nowack, Bernd, and Adam, Véronique

Subjects

*WASTE treatment, *MATERIALS analysis, *SEWAGE purification, *NANOSTRUCTURED materials, *WASTE management, *SOLID waste management

Abstract

• Waste treatment was refined to model environmental releases of engineered nanomaterials. • Results provide more accurate estimations of releases of engineered nanomaterials. • Most environmental releases of nano-Ag and nano-ZnO enter surface water. • Soil is the environmental compartment receiving most engineered nanomaterials. Knowledge on the material flows of engineered nanomaterials (ENMs) is crucial for assessing their environmental risks. Waste management processes constitute important parts of material flow analyses as they affect large fractions of the ENMs. Accordingly, their detailed representation could substantially improve the models. Our goal was to consider the temporal variations of wastewater and solid waste management in the dynamic probabilistic material flow analysis of carbon nanotubes (CNTs), nano-Ag, -TiO 2 and -ZnO in Europe from 2000 to 2020. New input parameters included wastewater and solid waste management rates for each year. The uncertainties associated with these data were assessed based on the type of consulted source, the geographical representativeness and temporal concordance. Results show modal values of 10–27% of ENMs going from sorting to reprocessing. Large shares of environmental releases of nano-Ag and nano-ZnO end in surface water (4.9 t and 1700 t respectively in 2020), while sludge-treated soil as environmental compartment is receiving most of nano-TiO 2 (22,000 t in 2020) and CNTs (8.8 t in 2020). Discharges from wastewater management to the subsurface soil make this compartment the largest environmental sink of nano-Ag and nano-ZnO (30 t and 3860 t accumulated in 2020, respectively). Landfills represent significant stocks of ENMs, with 105 t, 2077 t, 69,000 t and 1042 t of nano-Ag, nano-ZnO, nano-TiO 2 and CNTs. This model includes detailed descriptions of waste management and sources of ENMs released at the European scale. However, a better understanding of the behaviour, i.e. fate and potential transformations of ENMs in reprocessing systems, is needed to complete the full assessment. [ABSTRACT FROM AUTHOR]

Published

2020

39. Offshore and onshore wind turbine blade waste material forecast at a regional level in Europe until 2050.

Author

Lichtenegger, Georg, Rentizelas, Athanasios A., Trivyza, Nikoletta, and Siegl, Stefan

Subjects

*WASTE products, *WIND turbine blades, *WIND power, *WASTE management, *WIND turbines, *FORECASTING

Abstract

• Wind turbine blade waste material availability forecasted for Europe until 2050. • Onshore wind blade material will be 76% of the total in 2050. • Germany leads the onshore blade material availability and the UK the offshore. • Local hotspots of material availability identified in Europe at NUTS 2 level. • Fluctuations of the material availability are expected at the country level. Wind power is a key renewable electricity source for Europe that is estimated to further develop significantly by 2050. However, the first generation of wind turbines is reaching their End of Life and the disposal of their blades is becoming a crucial waste management problem. Wind turbine blades consist primarily of reinforced composites and currently there is a lack of a sustainable solution to recycle them. The aim of this study is to estimate the wind turbine blade waste material for Europe until 2050 and is the first study adopting a high geographical granularity level in Europe, while distinguishing between offshore and onshore. In addition, the wind turbines' lifespan is not considered as a fixed value, but rather as a stochastic distribution based on historic decommissioning data. This study can support researchers, practitioners and policy makers to understand the future evolution of the blade waste material availability, identify local hotspots and opportunities and assess potential circular economy pathways. The results indicate that wind power capacity in Europe will reach 450 GW in 2050 with the respective total yearly blade waste material reaching 325,000 t. Findings for selected countries reveal that in 2050 Germany will have the majority of blade waste material from onshore wind and the United Kingdom from offshore. There is also a significant fluctuation in the yearly amount of waste expected at the country level, for several countries. Finally, local hotspots of blade waste material are identified. [ABSTRACT FROM AUTHOR]

Published

2020

40. Waste management of deconstructed External Thermal Insulation Composite Systems with expanded polystyrene in the future.

Author

Heller, Niklas and Flamme, Sabine

Subjects

WASTE management, THERMAL insulation, INCINERATION, WASTE treatment, POLYSTYRENE, SOLID waste management, PACKAGING recycling

Abstract

External Thermal Insulation Composite Systems (ETICS), mainly comprised of expanded polystyrene (EPS) as the insulating material, have been used to insulate facades of buildings for the past few decades. In Europe, waste from ETICS deconstruction is currently disposed of in waste incineration facilities or landfills. Although the current quantities of ETICS waste are small, disposal of the increasing quantities of waste is posing a problem in some countries. New recycling strategies, such as the physico-chemical recycling of EPS or reutilisation of material and energy of all ETICS components in cement plants, offer the possibility of a circular economy for ETICS waste in the future. However, this would require a waste management chain from the construction site to the utilisation plant with appropriate waste treatment. To assess this concept further, this study documented dismantling efforts at different construction sites and conducted large-scale trials for ETICS waste treatment. The results of this study will allow the selection of suitable processing units and will be applied in a model developed by the IWARU Institute to determine economically and ecologically advantageous waste management routes that can be used to handle ETICS waste in the future. [ABSTRACT FROM AUTHOR]

Published

2020

41. Microplastic in soil–current status in Europe with special focus on method tests with Austrian samples.

Author

Meixner, Katharina, Kubiczek, Mona, and Fritz, Ines

Subjects

PLASTIC marine debris, WASTE management, POLLUTION, TEST methods, SOIL biology, PLASTIC scrap

Abstract

Within the last decade the production of plastic steadily increased and so did the amount of plastic waste. When bigger plastic pieces enter the environment, they are fragmented over time due to mechanical and environmental forces. The occurring and the directly released microplastic cause severe problems on soil organisms, due to alteration of physical properties and chemical interactions in the habitat. Main emissions sources of microplastic are different kinds of abrasions (road traffic, packaging, fibers of textiles during washing), waste disposal and drifts. Remains of mulching foils and protection nets spoil agricultural soil as well as the application of compost, sewage sludge and digestate, which may contain microplastic. Once released, microplastic accumulates much stronger in terrestrial than in aquatic systems. Spectroscopic, microscopic and thermo-analytical methods are commonly used to analyze microplastic in soil. The main challenges are to differentiate between soil matrix and plastic particles and to get rid of disturbing organic compounds. Unfortunately, there is no soil without plastic, no environmental blind sample to allow the finding of method limits. Inter-laboratory cooperation and data collection should allow estimation and comparison of emissions not only on European but on global scale. Investigations of Austrian samples provided a first orientation for regulations and measures to avoid further environmental pollution. [ABSTRACT FROM AUTHOR]

Published

2020

42. The environmental benefits of improving packaging waste collection in Europe.

Author

Tallentire, C.W. and Steubing, B.

Subjects

*PACKAGING waste, *RECYCLABLE material, *WASTE recycling, *PACKAGING recycling, *WASTE management, *COMPOSITE materials

Abstract

• Waste flows are modelled to quantify Europe's resource recovery potential. • Best practice waste collection recovers 48% more recyclable material than average. • However, present best practice waste collection is unable to meet recycling targets. • The environmental benefits of improving waste collection are quantified using LCA. • Better overall management of waste is shown to be needed in Europe. Collecting more waste via source separation waste collection systems is an essential part of increasing resource efficiency, achieving European recycling targets and closing the loop in a circular economy. Huge variation in the capture rates of packaging waste (paper, plastic, metal, composite material and glass) exists in Europe, even between municipalities with similar characteristics, which suggests there is great potential to increase the amount of these materials that can be recovered. In order to assess the environmental impacts linked to higher collection rates, a Life Cycle Assessment model was built that considers the reduced need for virgin materials as the system's loops are closed. An extra 18 million tonnes of waste could be collected annually in Europe if best practice collection strategies were to be deployed, leading to a 13% reduction in greenhouse gas production associated with the packaging and packaging waste. Although high collection performance is crucial for efficient resource use, improving source separation waste collection systems alone will not be enough to achieve recycling targets; material losses must be reduced throughout the value chain, i.e. at the sorting and recycling stages. By evaluating the circularity and environmental implications of current waste management, it can be shown at which points in the system the most improvement needs to be made for each material in order to facilitate the transition towards a circular economy. [ABSTRACT FROM AUTHOR]

Published

2020

43. Grain size dependent distribution of different plastic types in coarse shredded mixed commercial and municipal waste.

Author

Möllnitz, S., Khodier, K., Pomberger, R., and Sarc, R.

Subjects

*PARTICLE size distribution, *PLASTIC scrap recycling, *PLASTIC recycling, *IR spectrometers, *WASTE management, *WASTE recycling

Abstract

• Plastic potential and types in commercial and municipal waste are investigated. • Plastic type by using NIR-sensor and a FTIR-spectrometer is analysed. • Dimension specific (2D & 3D) plastic distribution in different grain sizes is shown. • Identification of grain sizes for targeted practical removal of valuable plastics. • Grain size dependent sorting supports material recycling and circular economy. The Waste Framework Directive regulates the recycling of waste in Europe. The definition of waste is specified in different guidelines and regulations. Mixed Commercial Waste is waste from industry which is not collected separately. Currently there is little known about its composition. Mixed Municipal Waste, on the other hand, is household waste that cannot be attributed to any separately collected waste fraction (AdSLR, 2012). Both wastes are currently treated focussing on the generation of refuse-derived fuel rather than on the separation of recyclables (mainly performed for metals). The purpose of this paper is to characterise the amounts of various plastic types contained in different grain sizes of two-dimensional and three-dimensional plastics sorting fractions of both waste types. Nine types of plastics were identified as potential recycling materials for which recycling processes as well as a market are available. Both wastes were shredded, sampled and sieved into nine grain size classes (GSC). Fractions coarser than 20 mm were sorted, generating a 'plastics-2D' and a 'plastics-3D' fraction among others. The two plastics fractions were further characterised as plastic types using a near-infrared sensor and a Fourier-transform infrared spectrometer. The results reveal a potential for plastic recycling through mechanical and feedstock recycling options for the examined wastes. Certain types of plastics, of certain dimensionality, tend to come in certain grain sizes, which is essential for mechanical enrichment and discharge. [ABSTRACT FROM AUTHOR]

Published

2020

44. Waste management and competitiveness of firms in Europe: A stochastic frontier approach.

Author

Agovino, M., Matricano, D., and Garofalo, A.

Subjects

*WASTE management, *PACKAGING recycling, *STOCHASTIC analysis, *GEOGRAPHIC boundaries, *STOCHASTIC frontier analysis, *PACKAGING waste

Abstract

• The relationship between recycling rates and competitiveness of firms is tested. • Recycling rates deal with packaging waste, e-waste and bio-waste. • Competitiveness of firms refers to: gross investment, employees and value added. • Stochastic frontier analysis shows that all recycling rates affect competitiveness. • Inefficiency function reveals that R&D spending positively affects competitiveness. The present paper aims to investigate the relationship between achieved recycling rates and the competitiveness of firms working in circular economy sectors. The econometric analysis is based on the Stochastic Frontier Analysis (a parametric model) and is carried out in reference to seventeen European countries over the years 2010–2016. It reveals intriguing results about the positive effect that achieved recycling rates of packaging, electronic and bio-waste can exert on the competitiveness of firms, although differences emerge across the countries considered. Furthermore, through the inefficiency function, a positive effect of R&D spending on competitiveness of European firms is disclosed. [ABSTRACT FROM AUTHOR]

Published

2020

45. Addressing the challenges of combined sewer overflows.

Author

Perry, William Bernard, Ahmadian, Reza, Munday, Max, Jones, Owen, Ormerod, Steve J., and Durance, Isabelle

Subjects

COMBINED sewer overflows, DRAINAGE, WATER consumption, EMERGING contaminants, WASTEWATER treatment, WASTE management, DATA security failures, SEWAGE

Abstract

Europe's ageing wastewater system often combines domestic sewage with surface runoff and industrial wastewaters. To reduce the associated risk of overloading wastewater treatment works during storms, and to prevent wastewater backing-up into properties, Combined Sewer Overflows (CSOs) are designed into wastewater networks to release excess discharge into rivers or coastal waters without treatment. In view of growing regulatory scrutiny and increasing public concern about their excessive discharge frequencies and potential impacts on environments and people, there is a need to better understand these impacts to allow prioritisation of cost-effective solutions.We review: i) the chemical, physical and biological composition of CSOs discharges; ii) spatio-temporal variations in the quantity, quality and load of overflows spilling into receiving waters; iii) the potential impacts on people, ecosystems and economies. Despite investigations illustrating the discharge frequency of CSOs, data on spill composition and loading of pollutants are too few to reach representative conclusions, particularly for emerging contaminants. Studies appraising impacts are also scarce, especially in contexts where there are multiple stressors affecting receiving waters. Given the costs of addressing CSOs problems, but also the likely long-term gains (e.g. economic stimulation as well as improvements to biodiversity, ecosystem services, public health and wellbeing), we highlight here the need to bolster these evidence gaps. We also advocate no-regrets options to alleviate CSO problems taking into consideration economic costs, carbon neutrality, ecosystem benefit and community well-being. Besides pragmatic, risk-based investment by utilities and local authorities to modernise wastewater systems, these include i) more systemic thinking, linking policy makers, consumers, utilities and regulators, to shift from local CSO issues to integrated catchment solutions with the aim of reducing contributions to wastewater from surface drainage and water consumption; ii) broader societal responsibilities for CSOs, for example through improved regulation, behavioural changes in water consumption and disposal of waste into wastewater networks, and iii) greater cost-sharing of wastewater use. [Display omitted] • Increasing total water use and climate change threaten the capacity of combined sewers. • Improved data on CSO volumes, composition and impacts is needed to guide investment. • CSO investments need to consider social, environmental, and economic benefits. • Volumes, pollutant loads could be reduced through changes in behaviours and regulation. • Rethinking of infrastructure needed (e.g. nature based, smart systems, decentralisation). [ABSTRACT FROM AUTHOR]

Published

2024

46. A review of toxicity assessment procedures of solar photovoltaic modules.

Author

Li F, Shaw S, Libby C, Preciado N, Bicer B, and Tamizhmani G

Subjects

Waste Disposal Facilities, Europe, Metals, Hazardous Substances

Abstract

Environmental management of solar photovoltaic (PV) modules is attracting attention as a growing number of field-operated PV modules approach end of life (EoL). PV modules may contain small amounts of toxic metals, and the procedures for assessing and regulating the toxic metal content and release of such materials at EoL differ widely across nations. This paper provides an overview of the metal composition of PV modules and common procedures for toxicity assessment through extensive research and review of technical literature and legislative documents. This review focuses on three primary aspects: first, it explores the distribution of toxic elements within current and emerging PV module designs, with a specific focus on obtaining representative samples for proportional toxicity testing within different module laminate areas. Second, it examines a sampling standard and the diverse toxicity testing methods and regulations employed in various regions, encompassing standards like the Environmental Protection Agency (EPA) Test Method 1311 (Toxicity Characteristic Leaching Procedure, TCLP) in the U.S., Restriction of Hazardous Substances (RoHS) in Europe, and the Waste Extraction Test (WET) in California. Third, the review examines the sources of variability in toxicity testing outcomes, including techniques for securing homogeneous samples from non-uniform PV modules, selecting particle sizes representative of landfill conditions in extracted samples, determining appropriate leachate characteristics such as leaching agents and pH levels, and considering factors like test duration and temperatures. In summary, this review summarizes relevant regulations and offers a comprehensive overview of the strengths and limitations associated with several toxicity assessment procedures currently in practice., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

47. Untapped options to reduce waste from blister packaging for tablets and capsules.

Author

Falconnier-Williams OC, Taeschner W, Hille A, Falconnier AD, and Haefeli WE

Subjects

Humans, Drug Packaging, Tablets, Europe, Blister, Aluminum

Abstract

Purpose: In Europe, most medicines are taken orally and primarily packaged as single solid oral dosage forms (SODF) in blister chambers (alveoli) arranged on blister cards. Blister cards are constructed as multilayer laminates of aluminum (Al) foils and/or various plastic polymers bonded together, forming the alveoli, which are separated by more or less large gaps. We calculated the amount of packaging material (and thus waste) generated annually for the packaging of the most commonly prescribed SODF in Germany and estimated how much waste could be saved by rearranging the alveoli., Methods: For this purpose, we analysed the SODF of the 50 most frequently prescribed medicines that were packaged in alveoli (N = 45; 13 of aluminum-aluminum blisters, 32 of mixed materials), measured and weighed their packaging material and content, calculated the annual amount of waste produced from them, and estimated how much waste could be saved if the alveoli were optimally positioned on the blister cards. In addition, we examined the variability of the blister packaging of eight groups of commonly prescribed generics of the same strength., Results: Detailed analysis of the blister cards revealed that most of the material (69%) was used for the space between blisters and that aluminum-aluminum alveoli were more than four times larger than the packaged SODF. The (conservatively) estimated annual amount of composite waste generated for the primary packaging of these SODF was 3868 t (and extrapolated to the entire German pharmaceutical market 8533 t), of which an optimized arrangement of the blister chambers, i.e., a 2-mm sealing area around each alveolus and the arrangement of the SODF in 2 rows, would save approximately 37%., Conclusion: Considering that other ecological strategies are not yet mature, the optimal arrangement of blister chambers would be a captivatingly simple and, above all, immediately implementable strategy to avoid large amounts of avoidable waste., (© 2023. The Author(s).)

Published

2024

48. Multi-objective strategic waste transfer station planning.

Author

Kůdela, Jakub, Šomplák, Radovan, Nevrlý, Vlastimír, Lipovský, Tomáš, Smejkalová, Veronika, and Dobrovský, Ladislav

Subjects

*WASTE treatment, *STOCHASTIC programming, *WASTE management, *CITIES & towns, *MATHEMATICAL models

Abstract

The production of mixed municipal waste changes due to the increase of separation rate, urbanization and other factors. The future changes in the legislation and technology development influences the way the waste is being treated. Thus the method, location and capacity of processing sites are unknown. The realization of future projects can be supported by the developing of transportation infrastructure. Such a feature may be represented by a robust transfer station grid, which can be designed to handle all possible future realizations and technological solutions (establishment of waste treatment facilities). The paper presents an approach utilising a mathematical model for the design of transfer stations. It is formulated as a multi-objective two-stage mixed-integer stochastic programming problem, where the trade-off between the environmental aspect and the economic viability is considered. The model is tested through a case study for the Czech Republic, where the waste treatment of over 6,000 municipalities is analysed. The solutions for different preferences are assessed throughout the principle called out-of-sample stability with 10,000 scenarios. The optimal decision consists of the robust transfer station grid with selected locations and their respective capacity. The particular solution with respect to the potential trade-off suggests to save 1.148 mil of travelled kilometres with only 0.77 mil EUR. The output in the form of decision support can serve possible stakeholders from the field of waste management to plan more sustainable projects. • A transfer station grid designed to handle future realizations and developments. • The efficiency of waste transport was analysed for more than 6000 municipalities. • A trade-off between environmental aspects and the economic viability was considered. • A solution suggests to save travelled 1.148 mil km with only extra 0.77 mil EUR. • Introduction. [ABSTRACT FROM AUTHOR]

Published

2019

49. Stakeholder perceptions of marine plastic waste management in the United Kingdom.

Author

McNicholas, Grace and Cotton, Matthew

Subjects

*PLASTIC scrap, *WASTE management, *MARINE pollution, *ENVIRONMENTAL impact charges, *SOCIAL science research, *GOVERNMENT policy, *PLASTIC marine debris

Abstract

Plastic pollution is a significant threat to the marine environment. The problem has become subject to increasing scientific scrutiny, media campaigning and growing public awareness. This has stimulated policy-makers to introduce changes aiming to reduce plastic consumption and production. However, in order to arrive at socially acceptable policy and behaviour change solutions, we need to better understand the diverse array of stakeholder perspectives on ocean plastic pollution, economic policy and consumption responsibilities. We employ a Q-methodological study to research key stakeholder viewpoints from ENGO, government agency, plastic manufacturer, retailer, research and citizen representatives in the UK. We find four emergent types of perspectives surrounding this topic, labelled: a) socio-cultural visibility and responsibility, b) dragons of inaction – disempowerment and defeatism, c) value-action gap, d) refuting retailer responsibility. We also identify a clear consensus that current and proposed government policy is not radical enough – the focus needs to move beyond single-product taxes and levies on disposal items (e.g. bags, coffee cups), to a deeper reflection about public awareness raising and education, defining waste responsibilities more clearly, and working to change the habits and unsustainable practices of consumers in the face of public apathy and a resistant retail environment. • Marine plastic pollution is a growing issue in current environmental discourse in the United Kingdom and across Europe • The UK Government is proposing tax measures to reduce plastic consumption, thus social scientific research is key • We employ Q-methodology to explore the differences in perspectives that emerge between competing stakeholder interests • We reveal four distinct discourses and conclude policy must stimulate public responsibility towards plastic consumption [ABSTRACT FROM AUTHOR]

Published

2019

50. Systematic assessment of critical factors for the economic performance of landfill mining in Europe: What drives the economy of landfill mining?

Author

Laner, David, Esguerra, John Laurence, Krook, Joakim, Horttanainen, Mika, Kriipsalu, Mait, Rosendal, Renè Møller, and Stanisavljević, Nemanja

Subjects

*LANDFILLS, *LANDFILL management, *WASTE treatment, *ECONOMIC impact, *SEWAGE disposal, *WASTE management

Abstract

• 80% (439,276) of the generated landfill mining scenarios show negative results. • System-level factors are critical for the economic feasibility of landfill mining. • Main costs are related to treatment and disposal of excavated and processed materials. • Main revenues account to avoided landfill management costs – an indirect revenue. • Site selection is of key importance from a practical perspective. Landfill mining (LFM) is a strategy to mitigate environmental impacts associated with landfills, while simultaneously recovering dormant materials, energy carriers, and land resources. Although several case study assessments on the economy of LFM exist, a broader understanding of the driving factors is still lacking. This study aims at identifying generically important factors for the economy of LFM in Europe and understanding their role in developing economically feasible projects in view of different site, project and system-level conditions. Therefore, a set-based modeling approach is used to establish a large number (531,441) of LFM scenarios, evaluate their economic performance in terms of net present value (NPV), and analyze the relationships between input factors and economic outcome via global sensitivity analysis. The scenario results range from −139 Euro to +127 Euro/Mg of excavated waste, with 80% of the scenarios having negative NPVs. Variations in the costs for waste treatment and disposal and the avoided cost of alternative landfill management (i.e. if the landfill was not mined) have the strongest effect on the scenario NPVs, which illustrates the critical role of system level factors for LFM economy and the potential of policy intervention to incentivize LFM. Consequently, system conditions should guide site selection and project development, which is exemplified in the study for two extreme regional archetypes in terms of income and waste management standard. Future work should further explore the developed model to provide decision support on LFM strategies in consideration of alternative purposes, stakeholders, and objectives. [ABSTRACT FROM AUTHOR]

Published

2019