Asia and the Global Economy, Journal Year: 2024, Volume and Issue: 5(1), P. 100102 - 100102
Published: Dec. 18, 2024
Language: Английский
Processes, Journal Year: 2024, Volume and Issue: 12(10), P. 2203 - 2203
Published: Oct. 10, 2024
The integration of lithium into technological applications has profoundly influenced human development, particularly in energy storage systems like lithium-ion batteries. With global demand for surging alongside advancements, the sustainable extraction and recovery this critical material have become increasingly vital. This paper explores lithium’s role, its chemical properties, environmental economic considerations associated with recovery. We examine various methods, including conventional techniques such as hydrometallurgy, pyrometallurgy, direct physical recycling, well emerging technologies mechanochemistry, ion pumping, bioleaching while emphasizing need practices to address challenges. review also discusses challenges future directions Advances technology streamlined processes spurred development innovative techniques. concludes an emphasis on further research essential deepen our understanding their strengths limitations, explore new strategies meet growing indispensable resource.
Language: Английский
Citations
11
Batteries, Journal Year: 2024, Volume and Issue: 10(12), P. 440 - 440
Published: Dec. 11, 2024
Battery recycling has become increasingly crucial in mitigating environmental pollution and conserving valuable resources. As demand for battery-powered devices rises across industries like automotive, electronics, renewable energy, efficient is essential. Traditional methods, often reliant on manual labor, suffer from inefficiencies harm. However, recent artificial intelligence (AI) advancements offer promising solutions to these challenges. This paper reviews the latest developments AI applications battery recycling, focusing methodologies, challenges, future directions. technologies, particularly machine learning deep models, are revolutionizing sorting, classification, disassembly processes. AI-powered systems enhance efficiency by automating tasks such as identification, material characterization, robotic disassembly, reducing human error occupational hazards. Additionally, integrating with advanced sensing technologies computer vision, spectroscopy, X-ray imaging allows precise characterization real-time monitoring, optimizing strategies recovery rates. Despite advancements, data quality, scalability, regulatory compliance must be addressed realize AI’s full potential recycling. Collaborative efforts interdisciplinary domains essential develop robust, scalable AI-driven solutions, paving way a sustainable, circular economy materials.
Language: Английский
Citations
4
Recycling, Journal Year: 2025, Volume and Issue: 10(2), P. 48 - 48
Published: March 19, 2025
This semi-systematic review paper discusses four research questions based on findings from the last 10 years: What are crucial issues in ongoing debate development of electric vehicle (EV) concept? Where major conflicting points and focuses between sustainable economy EVs? How does mining metals minerals follow current zero-waste sustainability trends, how prediction magnitude future demand for EV batteries guide strategic decision-making policies throughout globe? As it is not easy to currently predict necessary productions will be produced, this article suggests a strategy that diverse regarding its approaches shaping further EVs, along with involvement urban planning. Using broad literature published pool scenarios, we provide comprehensive assessment battery raw materials under range accounting factors such as developments technology, variations fleet composition, aspects second use recycling technologies. Additionally, demonstrates blockchain technology likely force mineral metal supply chains become significantly more traceable transparent.
Language: Английский
Citations
0
Recycling, Journal Year: 2025, Volume and Issue: 10(2), P. 72 - 72
Published: April 14, 2025
Electronic waste (e-waste) is the fastest-growing stream on planet, yet it remains critically under-addressed in global management and recycling efforts. The rapid pace of technological advancement has led to increased consumption electronic devices, many which are challenging costly recycle efficiently. Insufficient infrastructure for e-waste resulted large quantities being exported countries with minimal capabilities. In these regions, often processed manually, exposing workers hazardous materials toxic elements commonly found components, leading serious health risks. E-waste consists primarily fibrous composite plastics mixed valuable metals reusable components. While recovered, remaining typically discarded, contributing significant environmental harm. Addressing challenges requires more than just solutions. United States, limited policies promote large-scale reuse practices, particularly among corporations. To build a sustainable approach, combination next-generation, cost-effective chemical technologies forward-thinking policy reforms will be essential effective reduction e-waste. This paper explores generation composition e-waste, highlighting its impacts due improper handling disposal. It reviews current emerging while examining opportunities management. Finally, discusses solutions future directions improving through innovative reforms, concluding recommendations circular economy approach.
Language: Английский
Citations
0
Renewable and Sustainable Energy Reviews, Journal Year: 2025, Volume and Issue: 216, P. 115671 - 115671
Published: April 6, 2025
Language: Английский
Citations
0
Asia and the Global Economy, Journal Year: 2024, Volume and Issue: 5(1), P. 100102 - 100102
Published: Dec. 18, 2024
Language: Английский
Citations
0