锂离子电池正极回收材料LiFePO_(4)的应用研究

随着新能源产业的加速发展,动力和储能锂离子电池的回收利用开始逐渐被重视。为了保证锂离子电池全生命周期的清洁、环保,锂离子电池中的核心材料正负极主材的循环使用可行性需要进一步评估,进而实现以锂离子电池为核心的新能源产业链的闭环。对一种回收的LiFePO_(4)正极材料的性能进行了验证,评估其材料理化指标变化对加工性能的影响,以及加工成电池后电性能方面的影响。研究结果表明,采用物理干法得到的回收LiFePO_(4)主要物性指标能够达到电池制造级要求。电感耦合等离子光谱仪(ICP)测试结果显示Al含量偏高,磁性杂质、克容量发挥以及回收粉料粒径分布等理化指标无明显异常,但仍存在较大的改善提升空间,通过跟进该回收LiFePO_(4)的过程加工性能,发现极片的直流电阻存在波动。从常温荷电存储测试结果可看出,28 d常温存储后电芯的容量保持率达到92%以上;恢复率达到93%以上,满足国标要求,说明对粉体、浆料增加必要的除磁操作对最终成品电芯自放电风险降低起到一定作用;电芯循环测试结果显示,0.2 C循环100次,容量保持率在95%以上,与正常LiFePO_(4)加工的电芯循环性能水平相当。

铝箔表面改性方式对磷酸铁锂电池的影响

针对铝箔表面改性要求,对铝箔表面进行烘烤、电晕和涂碳处理,并制作6 Ah软包磷酸铁锂电池。通过铝箔表面粗糙度、极片辊压附着力、电化学阻抗、存储、循环等测试,评估表面改性方式对铝箔、极片及电池性能的影响。结果表明,铝箔经过电晕处理后,表面粗糙度增加了41%,极片附着力是原来的3.166倍。铝箔经电晕+涂碳处理后,电池阻抗少了一道铝箔与活性物质间的容抗弧,电池交流内阻降低至5.59 mΩ,并提升了电池内阻一致性。铝箔经电晕和涂碳处理均能提升电池大电流放电性能,降低极化,提升放电平台,但相比电晕处理,涂碳处理效果更显著。同时,涂覆的碳对高温循环改善明显。

基于物元可拓法的培训机构人员流失风险预测

为了帮助中小型教育培训机构解决人员流失的问题,减少人员流动带来的经济损失、降低企业运营成本,建立了基于熵权法及改进物元可拓法的培训机构人员流失风险预测方法,在经典物元可拓模型的基础上,提出“极值最优点”的改进物元可拓模型,可为物元可拓模型中的极端经典域构建不同的关联函数,取得了关联度的最优拟合效果,并以A教育培训机构为例验证了改进物元可拓法的可行性。结果表明,应用改进物元可拓法研究人员流失问题可以从风险管理的角度帮助培训机构解决人员流失问题。研究方法为教育培训机构提高人力资源管理水平,加强组织管控能力,降低企业成本,增强企业盈利能力提供了新的思路。

Fabrication of the Metal-Organic Framework Membrane with Excellent Adsorption Properties for Paraben Based on Micro Fibrillated Cellulose

A kind of novel environmental-friendly composite absorbent material was designed and prepared in this paper.Nanoscale metal-organic frameworks(MOFs)were embedded in the skeleton of cotton micro fibrillated cellulose.By scanning electron microscope(SEM),we observed that a large number of MOFs were attached to the cellulose skeleton.In addition,under the condition of 1800 r/min vortex,the structure of the composite material was stable and was not easily damaged by external forces.The water contact angle test showed that the composite material had excellent hydrophilicity and could be used for the adsorption of pollutants.Then,the material was characterized by energy dispersive X-ray spectroscopy(EDX),X-ray diffraction(XRD),Fourier transform infrared spectroscopy(FTIR)and BET adsorption.Through verification,the material had very stable reusability(n=10).The composite material was applied to the solid phase extraction of water samples,such as rain water,toning water and fruit juice,and was quantitatively analyzed by high performance liquid chromatography(HPLC)-UV.This method was then applied to the extraction of four parabens(methyl-,ethyl-,propyl-,and butylparaben)from real samples,yielding limits of detection(LODs)of 0.29-0.58 ng/mL.The linear range was 2-500 ng/mL.The inter-day and intra-day recoveries were 90.7%-106.0%and 87.1%-109.3%,respectively(relative standard deviation<10.8%).