Intelligent disassembly of electric-vehicle batteries: a forward
Based on the public, community, and private clouds, all the stakeholders in the EV-LIB disassembly chain, from EV and LIB designer to the EV-LIB recovery firms, are
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Intelligent disassembly of electric-vehicle batteries: a forward
This work examines the key advances and research opportunities of emerging intelligent technologies for EV-LIB disassembly, and recycling and reuse of industrial products in general. We show that AI could benefit the whole disassembly process, particularly addressing the uncertainty and safety issues. Currently, EV-LIB state prognostics
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Rethinking circular economy for electronics, energy storage, and
Opportunities for improved circularity include design for disassembly through modular approaches, development of materials for substitution, fabrication efficiency through novel selective synthesis of metals, high-throughput manufacturing of precision devices, and manufacturing processes that enable use of recycled materials for product.
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Industrial disassembling as a key enabler of circular economy
In this paper, we argue for the need of industrial disassembly systems to reach higher levels of circularity. In the best case, these systems are highly automated and use lifecycle information...
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Energy storage power recycling and disassembly
Energy storage product disassembly companies are essential for sustainable waste management, resource recovery, and environmental conservation. These companies focus on dismantling
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Enhancing Disassembly Practices for Electric Vehicle Battery
In the context of current societal challenges, such as climate neutrality, industry digitization, and circular economy, this paper addresses the importance of improving recycling
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A Systematic Review on Lithium-Ion Battery
Recycling plays a crucial role in achieving a sustainable production chain for lithium-ion batteries (LIBs), as it reduces the demand for primary mineral resources and mitigates environmental pollution caused by
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Rethinking circular economy for electronics, energy
Opportunities for improved circularity include design for disassembly through modular approaches, development of materials for substitution, fabrication efficiency through novel selective synthesis of metals,
Get a quote
Energy storage power recycling and disassembly
Energy storage product disassembly companies are essential for sustainable waste management, resource recovery, and environmental conservation. These companies focus on dismantling energy storage devices, primarily batteries, to recover valuable materials, recycle components, and ensure safe disposal. Page 2/4
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Intelligent disassembly of electric-vehicle batteries: a forward
This work examines the key advances and research opportunities of emerging intelligent technologies for EV-LIB disassembly, and recycling and reuse of industrial products
Get a quote
disassembly of the energy storage industry chain
Energy Storage Industry Outlook from 2024 to 2029. Driven by technological innovation, improvements in the industrial chain, policy support, and evolving market mechanisms, the
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Industrial disassembling as a key enabler of circular economy
In this paper, we argue for the need of industrial disassembly systems to reach higher levels of circularity. In the best case, these systems are highly automated and use lifecycle information including production and use-phase data for decision support to enable optimum utilization at a module or even cell level. These pathways include both
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Intelligent disassembly of electric-vehicle batteries: a forward
Based on the public, community, and private clouds, all the stakeholders in the EV-LIB disassembly chain, from EV and LIB designer to the EV-LIB recovery firms, are connected to share the data and knowledge, optimize the utilization of disassembly resources and capacity, and improve the collection and disassembly service. Various software
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A Systematic Review on Lithium-Ion Battery Disassembly
Recycling plays a crucial role in achieving a sustainable production chain for lithium-ion batteries (LIBs), as it reduces the demand for primary mineral resources and mitigates environmental pollution caused by improper disposal.
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Analysis of industrial chain issues in the energy storage system
As the core link in the energy storage industry chain, energy storage system integration (ESS) connects upstream equipment providers and downstream energy storage system owners, becoming a battleground for energy storage manufacturers.
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Enhancing Disassembly Practices for Electric Vehicle Battery
In the context of current societal challenges, such as climate neutrality, industry digitization, and circular economy, this paper addresses the importance of improving recycling practices for electric vehicle (EV) battery packs, with a
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Analysis of industrial chain issues in the energy storage
As the core link in the energy storage industry chain, energy storage system integration (ESS) connects upstream equipment providers and downstream energy storage system owners, becoming a battleground for
Get a quote
Industrial disassembling as a key enabler of circular economy
In this paper, we argue for the need of industrial disassembly systems to reach higher levels of circularity. In the best case, these systems are highly automated and use
Get a quote
disassembly of the energy storage industry chain
Energy Storage Industry Outlook from 2024 to 2029. Driven by technological innovation, improvements in the industrial chain, policy support, and evolving market mechanisms, the proliferation of energy storage
Get a quote6 FAQs about [Disassembly of the energy storage industry chain]
How can intelligent disassembly systems be sustainable?
The sustainable design of the intelligent disassembly system requires the assessment and auditing of its lifecycle impacts. The carbon emission should be monitored and reported during the operation to optimize its energy performance for meeting the environmental sustainability goal.
What is disassembly sequence and strategies?
Since majority of the publication is dedicated to the analysis and design of the disassembly sequence, the disassembly activities are considered as a case study to support the planning approach. Thus, this research was categorized as “Disassembly Sequence and Strategies”. 4. Results
What are the challenges of disassembly?
The research in this field has primarily centered around four key disassembly challenges: evaluating the disassembly process, developing disassembly cells, devising disassembly motions and sequences, and employing intelligent sensors and flexible actuators for product disassembly.
Why is disassembly important in the recycling process?
Disassembly is an essential step in this recycling process chain. The spent batteries should be handled according to an optimal disassembly strategy to ensure a safe, economical, and environmentally friendly dismantling process. Therefore, the planning of the dismantling sequence and strategy is of major importance.
Why do EV-libs need automated disassembly?
Such fine disassembly enables recovering the cathode/anode at the cell level and reclaiming all the other components in the pack and modules. Because of the tremendous amount of soon-to-be retired EV-LIBs, automated disassembly is a natural development to improve handling efficiency and quality.
Is automated disassembly a viable solution for electronic waste recycling?
The progress of automation in electronic waste recycling’s disassembly processes is hindered by the lack of automated procedures for screw detection and removal. A generic solution for automated disassembly, particularly for detecting screws, is urgently needed due to the diverse range of electronic device variants [ 73 ].
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