采用LCA法对磷酸铁锂电池从生产到回收5个阶段的环境影响进行计算,分析了4个场景下的全球变暖潜值(GWP)、细颗粒物形成(FPMF)、酸化潜值(TA)、海洋富营养化潜值(MEP)和化石资源稀缺值(FRS),并对能耗、充放电效率等参数进行了敏感性分析。 LCC法通过计算系统的净现值(NPV)和平准化度电成本(LCOE)进行分析,对影响LCOE的参数如储能效率、放
Customer ServiceFirst, the cost types of the cascade energy storage system are analyzed, and its cost sensitivity parameters are analyzed using the levelized cost model. Second, it analyzes the current state
Customer ServiceHowever, the cascade utilization of power batteries could alleviate recycling pressure and environmental pollution while maximizing the full life cycle of the battery, which is crucial for low-carbon emissions, energy savings, and environmental protection.
Customer ServiceCascade utilization of retired batteries is realized via reliable technology, which can be divided into two main technical routes: single battery cascade utilization and battery module cascade utilization. The former process involves disassembling a retired battery module into individual batteries. Based on the discussion of cathode material degradation mechanisms
Customer ServiceThis study explores the influence of cascade utilization and Extended Producer Responsibility (EPR) regulation on the closed-loop supply chain of power batteries. Three
Customer ServiceDownload scientific diagram | Decision diagram of power battery cascade utilization. from publication: Dynamic Strategy of Power Battery Closed-Loop Supply Chain Considering Cascade Utilization
Customer ServiceWith the increase of the unit remanufacturing cost of waste batteries, the price of cascade utilization products sold by cascade users increases and the recycling efforts of manufacturers, distributors and cascade users increase and both the cost of discarded power batteries that manufacturers recycle and the wholesale price of brand-new
Customer ServiceHome > NEWS > Cascade Utilization of Battery . Cascade Utilization of Battery. 2021-04-19. Echelon utilization refers to the continuous use process in which a used product has reached the original design life, and then its functions are fully or partially restored through other methods, and this process belongs to the basic same-level or degraded application. " Escalation utilization "
Customer ServiceRecycling end-of-life electric vehicles (EVs) batteries to conserve resources and reduce carbon emissions has obtained a great deal of concern. This paper studied how carbon cap-and-trade and reward-penalty measures jointly impacted EV battery pricing and
Customer ServiceIn order to sustainably manage retired traction batteries, a dynamic urban metabolism model, considering battery replacement and its retirement with end-of-life vehicles, was employed to predict their volume in China by 2050, and the relevant cascade use potential to store energy generated by wind and solar power was evaluated, including
Customer ServicePower Battery Recycling Supply Chain Network Planning Considering Cascade Utilization Jia Le*, Yongji Jia Glorious Sun School of Business and Management, Donghua University, Shanghai Received: Nov. 6th, 2023; accepted: Jan. 4th, 2024; published: Jan. 15th, 2024 Abstract Based on the "double carbon" goal, planning the power battery recycling supply chain network
Customer Service采用LCA法对磷酸铁锂电池从生产到回收5个阶段的环境影响进行计算,分析了4个场景下的全球变暖潜值(GWP)、细颗粒物形成(FPMF)、酸化潜值(TA)、海洋富营养化潜值(MEP)
Customer ServiceFirst, the cost types of the cascade energy storage system are analyzed, and its cost sensitivity parameters are analyzed using the levelized cost model. Second, it analyzes the current state of echelon usage of decommissioned batteries and discusses the development trend of key echelon usage technologies. Finally, it analyzes the boundary
Customer Service采用LCA 法对磷酸铁锂电池从生产到回收5 个阶段的环境影响进行计算,分析了4个场景下的全球变暖潜值(GWP)、细颗粒物形成(FPMF)、酸化潜值(TA)、海洋富营养化潜值(MEP)和化石资源稀缺值(FRS),并对能耗、充放电效率等参数进行了敏感性分析。 LCC 法通过计算系统的净现值(NPV)和平准化度电成本(LCOE)进行分析,对影响LCOE 的参数如储能效率、放电深度等进行了敏感性分
Customer ServiceThe review focuses on: 1) environmental risks of LFP batteries, 2) cascade utilization, 3) separation of cathode material and aluminium foil, 4) lithium (Li) extraction technologies, and 5) regeneration and transformation of cathode materials. Detailed analyses are elaborated with case examples and technical challenges. Our critical analysis demonstrates
Customer ServiceRecycling end-of-life electric vehicles (EVs) batteries to conserve resources and reduce carbon emissions has obtained a great deal of concern. This paper studied how carbon cap-and-trade and reward-penalty measures jointly impacted EV battery pricing and decarbonization strategies.
Customer ServiceIn order to sustainably manage retired traction batteries, a dynamic urban metabolism model, considering battery replacement and its retirement with end-of-life vehicles,
Customer ServiceThe Chinese giant, known for its substantial strides in the EV market, is now targeting a 15% reduction in battery costs with its next-generation Blade Battery 2.0. This move could potentially accelerate the global shift from fossil fuel to electric power, making EVs more accessible and economically viable for millions.
Customer ServiceIn this article, an active equalization method for cascade utilization lithium battery pack with online measurement of electrochemical impedance spectroscopy is proposed to actively equalize the retired battery pack and alleviate the inconsistency of the battery pack. Besides, the electrochemical impedance spectrum of the single battery is measured online
Customer ServiceResearch on Development Trend and Policy System of Cascade Utilization of Decommissioned Power Batteries: LI Jianlin 1, LI Yaxin 1, GUO Lijun 2: 1. Energy Storage Technology Engineering Research Center, North China University of Technology, Shijingshan District, Beijing 100144, China 2. China Electrotechnical Society, Xicheng District, Beijing 100055, China
Customer ServiceCombined with proposition 3, the cascade utilization of the decommissioning batteries can effectively reduce the price of the BSS while improving technological research and development, thus attracting consumers to purchase battery-swapping EVs. The BMs, initially battery suppliers, solve consumers'' problems by providing cross
Customer ServiceHowever, the cascade utilization of power batteries could alleviate recycling pressure and environmental pollution while maximizing the full life cycle of the battery, which is
Customer ServiceCombined with proposition 3, the cascade utilization of the decommissioning batteries can effectively reduce the price of the BSS while improving technological research
Customer ServiceThis study explores the influence of cascade utilization and Extended Producer Responsi-bility (EPR) regulation on the closed-loop supply chain of power batteries. Three pricing decision models are established under the recycling model of the battery closed-loop supply chain are established in this paper: benchmark model, EPR regulatory model disregarding cascade
Customer ServiceKeywords: clean energy; power battery; cascade utilization; life-cycle assessment; life-cycle cost;global warming potential;levelized cost of electricity;new energy vehicle 0 引言 开发清洁能源是我国社会经济发展的重大战 略,已被纳入我国中长期科技发展计划纲要的重点 DOI:10. 3969/j. issn. 2097-0706. 2024. 07. 008 基金项目Science and
Customer ServiceThe Chinese giant, known for its substantial strides in the EV market, is now targeting a 15% reduction in battery costs with its next-generation Blade Battery 2.0. This
Customer ServiceThis study explores the influence of cascade utilization and Extended Producer Responsibility (EPR) regulation on the closed-loop supply chain of power batteries. Three pricing decision models are established under the recycling model of the battery closed-loop supply chain are established in this paper: benchmark model, EPR regulatory model
Customer Service采用LCA 法对磷酸铁锂电池从生产到回收5 个阶段的环境影响进行计算,分析了4个场景下的全球变暖潜值(GWP)、细颗粒物形成(FPMF)、酸化潜值(TA)、海洋富营养化潜值(MEP)和化石资源
Customer ServiceWith the increase of the unit remanufacturing cost of waste batteries, the price of cascade utilization products sold by cascade users increases and the recycling efforts of
Customer ServiceOur study focuses on enterprises involved in the cascade utilization of power batteries, examining the timing and pros and cons of government EPR policy implementation, as well as optimal pricing decisions for supply chain members. The findings provide valuable insights for the operations of relevant enterprises and government regulatory design.
For the government, constructing a cascade utilization model for power batteries under EPR regulations enhances its understanding of relevant supply chain information. It enables the government to adjust policies from economic and environmental perspectives, thereby maximizing overall social welfare.
This highlights the advantages of the cascade utilization model. In Model GFS, the government taxes new batteries and subsidizes collected ones while encouraging battery manufacturers and energy storage stations to undertake cascade utilization.
A lifespan of 5 years was proposed for the cascade use stage of these retired batteries, taking the decay ratios of LFP and NCM batteries as a reference. During the cascade use stage, the capacity for energy storage decreases as battery capacity continues to decay.
In summary, governmental implementation of EPR regulations targeting the battery manufacturer practicing cascade utilization effectively mitigates the situations prevalent in Model S, wherein the manufacturer captures substantial portions of supply chain profits.
Cascade use mitigates the explosive increase in battery waste Sources of battery waste include batteries in RTBs that cannot be repurposed for cascade use and batteries eliminated from cascade use. Due to the diversity of approaches for cascade use, RTBs in particular may fail to be collected by certificated collection companies.
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