Your search keyword '"ELECTRONICS recycling"' showing total 1,820 results

1. Advanced Mycelium Skins for Sustainable Electronics.

Author

Pruckner, Roland, Holzinger, Laura, Preninger, David, Breitwieser, Magdalena, Lehner, Lukas, Putz, Christoph, Demchyshyn, Stepan, Berrer, Simon, Hirz, Astrid, Koeppe, Robert, Hild, Sabine, and Kaltenbrunner, Martin

Subjects

*METALLIC thin films, *ELECTRONIC waste, *AGRICULTURAL wastes, *GANODERMA lucidum, *ELECTRONICS recycling, *CHITIN

Abstract

Developing sustainable substrates for electronics is key to reduce the global reliance on fossil‐based synthetic polymers. Mycelium‐based materials are emerging as promising alternatives as they up‐cycle agricultural wastes and offer biodegradability. However, their often inhomogeneous growth and relatively rough surface limit their applicability, especially for thin‐film electronics. Here, post‐growth treatments such as deacetylation of chitin that modify the structure and composition of the mycelium and improve its mechanical and electrical characteristics are introduced. The resulting mycelium foil demonstrates extended durability, reduced electrical conductivity, and a reduced surface roughness Rrms of 2.7 ± 0.7 µm while maintaining its thermal stability and biodegradability. Metallic thin films deposited onto these foils exhibit conductivities as high as 18.08 ± 2.38 × 104 Scm−1 and withstand more than 10000 bending repetitions. Coating the mycelium foil with biodegradable shellac further smoothens its surface and provides moisture resistance. In addition, it serves as an adhesive for the lamination of copper (Cu) layers which, structured by laser ablation, enable flexible electronic devices such as a Near‐Field‐Communication‐Tag. The recovery of non‐biodegradable components is moreover enabled through triggered dissolution in ethanol. These developments in mycelium‐based electronics offer viable solutions to promote eco‐friendly manufacturing processes and ultimately reduce electronic waste. [ABSTRACT FROM AUTHOR]

Published

2024

2. Stakeholder engagement models in digital-enabled circular manufacturing ecosystems.

Author

Sassanelli, Claudio, Kouhizadeh, Mahtab, Rosa, Paolo, and D'adamo, Idiano

Subjects

SCIENTIFIC literature, NATURAL resources, INDUSTRIAL research, CIRCULAR economy, ECONOMIC impact, TIRE recycling, ELECTRONICS recycling, CORPORATE sustainability, SUSTAINABILITY

Published

2024

3. Selection of a sustainable location for waste electrical and electronic equipment recycling plant using Entropy and Evaluation based on Distance from Average Solution.

Author

Maden, Ayça

Subjects

ELECTRONIC waste, ELECTRONIC waste management, ELECTRONICS recycling, WASTE management, RENEWABLE natural resources

Abstract

The production and consumption of electronic goods have experienced a significant increase over the years, leading to a substantial surge in the global volume of electronic waste, commonly referred to as Waste Electrical and Electronic Equipment (WEEE). The selection of a sustainable location for WEEE recycling plants plays a crucial role in mitigating environmental concerns, preserving resources and promoting economic development. It signifies a proactive and responsible approach to electronic waste management in the contemporary world. To tackle the challenge of selecting sustainable locations for WEEE recycling plants, this study employed the Entropy and Entropy and Evaluation based on Distance from Average Solution (EDAS) methodologies, evaluating 10 alternative cities in Turkey based on 13 criteria. The selected criteria include land cost, personnel cost, energy cost, availability of labour, government support degree, tax preferences, road network accessibility, number of electronic equipment producers, existence of recycling plants, suitability of land use, population and availability of renewable resources (wind power and solar energy). The Entropy method was employed to calculate the weights assigned to each criterion, whereas the EDAS method was utilized to evaluate the decision alternatives. The results provide region-specific recommendations, such as Antalya for the Mediterranean region and Samsun for the Black Sea region. The literature lacks sufficient research on the selection of sustainable locations for WEEE recycling plants. Furthermore, the utilization of real data enhances the study's credibility and provides practical insights for decision-making. The selection of a sustainable location for a WEEE recycling plant in Turkey not only demonstrates the country's environmental commitment but also sets a global example for responsible waste management. [ABSTRACT FROM AUTHOR]

Published

2024

4. A Decade-Long Comparison of Heavy Metal(loid)s in the River and Children's Health Risk Assessment of an E-Waste Recycling Area.

Author

Hu, Hongfei, Zeng, Xiang, Dai, Chenxu, Xie, Bo, Zhang, Jian, Xu, Xijin, and Huo, Xia

Subjects

HEALTH risk assessment, HEAVY metals, KINDERGARTEN children, COPPER, CHILDREN'S health, ELECTRONICS recycling, TRACE elements, TRACE elements in water

Abstract

Informal e-waste recycling can cause serious heavy metal(loid) pollution to nearby bodies of water, thereby increasing the risk of heavy metal exposure to local residents. This study investigates metal(loid) pollution levels in the Lianjiang River, which flows through Guiyu, an e-waste recycling town in Shantou, Guangdong. In 2009 and 2020, water samples from the Lianjiang River were taken, and the levels of 12 metal(loid)s (V, Cr, Mn, Sr, Ni, Cu, Zn, As, Se, Cd, Ba, and Pb) were measured by ICP-MS. In total, 380 valid questionnaires from Guiyu kindergarten children were selected to assess child health. Exposure health risks for children were calculated using two forms of exposure (dermal and inhalation) and statistical methods (multiple linear regression and Bayesian kernel machine regression—BKMR). The concentrations of Mn, Ni, Pb, and Cd in 2009 were significantly higher than those in 2020. The concentration of heavy metal(loid)s had been decreasing in 2020. The non-carcinogenic risk levels of the 12 metal(loid)s in both exposure routes were at an acceptable risk level. The average carcinogenic risk levels for As, Cr, Ni, Pb, and Cd exceeded the ILCRi <10–6 acceptable range. According to MLR, it was found that daily oral intake doses of Pb [β(95% CI): −0.949 (−1.596, −0.863), p < 0.001 and Se [β(95% CI): −0.911 (−1.888, −0.092), p = 0.031] were negatively associated with body mass index. A BKMR model was developed, through which the synergistic effects of co-exposure to 12 heavy metal(loid)s on growth and development indicators in children were analyzed. Concentrations of heavy metal(loid)s in rivers near e-waste recycling sites have been decreasing for 10 years. It was found that the growth and development of children are affected by the intake of heavy metal(loid)s in water. The reduction in heavy metal(loid) contamination in e-waste recycling areas needs to be continued, and concern about its impact on children's health must remain. [ABSTRACT FROM AUTHOR]

Published

2024

5. Sustaining the environment through e-waste recycling: an extended valence theory perspective.

Author

Nadarajan, Pradaini, Vafaei-Zadeh, Ali, Hanifah, Haniruzila, and Thurasamay, Ramayah

Subjects

*ELECTRONIC waste, *CONSCIOUSNESS raising, *WASTE recycling, *STRUCTURAL equation modeling, *NONPROBABILITY sampling, *ELECTRONICS recycling

Abstract

Purpose: The escalating volume of electronic waste (e-waste) presents a significant environmental and health hazard, emphasizing the importance of promoting e-waste recycling. Therefore, this study aims to utilize a valence theory approach to comprehensively understand the factors influencing individuals' intention to recycle e-waste. Design/methodology/approach: A survey-based research approach was employed to examine the factors influencing consumers' e-waste recycling intention. Data were collected through an online survey questionnaire from Malaysian individuals aged 18 and above. The hypotheses were tested using a sample of 300 respondents, employing partial least squares structural equation modeling as a symmetric analysis technique. Additionally, fuzzy-set Qualitative Comparative Analysis (fsQCA), an asymmetric analysis approach, was used to gain deeper insights. Non-probability purposive sampling was utilized in the sampling process. Findings: The PLS-SEM analysis revealed that subjective norms and willingness to change significantly impact e-waste recycling intention. Furthermore, perceived convenience, environmental concerns and social media usage were found to support the intention to recycle e-waste. The fsQCA results enhanced the interpretation by uncovering intricate relationships among the antecedents and identifying specific configurations that accurately predict consumers' recycling intentions. Practical implications: The practical implications of this study emphasize the need for policymakers and practitioners to raise awareness regarding the benefits of e-waste recycling, enhance convenience in the recycling process and strengthen personal and subjective norms to encourage individuals to recycle their e-waste. Originality/value: This study's originality lies in its adoption of a valence theory framework to comprehend the intentions behind e-waste recycling, as well as its inclusion of control variables during the analysis. This unique approach enhances the understanding of factors influencing e-waste recycling intention and provides valuable insights for policymakers and practitioners in developing effective strategies to promote e-waste recycling behavior. [ABSTRACT FROM AUTHOR]

Published

2024

6. Fully Recyclable Liquid Metal‐Based Ultra‐Stretchable Electronics Enabled by Water‐Modulation‐Degradation‐Reconstruction Polymer‐Gel.

Author

Chen, Husheng, Hou, Tianfeng, Zhang, Minghua, Du, Jianke, Hua, Licheng, Chen, Xing, Zhang, Aibing, Jin, Yuan, Zhou, Lvwen, and Li, Guangyong

Subjects

METAL recycling, BIOSENSORS, ELECTRONIC waste, LIQUID metals, ELECTRONICS recycling

Abstract

The rapid development of stretchable electronics made by circuits, microchips, and encapsulation elastomers has caused the production of a large amount of electronic waste (e‐waste). The degradation of elastomers can highly minimize the negative effects of e‐wastes. However, chemicals that included acid, alkali, and organics were repeatedly used during the recycling process, which were environmentally unfriendly. Here, a water‐modulation‐degradation‐reconstruction (WDR) polyvinylpyrrolidone (PVP)‐honey composite (PHC) polymer‐gel was developed and could be regarded as encapsulation elastomers to realize a fully recyclable water‐degradable stretchable (WS) electronics with multi‐functions. The stretchability of the PHC polymer‐gel could be modulated by the change of its water retention. The Chip‐integrated liquid metal (LM) circuits encapsulated with the modulated PHC encapsulation elastomer could withstand a strain value of ~3000%. Moreover, we developed a WS biomedical sensor composed of PHC encapsulation elastomer, LM circuits, and microchips, which could be fully recycled by biodegrading it in water to reconstruct a new one. As before, the reconstructed WS biomedical sensor could still simultaneously realize the combination of ultra‐stretchability, recycling, self‐healing, self‐adhesive, and self‐conformal abilities. The results revealed that this study exercises a profound influence on the rational design of multi‐functional WS electronics. [ABSTRACT FROM AUTHOR]

Published

2024

7. Additive Manufacturing Based Dissolvable Chip Packaging for Sustainable E‐Waste Reduction.

Author

Belkadi, Dhiya, Kim, Min Sung, Hahn, Carl P., Saleha, Sunehra, Houston, Hannah L., and Hussain, Muhammad Mustafa

Subjects

LIFE cycle costing, PACKAGING recycling, ELECTRONIC packaging, ELECTRONICS recycling, SEMICONDUCTOR materials

Abstract

Electronics have contributed to the advancement of healthcare, wellness, security, and mobility, resulting in a higher standard of living. However, these ever‐accelerating advancements and widespread application come at the cost of a shortened product life cycle and increase in produced E‐waste which poses a significant environmental challenge. Recycling E‐waste is challenging due to the complexity of electronics and packaging, hindering component retrieval for reuse. While sustainable materials for electronics have been researched, sustainable integrated circuit (IC) packaging for conventional electronics remains unexplored. This study introduces a method involving dissolvable additively manufactured packaging materials to recover commercial‐off‐the‐shelf (COTS) chips from used electronics, which will alleviate supply‐chain stress, reduce the need for manufacturing similar chips, and minimize environmental impact. In this study, polyvinyl alcohol (PVA) and acrylonitrile butadiene styrene (ABS), are explored as potential dissolvable semiconductor packaging materials. Optimal dissolving conditions allow chip recovery in less than 11 min for PVA and 2 min for ABS. This approach offers a sustainable packaging method for commercial electronic chips that matches conventional packaging performance with the added functionality of recoverable and recyclable components, contributing to the gap in sustainability and recycling for conventional electronics. [ABSTRACT FROM AUTHOR]

Published

2024

8. Rotoren zu Aromaten.

Author

Rieger, Tobias, Fehn, Thomas, and Hofmann, Alexander

Subjects

ELECTRONICS recycling, CARBON dioxide mitigation, FIREPROOFING agents, WIND turbine blades, ELECTRONIC waste

Abstract

Copyright of Nachrichten aus der Chemie is the property of Wiley-Blackwell 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

2024

9. SIMPLIFYING BATTERY RECYCLING.

Author

TOTO, DEANNE

Subjects

GREENHOUSE gases, CATHODE ray tubes, CHIEF marketing officers, ELECTRONICS recycling, REMOTE control, STORAGE batteries, ALKALINE batteries

Abstract

Staples has partnered with ERI, an electronics recycling company, to offer free battery recycling at its stores nationwide. The program includes rechargeable and single-use alkaline batteries and aims to reduce the 3 million batteries that enter landfills each year. Call2Recycle is also involved in the initiative, ensuring the safe transportation of collected batteries to ERI's recycling facilities. The program has been well-received by consumers and has increased recycling rates significantly. [Extracted from the article]

Published

2024

10. Advancing in-house production.

Author

THOMASON, SARAH

Subjects

ELECTRONICS recycling, PLASTIC recycling, ORIGINAL equipment manufacturers, INFORMATION technology equipment, MANUFACTURING processes, ACRYLONITRILE butadiene styrene resins

Abstract

CompuCycle, an IT asset management firm based in Houston, uses shredding equipment from SSI Shredding Systems to recycle 40,000 to 60,000 pounds of electronic scrap per day. By operating their own recycling plants, CompuCycle is able to recover metals and plastics in-house without relying on downstream processors. The company invested in SSI shredders in 2019 and has experienced no setbacks since their installation. CompuCycle also opened a plastics recycling plant next to their electronics facility, using an SSI Uni-Shear SR500 shredder to process bulky material. They separate plastics by density into single polymers, such as polypropylene and polyethylene, to support OEM sustainability goals and minimize reliance on finite resources. [Extracted from the article]

Published

2024

11. Sequential Selective Dissolution of Coinage Metals in Recyclable Ionic Media.

Author

Zupanc, Anže, Install, Joseph, Weckman, Timo, Melander, Marko M., Heikkilä, Mikko J., Kemell, Marianna, Honkala, Karoliina, and Repo, Timo

Subjects

*ELECTRONICS recycling, *METALS, *COINAGE, *COPPER, *WASTE products, *ELECTRONIC waste, *EUTECTICS

Abstract

Coinage metals Cu, Ag, and Au are essential for modern electronics and their recycling from waste materials is becoming increasingly important to guarantee the security of their supply. Designing new sustainable and selective procedures that would substitute currently used processes is crucial. Here, we describe an unprecedented approach for the sequential dissolution of single metals from Cu, Ag, and Au mixtures using biomass‐derived ionic solvents and green oxidants. First, Cu can be selectively dissolved in the presence of Ag and Au with a choline chloride/urea/H2O2 mixture, followed by the dissolution of Ag in lactic acid/H2O2. Finally, the metallic Au, which is not soluble in either solution above, is dissolved in choline chloride/urea/Oxone. Subsequently, the metals were simply and quantitatively recovered from dissolutions, and the solvents were recycled and reused. The applicability of the developed approach was demonstrated by recovering metals from electronic waste substrates such as printed circuit boards, gold fingers, and solar panels. The dissolution reactions and selectivity were explored with different analytical techniques and DFT calculations. We anticipate our approach will pave a new way for the contemporary and sustainable recycling of multi‐metal waste substrates. [ABSTRACT FROM AUTHOR]

Published

2024

12. A closer look at lithium-ion batteries in E-waste and the potential for a universal hydrometallurgical recycling process.

Author

van de Ven, Johannes J. M. M., Yang, Yongxiang, and Abrahami, Shoshan T.

Subjects

*WASTE recycling, *SMARTWATCHES, *HOUSEHOLD electronics, *RAW materials, *TRANSITION metals, *LITHIUM-ion batteries, *ELECTRONIC waste, *LITHIUM sulfur batteries, *ELECTRONICS recycling

Abstract

The demand for lithium-ion batteries (LiBs) is rising, resulting in a growing need to recycle the critical raw materials (CRMs) which they contain. Typically, all spent LiBs from consumer electronics end up in a single waste stream that is processed to produce black mass (BM) for further recovery. It is desired to design a recycling process that can deal with a mixture of LiBs. Hence, this study investigates the structure and composition of battery modules in common appliances such as laptops, power banks, smart watches, wireless earphones and mobile phones. The battery cells in the module were disassembled into cell casing, cathode, anode and separator. Then, the cathode active materials (CAMs) were characterized in detail with XRD-, SEM-, EDX- and ICP-OES-analysis. No direct link was found between the chemistry of the active materials (NMC, LCO, LMO, LFP etc.) and the application. Various BM samples were submitted to a leaching procedure (2 M H2SO4, 50 °C, 2 h, 60 g BM/L) with varying concentration (0–4 vol%) of H2O2 to study the influence of their chemical composition on the dissolution of Li, Ni, Mn and Co. Only a part of the BMs dissolved completely at 4 vol% H2O2, which was attributed to the oxidation state of the transition metals (TMs). Exact determination of H2O2 consumption by redox titration confirmed this hypothesis. [ABSTRACT FROM AUTHOR]

Published

2024

13. Recycling the spent electronic materials to construct a high-performance Cu1.94S/ZnS heterostructure anode of sodium-ion batteries.

Author

He, Xiaowei, Wang, Tianshuai, Tian, Lidong, and Zhang, Qiuyu

Subjects

ELECTRONICS recycling, METAL wastes, SODIUM ions, ELECTRONIC waste, ANODES, WASTE recycling

Abstract

Heterostructure engineering by coupling different nanocrystals has received extensive attention because it can enhance the reaction kinetics of the anode of sodium-ion batteries (SIBs). However, constructing high-quality heterostructure anode materials through green and environmentally friendly methods remains a challenge. Herein, we have proposed a simple one-step method by recycling the electronic waste metal materials to synthesize the Cu1.94S/ZnS heterostructure materials. Combined with the experimental analysis and first principle calculations, we find that the synergistic effect of different components in heterostructure structures can significantly enhance the reversible capacity and rate performance of anode materials. Based on the constructed Cu1.94S/ZnS anode, we obtain a superior reversible capacity of 440 mAh·g−1 at 100 mA·g−1 and 335 mAh·g−1 after 3000 cycles at 2000 mA·g−1. Our work sheds new light on designing high-rate and capacity anodes for SIBs through the greenness synthesis method. [ABSTRACT FROM AUTHOR]

Published

2024

14. How Google is supporting the circular economy.

Author

Werner, Mike and Jaffe, Eric

Subjects

*CIRCULAR economy, *SERVER farms (Computer network management), *SPARE parts, *CONSTRUCTION & demolition debris, *NATURAL resources, *ELECTRONIC waste, *WASTE recycling, *ELECTRONICS recycling

Abstract

This practice limits the ability to recycle usable materials and e-waste, meaning that more new resources must be consumed to create new products, In 2021, we conducted an assessment of why consumers engage in product hibernation instead of recycling and identified the following areas of opportunityR (it should be noted that there are usually multiple factors in a decision to hibernate a product, and that the key factors differ by product, so pursuing all of these areas is critica I to maximize electronic recycling): low handoff-option owareness or convenience. The circular economy has a key role in stopping the disposal of embodied carbon en route to a net-zero world, Every piece of waste represents a new product that will be created from scratch and thus a missed opportunity to cut embodied emissions. Use recycled materials to create new goods and products, as recycled resources generate significantly lower greenhouse-gas emissions than virgin resources during production. [Extracted from the article]

Published

2023

15. E-waste recycled materials as efficient catalysts for renewable energy technologies and better environmental sustainability.

Author

Seif, Rania, Salem, Fatma Zakaria, and Allam, Nageh K.

Subjects

RENEWABLE energy sources, ELECTRONIC waste management, ELECTRONIC waste, RECYCLING management, NATURAL resources, WASTE treatment, ELECTRONICS recycling, SUSTAINABILITY

Abstract

Waste from electrical and electronic equipment exponentially increased due to the innovation and the ever-increasing demand for electronic products in our life. The quantities of electronic waste (e-waste) produced are expected to reach 44.4 million metric tons over the next five years. Consequently, the global market for electronics recycling is expected to reach $65.8 billion by 2026. However, electronic waste management in developing countries is not appropriately handled, as only 17.4% has been collected and recycled. The inadequate electronic waste treatment causes significant environmental and health issues and a systematic depletion of natural resources in secondary material recycling and extracting valuable materials. Electronic waste contains numerous valuable materials that can be recovered and reused to create renewable energy technologies to overcome the shortage of raw materials and the adverse effects of using non-renewable energy resources. Several approaches were devoted to mitigate the impact of climate change. The cooperate social responsibilities supported integrating informal collection and recycling agencies into a well-structured management program. Moreover, the emission reductions resulting from recycling and proper management systems significantly impact climate change solutions. This emission reduction will create a channel in carbon market mechanisms by trading the CO2 emission reductions. This review provides an up-to-date overview and discussion of the different categories of electronic waste, the recycling methods, and the use of high recycled value-added (HAV) materials from various e-waste components in green renewable energy technologies. [ABSTRACT FROM AUTHOR]

Published

2024

16. Determinants of residents' e-waste recycling behavioral intention: A study from Vijayawada.

Author

Vijaya Kumar Reddy, P. V., Rudraraju, Dhara Devi, and Dharashitha, Y.

Subjects

*ELECTRONIC waste, *INTENTION, *ELECTRONICS recycling, *ELECTRONIC equipment, *RESIDENTS

Abstract

Electronic waste or e-waste describes discarded electronical or electronic devices. The purpose of this paper is to explore the residents' awareness on e-waste recycling and determinants of residents' e-waste recycling behavioral outcomes. The data analyzed from 180 questionnaires from the residents of Vijayawada revealed that awareness, attitude towards recycling has shown the positive impact on residents' e-waste behavioral intentions and on the other hand the laws and regulations and the inconvenience in recycling had not much impact on the resident's e-waste behavioral intentions. The demographic variables on recycling behavioral intentions were also discussed in this paper, Furth more results find that the residents are interested in planning on recycling more e-waste and intend to buy more electronic products that can recycled. [ABSTRACT FROM AUTHOR]

Published

2023

17. Historical Occurrence and Composition of Novel Brominated Flame Retardants and Dechlorane Plus in Sediments from an Electronic Waste Recycling Site in South China.

Author

Huang, Chenchen, Zeng, Yanhong, Liu, Yin-E, Zhang, Yanting, Guo, Jian, Luo, Xiaojun, and Mai, Bixian

Subjects

FIREPROOFING agents, WASTE recycling, SEDIMENTS, ELECTRONICS recycling, ELECTRONIC waste

Abstract

Novel brominated flame retardants (NBFRs) and dechlorane plus (DP) have been widely used as alternatives to traditional BFRs. However, little is known about the temporal trends of NBFR and DP pollution in e-waste recycling sites. In the current study, three composite sediment cores were collected from an e-waste-polluted pond located in a typical e-waste recycling site in South China to investigate the historical occurrence and composition of NBFRs and DP. The NBFRs and DP were detected in all layers of the sediment cores with concentration ranges of 5.71~180,895 and 4.95~109,847 ng/g dw, respectively. Except for 2,3,5,6-tetrabromo-p-xylene (pTBX) and 2,3,4,5,6-pentabromoethylbenzene (PBEB), all the NBFR compounds and DP showed a clear increasing trend from the bottom to top layers. These results implied the long-term and severe contamination of NBFRs and DP. Decabromodiphenyl ethane (DBDPE) was the most abundant NBFR with the contribution proportions of 58 ± 15%, 73 ± 15%, and 71 ± 18% in three sediment cores, followed by 1,2-bis(2,4,6-tribromophenoxy) ethane (BTBPE) and pentabromobenzene (HBB). The ratios of BTBPE/Octa-BDEs and DBDPE/Deca-BDEs varied from 0.12 to 60 and from 0.03 to 0.49, respectively, which had no clear increase trends with a decrease in sediment depth. As for DP, the fanti values (the concentration ratios of anti-DP to the sum of anti-DP and syn-DP) in sediment cores ranged from 0.41 to 0.83, almost falling in the range of those in DP technical products, suggesting that DP degradation did not occur in sediment cores. The environmental burdens of DBDPE, BTBPE, HBB, PBT, PBEB, pTBX, and DP were estimated to be 34.0, 5.67, 10.1, 0.02, 0.02, 0.01, and 34.8 kg, respectively. This work provides the first insight into the historical contamination status of NBFRs and DP in the sediments of an e-waste recycling site. [ABSTRACT FROM AUTHOR]

Published

2024

18. Enabling the recycling of metals from the shredder light fraction derived from waste of electrical and electronic equipment via continuous pyrolysis process.

Author

Diaz, Fabian, Latacz, Damien, and Friedrich, Bernd

Subjects

*METAL recycling, *PYROLYTIC graphite, *PRECIOUS metals, *COPPER, *LEAD, *ELECTRONIC waste, *CONTINUOUS processing, *ELECTRONICS recycling

Abstract

[Display omitted] • SLF from WEEE can be transformed into a feedstock material for recycling. • base metals (Cu, Pb, Zn) and precious metals are concentrated in the solid product. • Continuous pyrolysis evidenced a substantial reduction of mass (50%) in the SLF. • Pyrolytic carbon from SLF can be used as reducing agent in the copper industry. • Continuous technology minimized oil production while maximizing permanent gas. The surge in Waste Electrical and Electronic Equipment (WEEE) generation, reaching 53.6 million metric tons (Mt) in 2019, demands efficient recycling solutions. This study focuses on the Shredder Light Fraction (SLF), a material stream derived from the mechanical pre-processing of WEEE, which is considered "municipal waste". SLF constitutes 4.2% of the output material and is rich in metals like copper, tin, lead, zinc, silver, and gold. Pyrolysis treatment was applied to SLF, enabling recyclability. Both batch and continuous setups were employed for materials flow analysis and technical evaluation of the resource potential. The research evaluates the impact of pyrolysis technology on solid fraction metal content and pyrolysis gas/oil energy potential. Scaling up the process addressed material heterogeneity and increased the reliability of the obtained results. An innovative pyrometallurgical extraction approach was suggested, to recover valuable metals in SLF which otherwise could be lost via energy recovery methods. The resulting solid product after pyrolysis showed enriched concentrations of copper, zinc, lead, and precious metals with concentrations acceptable for industrial use. Additionally, it displayed reduced mass and diminished hazardous constituents. The non-condensable gas, rich in hydrogen, carbon monoxide, and methane, exhibited potential as an alternative energy source or reducing agent in the metallurgical sector. This research advances metal recycling from SLF, offering valuable insights for environmental impact mitigation as waste was transformed into a valuable by-product for potential use in the copper industry. [ABSTRACT FROM AUTHOR]

Published

2023

19. Kindergarten dust heavy metal(loid) exposure associates with growth retardation in children.

Author

Zhang, Zhuxia, Liang, Wanting, Zheng, Xiangbin, Zhong, Qi, Hu, Hongfei, and Huo, Xia

Subjects

GROWTH disorders, GROWTH of children, ELECTRONICS recycling, INDOOR air pollution, ELECTRONIC waste, DUST, HEAVY metals, WASTE recycling

Abstract

Heavy metal contamination from electronic waste recycling sites is present in dust found in indoor kindergartens located in e-waste recycling areas, and its potential impact on child health is a significant concern. The association between heavy metal(loid)s and the child developmental indicators is still unclear. In 2019 and 2020, we enrolled 325 and 319 children in an e-waste recycling town, respectively. Corresponding 61 and 121 dust samples were collected from roads, houses, and kindergartens in the two years. The median concentrations of metals, including Cr, Ni, Cu, Zn, and Pb exceeded the allowable limits. The highest amount of cumulative enrichment (cEF) was observed in indoor kindergarten dust (cEF = 112.3400), followed by house dust (cEF = 76.6950) and road dust (cEF = 39.7700). Children residing in the e-waste town had below-average height and weight compared to their Chinese peers. Based on linear regression analysis, the daily intake of Cd, V, Mn, and Pb in indoor kindergarten dust was found to be negatively associated with head circumference (HeC) (P < 0.05). Similarly, the daily intake of As, Cd, and Ba in indoor kindergarten dust was found to be negatively associated with chest circumference (ChC) (P < 0.05). In addition, the daily intake of As, Cd, and Ba in indoor kindergarten dust was negatively correlated with body mass index (BMI), as per the results of the study (P < 0.05). Cross-product term analysis revealed a negative correlation between daily intake of heavy metal(loid)s and HeC, ChC, and BMI, with age and sex serving as influencing factors. In conclusion, exposure to heavy metal(loid)s in indoor kindergarten dust increases the risk of growth retardation and developmental delay in children. [ABSTRACT FROM AUTHOR]

Published

2023

20. Circular manufacturing ecosystems: Automotive printed circuit boards recycling as an enabler of the economic development.

Author

Cozza, Giorgio, D'Adamo, Idiano, and Rosa, Paolo

Subjects

ELECTRONIC waste, PRINTED circuits, ELECTRONICS recycling, AUTOMOBILE industry, NET present value, ECONOMIC development, POWER electronics

Abstract

The management of waste from electrical and electronic equipments (WEEEs) is a well-established topic in the extant literature. However, also the automotive sector is becoming a relevant source of WEEE, given the even more relevant presence of electronic components in cars. Due to new European environmental policies, end-of-life vehicles (ELVs) volumes are expected to grow in the next future, together with obsolete car electronics components. Hence, this work wants to assess the potential economic impact derived from car electronics recycling processes adopting the Net Present Value (NPV) as reference indicator. Through a detailed sensitivity and break-even point (BEP) analysis and a comparison of different cases, this work identifies a set of scenarios useful for industrial actors willing to enter the market of car electronics recycling. Results show an NPV varying from 136,570 to 607,621 €/t with a decisive role played by gold recovery. [ABSTRACT FROM AUTHOR]

Published

2023

21. Prenatal Exposure to Heavy Metals and Adverse Birth Outcomes: Evidence From an E‐Waste Area in China.

Author

Chen, Chen, Ma, Chaochen, Li, Qiyao, Hang, Jin Guo, Shen, Jiantong, Nakayama, Shoji F., Kido, Teruhiko, Lin, Yibin, Feng, Hao, Jung, Chau‐Ren, Sun, Xian Liang, and Lou, Jianlin

Subjects

HEAVY metals, PRENATAL exposure, CHILDBIRTH, ELECTRONIC waste, LEAD, COPPER, ELECTRONICS recycling

Abstract

Electronic waste that has not been properly treated can lead to environmental contamination including of heavy metals, which can pose risks to human health. Infants, a sensitive group, are highly susceptible to heavy metals exposure. The aim of this study was to investigate the association between prenatal heavy metal exposure and infant birth outcomes in an e‐waste recycling area in China. We analyzed cadmium (Cd), chromium (Cr), manganese (Mn), lead (Pb), copper (Cu), and arsenic (As) concentrations in 102 human milk samples collected 4 weeks after delivery. The results showed that 34.3% of participants for Cr, which exceeds the World Health Organization (WHO) guidelines, as well as the mean exposure of Cr exceeded the WHO guidelines. We collected data on the birth weight (BW) and length of infants and analyzed the association between metal concentration in human milk and birth outcomes using multivariable linear regression. We observed a significant negative association between the Cd concentration in maternal milk and BW in female infants (β = −162.72, 95% CI = −303.16, −22.25). In contrast, heavy metals did not associate with birth outcomes in male infants. In this study, we found that 34.3% of participants in an e‐waste recycling area had a Cr concentration that exceeded WHO guidelines, and there was a significant negative association between prenatal exposure to the Cd and infant BW in females. These results suggest that prenatal exposure to heavy metals in e‐waste recycling areas may lead to adverse birth outcomes, especially for female infants. Plain Language Summary: In this study, the concentrations of six heavy metals in human milk samples collected 4 weeks after delivery in one of the two largest e‐waste recycling areas in China, that is, Taizhou, Zhejiang Province, were measured. The effects of prenatal heavy metal exposure on infant birth outcomes were analyzed. The results reveal gender differences in infant birth outcomes. For example, prenatal cadmium exposure decreases the birth weight of female infants but has no effect on male infants. We believe that our study makes a significant contribution to the literature because we provide guidance for future analyses. We suggest that the effects of metal exposure in the e‐waste area on the growth and development of infants must be studied over the long term, particularly for female infants. Key Points: 34.3% of participants in an e‐waste recycling area had a Cr concentration that exceeded World Health Organization guidelinesExamined associations between prenatal exposure to heavy metals and birth outcomes in an area in China with e‐wastePrenatal Cd exposure decreases the birth weight of female infants [ABSTRACT FROM AUTHOR]

Published

2023

22. Introduction to Waste Management: A Textbook.

Author

Oommen, Thomas

Subjects

INTEGRATED waste management, WASTE minimization, ENVIRONMENTAL health, HAZARDOUS wastes, WASTE management, ELECTRONICS recycling, SOLID waste management

Abstract

"Introduction to Waste Management: A Textbook" by Syed E. Hasan, reviewed by Thomas Oommen, provides a comprehensive overview of waste management practices, including solid, hazardous, medical, nuclear, and electronic waste. The book covers key topics such as waste generation, treatment, disposal, and environmental impacts, with real-world examples and case studies. It is suitable for students majoring in environmental science, engineering, and related fields, offering a well-organized structure with chapter summaries, study questions, and supplementary readings to enhance learning." [Extracted from the article]

Published

2024

23. LEE GRANT: “Tendrils of thermal compound hung between bent pins like cobwebs made from porridge”.

Author

Grant, Lee

Subjects

CLEAN rooms, PORRIDGE, ELECTRONICS recycling, CHEMICAL vapor deposition, REMANUFACTURING

Abstract

This article from PC Pro discusses the challenges of recycling technology and the environmental impact of electronic waste. The author shares a story about a customer who damaged their motherboard while attempting to upgrade to Windows 11. The author also includes insights from Mark Miodownik, a professor of materials and society, who explains the difficulties of recycling electronics and the need for a circular economy. The article concludes by urging readers to consider purchasing refurbished products and questioning the necessity of buying new technology. [Extracted from the article]

Published

2024

24. Editorial: Bioleaching and biorecovery of critical raw materials from secondary sources.

Author

Castro, Laura, Ruiyong Zhang, Angel Muñoz, Jesús, and Wolfgang Sand

Subjects

BACTERIAL leaching, RAW materials, RARE earth metals, ELECTRONICS recycling, URANIUM

Abstract

This document is an editorial published in Frontiers in Microbiology titled "Bioleaching and biorecovery of critical raw materials from secondary sources." The editorial discusses the use of bioleaching as a sustainable and green technology for metal recovery from secondary sources such as e-waste, spent catalysts, fly ash, red mud, and scraps. Bioleaching utilizes microorganisms' metabolic activities to dissolve metals in the presence of organic compounds. The integration of biohydrometallurgical techniques into recycling processes has the potential to contribute to a circular economy and reduce the ecological footprint of the mining industry. The editorial highlights recent advances in bioleaching and biorecovery for critical raw materials and emphasizes the need for further research to optimize bioleaching processes, scale up operations, and address microbial resistances to target metals. [Extracted from the article]

Published

2024

25. Apple's 'iPad-like' smart home plan hits a tired market.

Author

Evans, Jonny

Subjects

*SMART homes, *FOREIGN electoral interference, *SMART devices, *ELECTRONICS recycling, *CORRUPT practices in elections, *INTELLIGENT personal assistants

Abstract

Apple is reportedly planning to introduce an iPad-like Control Center for smart homes, featuring a display and homeOS to access Apple services and control smart home devices. The smart home market faces challenges with frustrating user experiences, privacy concerns, and lack of consumer trust. While Apple may have the potential to revolutionize the smart home industry, consumers are cautious and seek tangible results before investing in new technology. [Extracted from the article]

Published

2024

26. E-SCRAP CONFERENCE.

Author

Heffernan, Marissa

Subjects

ELECTRONIC waste, ELECTRONICS recycling, WASTE recycling, RECYCLING equipment

Abstract

The article discusses highlights of the 21st annual E-Scrap Conference, held in Orlando, Florida, in September and October 2024. Topics included industries that might absorb recycled e-plastics, extended producer responsibility laws in the European Union (EU), roadblock for plastics recycling in the U.S, trends in e-scrap and information technology asset disposal (ITAD), e-Stewards and responsible recycling.

Published

2024

27. Gaseous elemental mercury emissions from informal E-Waste recycling facilities in Pakistan.

Author

Kazim, Mureed, Hussain Syed, Jabir, Binnur Kurt-Karakus, Perihan, Ozkaleli Akcetin, Merve, Akram, Sumaira, Birgul, Askin, Kara, Melik, Dumanoglu, Yetkin, Odabasi, Mustafa, Saqib, Zafeer, Nasir, Jawad, Mahar, Amanullah, Shah, Taimoor, Gulzar Burq, Mohsin, Jones, Kevin C., and Wania, Frank

Subjects

*ELECTRONIC waste, *ELECTRONICS recycling, *PASSIVE sampling devices (Environmental sampling), *SPRING, *AUTUMN, *AIR sampling apparatus, *ELECTRONIC waste disposal, *GREENHOUSE gases, *MERCURY

Abstract

[Display omitted] • Measurement of GEM emissions from urban atmosphere in Pakistan. • Open burning, and physical dismantling are common e-waste recycling practices. • E-waste sites from Karachi, Lahore, and Peshawar were found highly contaminated. • Lower seasonal variations indicating the stable emission sources throughout year. • Workers and public living close to these facilities are exposed to hazards of GEM. Detrimental effects of mercury (Hg) on ecosystems and human health have been well-documented. Whereas emissions of gaseous elemental mercury (GEM) from e-waste recycling have been reported in developed countries, much less is known about the situation in the Global South. Using a total of 132 passive air samplers, seasonally resolved concentrations of GEM in air were measured continuously at 32 informal e-waste recycling facilities and background location in Pakistan for a period of one year between September 2020 and December 2021. Annual average GEM concentrations at the studied locations ranged from 1.8 to 92 ng m−3. Among the studied cities, higher concentrations were measured in Karachi (mean ± s.d: 17 ± 22, range: 4.2–92 ng m−3), Lahore (16 ± 4.2, 8.2–22 ng m−3) and Peshawar (15 ± 17, 4.9–80 ng m−3), while lower levels were measured in Hyderabad (6.9 ± 6.2, 3.1–25 ng m−3), consistent with a higher rate of informal recycling activities in metropolitan areas. Seasonally, higher GEM levels occurred during autumn (15 ± 16: 3.3–92 ng m−3) and summer (13 ± 8.7: 1.8–80 ng m−3) than in winter (12 ± 8.4: 2.5–49 ng m−3) and spring (9.2 ± 7.3: 1.8–80 ng m−3), possibly reflecting enhanced volatilization at higher temperatures and/or varying magnitude of recycling operations in different seasons. Policies and strict regulations related to e-waste management should be developed and implemented urgently in the country. [ABSTRACT FROM AUTHOR]

Published

2023

28. Thermoplastic Electromagnetic Shielding Materials from the Integral Recycling of Waste from Electronic Equipment.

Author

Aradoaei, Mihaela, Ciobanu, Romeo C., Schreiner, Cristina, Ursan, Andrei George, Hitruc, Elena Gabriela, and Aflori, Magdalena

Subjects

*ELECTROMAGNETIC shielding, *ELECTRONIC waste, *GREENHOUSE gas mitigation, *WASTE recycling, *ELECTRONIC equipment, *ELECTRONICS recycling, *MICROWAVE heating

Abstract

The European Green Deal's goals are anticipated to be fulfilled in large part thanks to the New Circular Economy Action Plan. It is believed that recycling materials will have a significant positive impact on the environment, particularly in terms of reducing greenhouse gas emissions and the impacts this will have on preventing climate change. Due to the complexity of the issue and its significant practical ramifications, the activity of Waste Electrical and Electronic Equipment (WEEE) collection networks is a subject of interest for researchers and managers, in accordance with the principles that recent laws have addressed in a large number of industrialized countries. The goal of this paper is to characterize and obtain composite materials using an injection process with a matrix of LDPE, PP, and HDPE, with up to a 10% addition of nonmetallic powders from PCBs and electronic parts from an integrated process of WEEE recycling. The composites present relevant thermal, electrical, and mechanical properties. Such composite materials, due to their relevant dielectric properties, may be further tested for applications in electromagnetic shielding at frequencies above 1 kHz, or for electromagnetic interference/electromagnetic compatibility (EMI/EMC and ESD) applications at lower frequencies due to their superior dielectric loss factor values, associated with relevant behaviors around exploitation temperatures, mainly for the electric, electronic, or automotive industries. [ABSTRACT FROM AUTHOR]

Published

2023

29. Towards the definition of WEEE recycling targets in Ecuador. A case of study for mobile phones.

Author

Vidal, Iván, Sucozhañay, Gabriela, Haupt, Melanie, and Vanegas, Paúl

Subjects

CIRCULAR economy, ELECTRONICS recycling, LITERATURE reviews, ELECTRONIC equipment, CONSUMPTION (Economics), CELL phones

Abstract

The rise of consumption patterns of electrical and electronic equipment (EEE) and the generation of waste EEE (WEEE) has been strongly increasing globally. Recycling rates (RRs) are one of the main indicators for monitoring the progress towards a circular economy and establishing recovery and treatment schemes. For this reason, this study discusses the setting of recycling targets for WEEE in Ecuador, using mobile phones as a case study. Firstly, the generation of mobile phone waste from 2012 to 2018 is estimated based on literature review. The most appropriate model for estimating WEEE generation is selected according to the applicable market conditions, input requirements and available data. Then, the composition of a mobile phone is determined through an extensive literature review. Based on these results, the materials' environmental impact and potential economic value are approximated using the ReCiPe Endpoint (H, A) method and the prices of virgin materials, respectively. The estimation shows that in Ecuador an average of 2 million devices are discarded every year, which represents an interesting source of resources but currently does not have appropriate management. Ecuador has implemented regulatory frameworks in favour of the integral management of these wastes. However, mass-based collection targets still appear to be the only available measure. Therefore, national results on electronics recycling do not allow adequate monitoring of progress towards a circular economy and largely neglect environmental aspects and economic potential. [ABSTRACT FROM AUTHOR]

Published

2023

30. Precious Metal Recovery from Waste Electrical and Electronic Equipment through Oxidative Refining.

Author

Park, Eunmi, Kim, Minji, Pin, Min-Wook, Park, Hyunsik, and Kim, Yong-Hwan

Subjects

PRECIOUS metals, ELECTRONIC waste, WASTE recycling, ELECTRONIC waste management, ELECTRONICS recycling

Abstract

This study delves into the application of oxidative refining for the recovery and concentration of precious metals, namely palladium (Pd) and gold (Au), from waste electrical and electronic equipment by WEEE recycling, leveraging pyrometallurgical techniques. The primary objective is to optimize refining parameters, encompassing variations in gas pressure, temperature, and gas composition, to maximize the extraction and purification of precious metals from recycled materials. Through an array of comprehensive characterization techniques, encompassing microstructural analysis, elemental composition assessment, and metal concentration measurement, this study scrutinizes the potential of oxidative refining. The conclusive findings underscore the remarkable potential of oxidative refining in augmenting the efficiency and effectiveness of metal recovery from waste printed circuit boards (PCBs), with a pronounced emphasis on the concentration of Pd and Au. This research not only highlights the promise of oxidative refining but also concludes that optimizing process parameters, such as a N2/O2 mixed gas pressure of 4 L/min, a process time of 40 min, and a temperature of 1400 °C, is imperative for achieving the highest efficiency in metal recovery from electronic waste, especially precious metals like Pd and Au. It further contributes to the sustainable management of electronic waste and the strategic extraction of valuable precious metals. [ABSTRACT FROM AUTHOR]

Published

2023

31. A comprehensive review of the human body burden of persistent organic pollutants (POPs) and associated health effects in an e-waste recycling area in China.

Author

Huang, Wenlong, Huang, Yanhong, Chen, Yuequn, Tan, Wei, and Wu, Kusheng

Subjects

BODY burden, ELECTRONIC waste, ELECTRONICS recycling, PERSISTENT pollutants, HUMAN body, POLLUTION, WASTE recycling, INFANTS, PREMATURE infants

Abstract

Guiyu has been one of the world's largest destinations for electronic waste (e-waste) recycling for decades. The recyling process in Guiyu relied on informal and family-based activities, which have led to severe environmental pollution and associated extensive health problems. This review examines the connections between exposure to persistent organic pollutants (POPs) and health outcomes, particularly in neonates, children and pregnant women. The residents in Guiyu exhibit high levels of contamination from POPs, especially PBDEs, PAHs and PCBs. Excessive exposure to these compounds have been associated with multi-system and long-term effects in children, changes in gestational age in pregnant mothers, and adverse birth outcomes in neonates. The findings raise concerns about the impact of POPs stemming from e-waste recycling on human health, and contribute to a better understanding of the need for monitoring sources, distribution, and effects of e-waste related-POPs in other regions of China and similar sites worldwide. Highlights: Guiyu is infamous for its involvement in primitive e-waste recycling processes. Elevated human body burden of PBDEs, PAHs, PCBs and PFOA in Guiyu residents. POPs exposure has adverse effects on multiple organ systems of neonates and children. The review highlights strong regulations should be organized to address the problems. [ABSTRACT FROM AUTHOR]

Published

2023

32. Menace of informal waste electrical and electronic equipment recycling at MTN phone village, Rumukurushi, Port Harcourt, Nigeria.

Author

Okwu, O., Viza, E., Hursthouse, A., and Idoko, L.

Subjects

ELECTRONIC waste, ELECTRONICS recycling, CELL phones, ELECTRONIC equipment, TELEPHONE networks, PERSONAL protective equipment

Abstract

Waste electrical and electronic equipment has become a thing of great challenge in the city of Port Harcourt, Nigeria, and globally. Informal recyclers appear to be the key actors in this recycling sector in the location, but they lack the right skills and knowledge. This study sheds light on the consequences of informal recycling in the mobile telephone network phone village at Rumukurushi (a location believed to accommodate about 30 informal recyclers) in Port Harcourt. The level of education, health, and safety awareness of the informal recyclers, their willingness to obey government guidelines, and their knowledge of waste electrical and electronic equipment management were investigated. Data collection was achieved with the help of questionnaires and the analysis was done graphically. The outcome of the questionnaires administered to twenty-five (25) participants shows that the informal recyclers are more conversant with their primitive style of practice. They lack knowledge and awareness on waste electrical and electronic equipment management best practices. Other findings include the informal recyclers' lack of awareness on the use of personal protective equipment and the application of health and safety in the discharge of their duties. They are willing to obey government guidelines on waste electrical and electronic equipment management. Informal recyclers are willing to quit other waste electrical and electronic equipment management processes if they can be paid by the government for gathering them. The study recommends that the activities of the informal recyclers should be restricted to gathering only. [ABSTRACT FROM AUTHOR]

Published

2023

33. Prospective LCA of Waste Electrical and Electronic Equipment Thermo‐Chemical Recycling by Pyrolysis.

Author

Schulte, Anna, Lamb-Scheffler, Moema, Biessey, Philip, and Rieger, Tobias

Subjects

*ELECTRONIC waste, *ELECTRONICS recycling, *CHEMICAL recycling, *SUSTAINABILITY, *PRODUCT life cycle assessment

Abstract

Waste electrical and electronic equipment (WEEE) is a particularly difficult waste to manage, characterized by hazardous and valuable chemicals. Emerging chemical recycling technologies are developed to unveil the possibility of sustainable treatment providing valuable resources from WEEE. This study develops a framework for prospective life cycle assessment (LCA) to explore a range of future scenarios in which the technology can be operated with low environmental impact. This is demonstrated in a case study focusing on plastics from WEEE, which are currently predominantly incinerated. The results reveal environmental benefits by WEEE treated via chemical recycling. In terms of climate change impacts, the best‐case scenario of chemical recycling shows a reduction potential of 74 % compared to current treatment. [ABSTRACT FROM AUTHOR]

Published

2023

34. Hydrogeological Properties of Till Amended with Green Liquor Dregs (GLD): Recycling of an Industrial Residue for Reclamation of Acid Generating Mine Sites.

Author

Nigéus, Susanne, Maurice, Christian, and Lindblom, Jenny

Subjects

HYDRAULIC conductivity, MINE waste, WASTE management, PLANT residues, PARTICLE size distribution, SULFIDE minerals, ELECTRONICS recycling

Abstract

The oxidation of sulfide minerals in mine wastes is a possible threat to the environment as it might have potential to generate acid rock drainage (ARD). A common method to reduce ARD is to apply a dry cover on the mine waste deposit. Considering the massive amounts of mine waste produced in Sweden (104-million-ton in year 2018) there is a great need for suitable dry cover materials. Using non-hazardous industrial residues in the dry cover would be beneficial for both the mining industry and the providing industry as stricter waste management legislation incentivizes them to develop their waste management strategies. The objective of this study was to investigate if an addition of Green Liquor Dregs (GLD), a residue from pulp production, can decrease the hydraulic conductivity and increase the water retention capacity (WRC) of three different tills, with the purpose of improving the performance of a dry cover material on a mine waste deposit. Another objective was to investigate how the hydraulic conductivity and WRC are affected by the contents of fines and clays in the tills. The study concludes that the water retention capacity of the tills improves with GLD addition, however, the hydraulic conductivity did not decrease enough to reach the in Sweden required < 10−8 m/s. Even though, GLD could still successfully be used in the reclamation of mine sites as the high WRC can be seen as the most important factor in deterring acid rock drainage by keeping the sealing layer close to saturation. This study further indicates that there are other factors than the particle size distribution of the materials that controls the hydraulic conductivity of the mixtures, such as initial water content, dry density, and compaction effort. [ABSTRACT FROM AUTHOR]

Published

2023

35. Driving factors of e-waste recycling rate in 30 European countries: new evidence using a panel quantile regression of the EKC hypothesis coupled with the STIRPAT model.

Author

Boubellouta, Bilal and Kusch-Brandt, Sigrid

Subjects

ENERGY intensity (Economics), ELECTRONICS recycling, QUANTILE regression, ELECTRONIC waste, KUZNETS curve

Abstract

Recycling of e-waste (waste electrical and electronic equipment) represents an important abatement of pressure on the environment, but recycling rates are still low. This study builds on common environmental economics approaches to identify the main driving forces of the e-waste recycling rate. The environmental Kuznets curve hypothesis was applied in the context of the STIRPAT (stochastic impacts by regression on population, affluence and technology) model to analyze data from 30 European countries over the period 2008–2018. Panel quantile regression was conducted to determine the relationship between e-waste recycling rate and economic growth, population, population density, energy intensity, energy efficiency, credit to private sector and e-waste collected. Strong evidence was found that the relationship between economic growth and e-waste recycling rate is an N-shaped curve, i.e., the e-waste recycling rate first increases with economic growth, then decreases in maturing economies and in mature economies starts increasing again as the economy continues to grow. In addition to the economic development stage of a country, e-waste collection was identified as an important determinant of the e-waste recycling rate, regardless of whether the already achieved recycling rate was low, medium or high. In all models, a rise of the collected e-waste quantity was linked to an increase in the recycling rate. Therefore, expanding e-waste collection represents a priority task for policy makers to achieve high e-waste recycling rates. Population, energy intensity and credit to private sector also had an impact and in tendency displayed a negative effect on the e-waste recycling rate; however, the impact of these variables was more relevant for countries with particularly low e-waste recycling rates. [ABSTRACT FROM AUTHOR]

Published

2023

36. 废弃电子垃圾拆解地野生鸟类重金属暴露及肝脏病理 学改变.

Author

聂佑恬, 陶金玉, 李肖, 王光智, and 吴江平

Subjects

ELECTRONIC waste, HEAVY metals, POLLUTION, FATTY liver, COPPER, WASTE recycling, ELECTRONICS recycling

Abstract

Copyright of Asian Journals of Ecotoxicology is the property of Gai Kan Bian Wei Hui 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

2023

37. Study on the real-time object detection approach for end-of-life battery-powered electronics in the waste of electrical and electronic equipment recycling process.

Author

Woo Yang, Seok, Joon Park, Hyun, Sob Kim, Jin, Choi, Wonhee, Park, Jihwan, and Won Han, Sung

Subjects

*ELECTRONIC waste, *ELECTRONIC equipment, *ELECTRONICS recycling, *WASTE recycling, *DATA augmentation

Abstract

• Real-time object detection can be utilized to pre-separate EEEs. • Among 37 types of EEEs, 12 types of battery-powered EEE were sorted. • Image augmentation and transfer learning improved training and test efficiency. • YOLOv4-based backbone, precision rate showed ranging from 84.5% to 90.1%. With the growing use of electrical and electronic equipment (EEE), managing end-of-life EEE has become critical. Thus, the demand for sorting and detaching batteries from EEE in real time has increased. In this study, we investigated real-time object detection for sorting EEE, which using batteries, among numerous EEEs. To select products with batteries that have been mainly recycled, we crowd-sourced and gathered about 23,000 image datasets of the EEE with battery. Two learning techniques—data augmentation and transfer learning—were applied to resolve the limitations of the real-world data. We conducted YOLOv4-based experiments on the backbone and the resolution. Moreover, we defined this task as a binary classification problem; therefore, we recalculated the average precision (AP) scores from the network through postprocessing. We achieved battery-powered EEE detection scores of 90.1% and 84.5% at AP scores of 0.50 and 0.50–0.95, respectively. The results showed that this approach can provide practical and accurate information in the real world, hence encouraging the use of deep learning in the pre-sorting stage of the battery-powered EEE recycling industry. [ABSTRACT FROM AUTHOR]

Published

2023

38. The Development of Environmentally Sustainable Poly(vinyl chloride) Composite from Waste Non-Metallic Printed Circuit Board with Interfacial Agents.

Author

Moe, Aung Kyaw, Chungprempree, Jirasuta, Preechawong, Jitima, Sapsrithong, Pornsri, and Nithitanakul, Manit

Subjects

*VINYL chloride, *SUSTAINABLE development, *MALEIC anhydride, *DYNAMIC mechanical analysis, *YOUNG'S modulus, *ELECTRONICS recycling, *DENTAL materials

Abstract

The recycling of non-metallic printed circuit boards (NMPCB) as a filler in poly(vinyl chloride) (PVC) composite would help to encourage the use of waste NMPCB, thus, reducing some environmental concerns with regard to e-waste. The objective of this study was to comprehensively evaluate the effect of different interfacial agents, namely polypropylene grafted maleic anhydride (PP-g-MAH) and ϒ-aminopropyltriethoxy silane (ATPS) on the morphology and properties of PVC/NMPCB composites. A PVC/NMPCB composite was prepared by melt compounding with varying amounts of NMPCB ranging between 10, 20 and 30 wt.%. Fourier transform infrared spectroscopy–attenuated total reflectance (FTIR–ATR) analysis revealed the interactions between PVC and NMPCB when using both PP-g-MAH and ATPS interfacial agent. The properties and morphology of PVC/NMPCB composites were significantly dependent on the interfacial agent treated on the NMPCB surface. The phase morphology and mechanical properties of PVC/NMPCB composites (30 wt.% of NMPCB) were improved and the result also indicated that the higher compatibility of composites with ATPS as an interfacial agent led to our obtaining the maximum Young's modulus of 484 MPa. The dynamic mechanical analysis revealed the interaction at the interface, with the Tg shifting to a lower temperature in the presence of PP-g-MAH and strong interfacial adhesion noted with the improved Tg in the presence of the ATPS interfacial agent. Further evidence of the improved interaction was observed with the increment in density in the presence of ATPS when compared with PP-g-MAH in PVC/NMPCB composite. Hence, of the two interfacial agents, ATPS showed itself to be more effective when employed as an interfacial agent for NMPCB in PVC composite for industry. [ABSTRACT FROM AUTHOR]

Published

2023

39. Human health risk associated with metal exposure at Agbogbloshie e-waste site and the surrounding neighbourhood in Accra, Ghana.

Author

Dodd, Matt, Amponsah, Lydia Otoo, Grundy, Stephen, and Darko, Godfred

Subjects

ELECTRONICS recycling, ELECTRONIC waste, COPPER, NEIGHBORHOODS, METALS, ENVIRONMENTAL quality, HEAVY metals

Abstract

Agbogbloshie in Accra, Ghana, was a center for informal e-waste recycling until it was closed recently. This study investigated the potential health risks of toxic metals (including As, Cd, Cu, Ni, Pb, Sb, and Zn) found in the surface soils based on their concentrations and in vitro bioaccessibility. Mean concentrations at the burning sites were As: 218; Cd: 65; Cr: 182; Cu: 15,841; Ni: 145; Pb: 6,106; Sb: 552; and Zn: 16,065 mg/kg while the dismantling sites had mean concentrations of As: 23; Cd: 38; Cr: 342; Cu: 3239; Ni: 96; Pb: 681; Sb: 104; and Zn: 1658 mg/kg. The findings confirmed the enrichment of potentially toxic metals at the dismantling and burning sites, exceeding international environmental soil quality guidelines. Based on the total metal concentrations, bioaccessibility, and calculated risk indices, the risks associated with incidental ingestion of soil-borne metal contaminants at the dismantling and burning sites were very high. Despite evidence of higher metal concentrations in the communities near the burning and dismantling sites, the human health risk associated with soil ingestion was significantly lower in the surrounding neighborhood. [ABSTRACT FROM AUTHOR]

Published

2023

40. A human-machine interaction framework for identifying factors influential consumer participation in e-waste treatment schemes.

Author

Nowruzi, Sasan, Shokouhyar, Sajjad, Dehghan, Omid, Nezafati, Navid, and Shokoohyar, Sina

Subjects

ELECTRONIC waste management, TEXT mining, CONSUMERS, ELECTRONICS recycling, WASTE treatment, ELECTRONIC waste, PARTICIPATION

Abstract

This study aims to reveal the factors of consumer participation in official electronic and electrical waste treatment schemes based on practical approaches. An intelligent text analysis technique was employed to interact between consumers, the industrial sector, and the government. With this framework, complex calculations can be performed on textual web data, with an analyst directing the process toward accurate and detailed results. An analysis of Web reports was conducted to determine how industry and government handle consumer demand in practice. The current research approach allows tracking various entities in sustainable electronic waste management and their related trends. A total of 743 web reports were selected and analyzed according to the criteria chosen by the authors. The results revealed that elements related to awareness, costs, incentives, security, information, trust, and convenience affect consumer participation. These factors have been the approaches of the industry and the government to attract the participation of consumers. [ABSTRACT FROM AUTHOR]

Published

2023

41. Occupational health and safety, metal exposures and multi-exposures health risk in Canadian electronic waste recycling facilities.

Author

Gravel, Sabrina, Roberge, Brigitte, Calosso, Mickaël, Gagné, Sébastien, Lavoie, Jacques, and Labrèche, France

Subjects

*INDUSTRIAL hygiene, *ELECTRONICS recycling, *WASTE recycling, *ELECTRONIC waste, *HEAVY metals, *CATHODE ray tubes, *LEAD, *CADMIUM, *COPPER oxide films

Abstract

• Electronic recycling exposes workers to toxic metals, e.g. lead, cadmium and nickel. • Metals and dust concentrations are associated with the volume of materials treated. • Dismantling of cathode ray tubes generates more lead and yttrium than other devices. • Exposures to metal mixtures increase risk of renal and nervous system disorders. • Occupational health & safety practices are inadequate in most facilities. Electronic waste recycling (e-recycling) involves manual operations that expose workers to toxic metals. We aim to describe occupational health and safety practices and workers' exposures to metals in the Canadian formal e-recycling industry, and to estimate the health risk associated with multiple exposures. This cross-sectional study documented practices through observations and questionnaires, and assessed metal exposures using personal air samples and biomarkers. Health risks were estimated relative to recognised occupational exposure guidelines, and using an additive approach for consideration of multiple exposures. Six e-recycling and one commercial recycling facilities were investigated, and the metal exposures of 99 workers (23 women) were measured. In most facilities, dust control was inadequate and personal protective equipment was improperly worn. In e-recycling, lead was detected in all air samples and in most blood samples, up to 48 µg/m3 and 136 µg/l, respectively. Other quantified metals included beryllium, mercury, arsenic, barium, cadmium, chrome, cobalt, copper, indium, manganese, nickel and yttrium. When handling cathode ray tube screens, workers were 4.9 times and 8.5 times more likely to be exposed to lead and yttrium, respectively, than workers who were not assigned to a specific type of electronics. Overall, exposures were largely associated with facility size and airborne dust concentration. The additive hazard indices for airborne exposures raised concerns for kidney disorders, for peripheral and central nervous systems, and for the male reproductive system. Minimizing airborne dust through collective control methods and adequately using personal protection should reduce metal exposures and associated health risks in this growing industry. [ABSTRACT FROM AUTHOR]

Published

2023

42. Multiscale investigation of the fate of silver during printed paper electronics recycling.

Author

Zareeipolgardani, Bahareh, Piednoir, Agnès, Joyard-Pitiot, Blandine, Depres, Gael, Charlet, Laurent, and Colombani, Jean

Subjects

*ELECTRONICS recycling, *PRINTED electronics, *PAPER recycling, *RECYCLED paper, *ATOMIC force microscopy, *SILVER

Abstract

The use of printed paper electronics in consumer goods is expected to experience a mass development in the next future. The ink used in these devices contains silver nanomaterials that may be released into the environment at the product end-of-life. We report here the first evaluation of the fate of silver during a pilot-scale recycling of printed paper electronics, made of paper printed with a cellulose nanofibrils-silver nanowire ink. We show that the released effluents are mainly free from silver, which is retained in the pulp conserved for recycling. We use atomic force microscopy experiments to show that this strong pulp-silver bond is due to the embedding of the silver nanowires in the pulp by coils of cellulose nanofibrils. We propose an estimate of the resulting adhesion stress of the nanowires to the ink, high enough to keep the silver inside the pulp during the recycling procedure. [ABSTRACT FROM AUTHOR]

Published

2023

43. SIMBIOSE INDUSTRIAL COMO MODELO DE GESTÃO DE RESÍDUOS ELETROELETRÔNICOS: ESTUDO DE CASO.

Author

Yokoyama, Rodrigo, Pierre Irazusta, Sílvia, and Hideo Arima, Carlos

Subjects

ENVIRONMENTAL, social, & governance factors, GLASS waste, POLLUTION, ELECTRONIC waste, INDUSTRIAL ecology, PLASTIC scrap recycling, ELECTRONICS recycling

Abstract

Copyright of Revista Foco (Interdisciplinary Studies Journal) is the property of Revista Foco 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

2023

44. A review on management practices, environmental impacts, and human exposure risks related to electrical and electronic waste in Vietnam: findings from case studies in informal e-waste recycling areas.

Author

Hoang, Anh Quoc, Tue, Nguyen Minh, Tu, Minh Binh, Suzuki, Go, Matsukami, Hidenori, Tuyen, Le Huu, Viet, Pham Hung, Kunisue, Tatsuya, Sakai, Shin-ichi, and Takahashi, Shin

Subjects

ELECTRONICS recycling, ELECTRONIC waste, RECYCLING management, TOXIC substance exposure, ENVIRONMENTAL health, RISK exposure

Abstract

Electrical and electronic waste (e-waste) has become a global concern, especially in developing countries. In this review, we conducted a literature survey of e-waste management practices, processing activities, and adverse effects in Vietnam, an emerging country in Southeast Asia, by gathering data from peer-reviewed articles published between 2009 and 2021. This is the first review paper to comprehensively discuss management and research aspects regarding e-waste in an Asian developing country. Due to the lack of an effective management and recycling system, a certain portion of Vietnamese e-waste has been processed by informal sectors without appropriate recycling and pollution control technology, resulting in localized contamination and human exposure to toxic chemicals. Primitive processing activities, such as manual dismantling, open burning, and plastic recycling, have been identified as important contributors to the environmental emission and human exposure to toxic elements (notably As, Mn, Ni, Pb, Zn) and organic pollutants like flame retardants, PAHs, PCBs, and dioxin-related compounds. Informal e-waste processing from these small-scale workshops can release pollutants at similar levels compared to large-scale facilities in developed countries. This fact suggests an urgent need to develop management best practices for e-waste in Vietnam as well as other emerging and developing countries, in order to increase recycling efficiency and minimize their adverse impacts on environmental and human health. [ABSTRACT FROM AUTHOR]

Published

2023

45. Material Flow Cost Accounting as a Resource-Saving Tool for Emerging Recycling Technologies.

Author

Walls, Caitlin, Putri, Almy Ruzni Keumala, and Beck, Gesa

Subjects

COST accounting, ELECTRONIC waste, ADAPTIVE natural resource management, WASTE recycling, ENVIRONMENTAL auditing, MANAGERIAL accounting, ELECTRONICS recycling, POPULATION viability analysis, FOOD chains

Abstract

Material Flow Cost Accounting (MFCA) is an environmental management accounting method that allocates costs to material and energy flows through a process, thereby enabling a simultaneous reduction in environmental impacts alongside an improvement in business and economic efficiency. This study illustrates the versatility of MFCA beyond its usual application to existing production and manufacturing processes. In this paper, MFCA is used to assess the financial viability of two emerging recycling technologies, IRETA2 (Development and Evaluation of Recycling Routes to Recover Tantalum from Electronic Waste) and ReComp (Development of an Innovative, Economically and Ecologically Sensible Recycling Method for Metallised ABS and PC/ABS Composite Waste). These two projects differ in their process structure. Whilst IRETA2 is a strictly linear recycling process, ReComp consists of two process streams, split according to the treatment of its two material fractions. For both projects, the lab-scale experimental results were used to develop an MFCA model of the recycling process scaled at each project partner's facilities. MFCA was utilised to calculate the projects' overall profit or loss, the impact of the final products' market conditions and processing rate (in the case of IRETA2), or machinery capacity (for ReComp) on the overall results. The results show that neither IRETA2 nor ReComp are financially viable based on the current output products' market value and quantity produced. However, through a sensitivity analysis, it is demonstrated that IRETA2 could become financially viable if the processing rate or market conditions were to improve. Additionally, ReComp could become financially viable if there was an increase in machine capacity. Finally, this paper also explores possible implications of MFCA when applied to emerging recycling technologies on EU policy and strategy, particularly those related to the EU Green Deal, such as extended producer responsibility and supply chain acts. [ABSTRACT FROM AUTHOR]

Published

2023

46. Analysis on trade-in strategy of manufacturers competing with informal recycling enterprises.

Author

Shi, Ping and Chen, Xi

Subjects

MANUFACTURING industries, PROFIT margins, WASTE recycling, PRICES, MARKET share, BUSINESS enterprises, ELECTRONICS recycling

Abstract

Considering the competition of informal recycling enterprises in the waste and old product recycling market, this paper analyzes the trade-in strategy of manufacturers and discusses the effect of implementing trade-in on the competition in the recycling market by comparing changes in recycling market shares, recycling prices, and profits before and after the implementation of a trade-in program. Without a trade-in program, manufacturers are always in an inferior position in the competition with informal recycling enterprises in the recycling market. With the implementation of a trade-in program, the recycling prices provided by manufacturers and shares of recycling market of manufacturers not only increase with the earnings of processing a unit old product, but also increase with the total profit margin of sales of new products and recycling of old products. The implementation of a trade-in program can enhance the competitiveness of manufacturers in their competition with informal recycling enterprises, causing manufacturers to obtain more shares and profits in the recycling market, and promoting the healthy and sustainable development of manufacturers in the sale of new products and the recycling of old products. [ABSTRACT FROM AUTHOR]

Published

2023

47. Assessment of sustainable waste management alternatives using the extensions of the base criterion method and combined compromise solution based on the fuzzy Z-numbers.

Author

Zafaranlouei, Nafiseh, Ghoushchi, Saeid Jafarzadeh, and Haseli, Gholamreza

Subjects

WASTE management, INDUSTRIAL wastes, METAL wastes, ELECTRONIC waste, WASTE recycling, MEDICAL waste disposal, ELECTRONICS recycling

Abstract

A number of factors have contributed to the increase in waste production and diversity of waste, such as the increase in population, alterations in consumption patterns, economic development, income changes, urbanization, and industrialization. The production of different types of waste, such as electronic, urban, hospital, and industrial waste, makes it necessary to classify waste accurately and recognize effective criteria for waste management. To design and operate waste management systems, it is necessary to understand the sources and types of waste, as well as information about their composition and rate of production. As a result, this study aims to rank 21 types of waste according to Iran's economic, social, and environmental criteria, as well as 13 sub-criteria related to those criteria. For this aim, proposed a novel decision-making approach based on the extension of the base criterion method (BCM) and combined compromise solution (CoCoSo) methods under fuzzy Z-numbers. Additionally, sensitivity analysis and comprehensive analysis are conducted on the results of the criteria and alternatives of sustainable waste management. Based on the results of this study, direct profit and reduced landfill are the most important criteria for assessing sustainable waste management alternatives. According to the results of this study, the sub-alternative of industrial metal waste is the most important waste management option. Examining the next sub-alternative ranks under sustainable waste management options (mobile, communication equipment, and battery) shows that electronic waste requires more attention for recycling and sustainable waste management. [ABSTRACT FROM AUTHOR]

Published

2023

48. Comparative Evaluation of the Cytotoxic Effects of Metal Oxide and Metalloid Oxide Nanoparticles: An Experimental Study.

Author

Sutunkova, Marina P., Klinova, Svetlana V., Ryabova, Yuliya V., Tazhigulova, Anastasiya V., Minigalieva, Ilzira A., Shabardina, Lada V., Solovyeva, Svetlana N., Bushueva, Tatiana V., and Privalova, Larisa I.

Subjects

*METALLIC oxides, *SEMIMETALS, *LEAD oxides, *ELECTRONICS recycling, *ENDOENZYMES, *LASER ablation, *NANOPARTICLES

Abstract

Industrial production generates aerosols of complex composition, including an ultrafine fraction. This is typical for mining and metallurgical industries, welding processes, and the production and recycling of electronics, batteries, etc. Since nano-sized particles are the most dangerous component of inhaled air, in this study we aimed to establish the impact of the chemical nature and dose of nanoparticles on their cytotoxicity. Suspensions of CuO, PbO, CdO, Fe2O3, NiO, SiO2, Mn3O4, and SeO nanoparticles were obtained by laser ablation. The experiments were conducted on outbred female albino rats. We carried out four series of a single intratracheal instillation of nanoparticles of different chemical natures at doses ranging from 0.2 to 0.5 mg per animal. Bronchoalveolar lavage was taken 24 h after the injection to assess its cytological and biochemical parameters. At a dose of 0.5 mg per animal, cytotoxicity in the series of nanoparticles changed as follows (in decreasing order): CuO NPs > PbO NPs > CdO NPs > NiO NPs > SiO2 NPs > Fe2O3 NPs. At a lower dose of 0.25 mg per animal, we observed a different pattern of cytotoxicity of the element oxides under study: NiO NPs > Mn3O4 NPs > CuO NPs > SeO NPs. We established that the cytotoxicity increased non-linearly with the increase in the dose of nanoparticles of the same chemical element (from 0 to 0.5 mg per animal). An increase in the levels of intracellular enzymes (amylase, AST, ALT, LDH) in the supernatant of the bronchoalveolar lavage fluid indicated a cytotoxic effect of nanoparticles. Thus, alterations in the cytological parameters of the bronchoalveolar lavage and the biochemical characteristics of the supernatant can be used to predict the danger of new nanomaterials based on their comparative assessment with the available tested samples of nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2023

49. Cryptomelane Modified Biomass Wastes for Solar Interfacial Evaporation and Stabilization of Cadmium.

Author

Zhang, Baoyu, Fan, Chenzi, Guo, Wei, and Zhu, Yun

Subjects

CADMIUM, EVAPORATIVE power, BIOMASS, CARBONIZATION, WORK design, PHOTOTHERMAL conversion, ELECTRONICS recycling

Abstract

In this work, after carbonization of two biomass wastes, rice husk and coconut husk, they were modified by hydrothermally synthesized cryptomelane manganese and prepared into a solar interfacial evaporation system to explore their evaporation performance and stabilization performance of cadmium. The results demonstrate that the cryptomelane-modified biochar can obtain an evaporation rate of 1.247 kg m−2 h−1 and a photothermal conversion efficiency of 89.36% under one sun (1 kW m−2). In an outdoor experiment with an average solar power density of only 465.22W m−2, the evaporation capacity reached 4.7 kg m−2 and the evaporation rate reached 0.78 kg m−2 h−1 within 6 h. The cadmium adsorption capacity of biomass waste modified by manganese potassium ore increased by 50.94%, which could be well used for long-term stabilization and recycling of Cd. It could be verified that the cryptomelane-modified biochar material is a low-cost, scalable, and efficient material for interfacial evaporation and reduce wastewater pollution. The evaporation system designed in this work is a feasible way to obtain clean water and solve wastewater problems in the future. [ABSTRACT FROM AUTHOR]

Published

2023

50. Impact of E-Waste Toxicity on Health and Nature: Trends, Biases, and Future Directions.

Author

Silva, Junilson Augusto Paula, Lima, Gabriela Gomes, Camilo-Cotrim, Carlos Filipe, Bailão, Elisa Flávia Luiz Cardoso, Caramori, Samantha Salomão, Nabout, João Carlos, and Almeida, Luciane Madureira

Subjects

ELECTRONICS recycling, ELECTRONIC waste, SCIENTIFIC literature, LIQUID crystal displays, POISONS, POLYBROMINATED diphenyl ethers, TELECOMMUNICATION equipment

Abstract

Currently, electronic waste (e-waste) is grossly overproduced and only a few recycling programs exist. Improper e-waste destinations have a negative impact on the environment and human health because they contain several potentially toxic substances. Scientific publications on this topic have also grown over the years, necessitating a systematic literature review to identify trends and gaps in research. We performed a systematic review of the scientific literature on the toxic effects of e-waste and its adverse environmental impacts. We searched the literature using the Web of Science and Scopus databases, and 335 articles were selected after applying the exclusion criteria. The e-waste class most studied in the articles was the small IT and Telecommunication equipment, and the trashes most cited were cell phones, printed circuit boards, and liquid crystal display (LCD) panels. The heavy metals most associated with toxicity were Pb and Cd, whereas polybrominated diphenyl ethers were the most cited organic components. In addition, we identified the different uses of bioassays to evaluate the toxic potential of e-waste in soil and water. In contrast, a few articles introduced alternative strategies for e-waste toxicity by bioremediation and educational research. Regarding human exposure, all articles demonstrated the hazardous effect of e-waste on health; however, studies include methodological difficulties, such as short-term surveys with a few volunteers, various pollutants, and different evaluated endpoints. These data gaps in the evaluation of exposure and long-term effects will narrow when collaborative studies including distinct fields are published, and the involvement of government agencies will regulate the production, discard, and recycle electronic wastes. [ABSTRACT FROM AUTHOR]

Published

2023