控制在用车排放恶化的有效措施

针对我国在用车排放比较严重的现状，我们认为：短期内易于实现，花费不高，不用对现有车辆作重大技术变动的有效措施是完善在用车Ｉ／Ｍ计划和进行在用国的加速淘汰工作。而且，对于用率和高污染车辆，完善的Ｉ／Ｍ计划也是更有效控制机动车排放污染所必需的。     

Economies of scale for future lithium-ion battery recycling infrastructure

While lithium-ion battery (LIB) technology has improved substantially to achieve better performance in a wide variety of applications, this technological progress has led to a diverse mix of batteries in use that ultimately require waste management. Development of a robust end-of-life battery infrastructure requires a better understanding of how to maximize the economic opportunity of battery recycling while mitigating the uncertainties associated with a highly variable waste stream. This paper develops and applies an optimization model to analyze the profitability of recycling facilities given current estimates of LIB technologies, commodity market prices of materials expected to be recovered, and material composition for three common battery types (differentiated on the basis of cathode chemistry). Sensitivity analysis shows that the profitability is highly dependent on the expected mix of cathode chemistries in the waste stream and the resultant variability in material mass and value. The potential values of waste streams comprised of different cathode chemistry types show a variability ranging from $860 per ton¹ for LiMn₂O₄ cathode batteries to $8900 per ton for LiCoO₂ cathode batteries. In addition, these initial results and a policy case study can also help to promote end-of-life management and relative policymaking for spent LIBs.     

失效锂离子电池有机物真空脱除和浸出研究

文章采用真空蒸发热处理的方法脱除废弃失效的锂离子电池中的有机物,加热温度为220~500℃,真空炉内压力150Pa,恒温处理时间1h。除有机物被脱除外,当处理温度为280℃时形成了CoO和Li2CO3。温度升高至350℃时,主要的物相为LiCoO2、CoO、Co3O4和Co,以及少量Li2CO3。在超声场中将电极材料与铝、铜箔集流体分离,然后分别用含亚硫酸钠的硫酸溶液和氨性溶液处理电极材料。当用含亚硫酸钠的硫酸溶液浸出经280℃脱除有机物的电极材料时,钴元素基本被浸出。而用氨性溶液浸出经350℃脱除有机物的电极材料时,钴元素的浸出率很低。为了提高钴的浸出率,真空热处理的温度应介于280~350℃之间。     

校园一次性废电池回收关键环节的问卷调研

如何从分散的大量用户手中回收一次性废电池是目前一次性废电池回收体系构建中的关键环节。文章采用问卷调查方法,以华东师范大学中山北路校区在校本科生为对象,研究了针对校园大学生用户回收一次性废电池环节中的存在问题和解决。提出了"以旧换新"的回收方式,初步确定了该方式运行所需的几个关键参数:回收的"旧新电池回收比例"为5:1,回收地点在各宿舍管理员处,回收时间为每月定期进行一次。文章结果对于构建废电池回收体系具有一定的参考意义。     

Life cycle assessment of an industrial symbiosis based on energy recovery from dried sludge and used oil

Recovering energy from wastes is a useful strategy for integrated waste and energy management in an eco-industrial park (EIP) and gives promising reduction of wastes, total energy consumption and operation cost. In Jinqiao EIP, Pudong New Area, Shanghai, an industrial symbiosis, based on the energy recovery from municipal sewage sludge and re-refined oil, was proposed in the central heat-supplying company of Jinqiao EIP. It is expected that hot off-gas or part of the steam from the central heat-supplying company could be used for sludge drying and used oil re-refining while the dried sludge and refined oil can be partial substitution for fossil fuel. For the purpose of assessing the environmental performance of this industrial symbiosis, life cycle assessment (LCA) was used and different scenarios were set up in this study to evaluate the Global warming Potential (GWP), Acidification Potential (AP), Eutrophication Potential (EP), Human toxicity air (HTA) and Total Environmental Impact Potential (TEIP) of the system. Results indicate that when the substitute ratio of coal by sludge is 14%, the proposed industrial symbiosis has the least environmental impact. Compared with the current situation (sludge is landfilled), co-combustion of dried sludge and re-refined oil with coal at optimal scale will release less CO₂, CH₄, NO_x, N₂O and CO, but more SO₂, H₂S, NH₃, HCl, polycyclic aromatic hydrocarbons (PAHs), non-methane volatile organic compounds (NMVOC) and heavy metals.     

Regulating non-precious transition metal nitrides bifunctional electrocatalysts through surface/interface nanoengineering for air-cathodes of Zn-air batteries

Zn-air batteries (ZABs), especially the secondary batteries, have engrossed a great interest because of its high specific energy, economical and high safety. However, due to the insufficient activity and stability of bifunctional electrocatalysts for air-cathode oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) processes, the practical application of rechargeable ZABs is seriously hindered. In the effort of developing high active, stable and cost-effective electrocatalysts, transition metal nitrides (TMNs) have been regarded as the candidates due to their high conductivity, strong corrosion-resistance, and bifunctional catalytic performance. In this paper, the research progress in TMNs-based material as ORR and OER electrocatalysts for ZABs is discussed with respect to their synthesis, chemical/physical characterization, and performance validation/optimization. The surface/interface nanoengineering strategies such as defect engineering, support binding, heteroatom introduction, crystal plane orientation, interface construction and small size effect, the physical and chemical properties of TMNs-based electrocatalysts are emphasized with respect to their structures/morphologies, composition, electrical conductivity, specific surface area, chemical stability and corrosion resistance. The challenges of TMNs-based materials as bifunctional air-cathode electrocatalysts in practical application are evaluated, and numerous research guidelines to solve these problems are put forward for facilitating further research and development.     

Spent rechargeable lithium batteries in e-waste: composition and its implications

The amount of spent rechargeable lithium batteries （RLBs） is growing rapidly owing to wide application of these batteries in portable electronic devices and electric vehicles, which obliges that spent RLBs should be handled properly. Identification of spent RLBs can supply fundamental information for spent RLBs recycling. This study aimed to determine the differences of physical components and chemical compositions among various spent RLBs. All the samplings of RLBs were rigorously dismantled and measured by an inductive coupled plasma atomic emission spectrometer. The results indicate that the average of total weight of the separator, the anode and the cathode accounted for over 60% of all the RLBs. The weight ratio of valuable metals ranged from 26% to 76%, and approximately 20% of total weight was Cu and Al. Moreover, no significant differences were found among different manufacturers, applications, and electrolyte types. And regarding portable electronic devices, there is also no significant difference in the Co-Li concentration ratios in the leaching liquid of RLBs.     

废旧Zn-C电池-活性污泥炭的制备及对SO_2的吸附

以污水厂二次污泥为主要原料,掺杂不同量的废旧Zn-C电池电极材料,采用Zn Cl2活化法制备出废旧Zn-C电池-活性污泥炭,表征分析污泥炭样品的碘吸附值、BET、FT-IR、SEM-EDS和XRD,并进行了低浓度SO2气体动态吸附试验.试验结果表明,污泥与电池粉末质量比为3∶1时,污泥炭的碘吸附值和比表面积分别达到750.6 mg·g-1和708.5 m2·g-1,优于纯污泥炭;回归分析表明,污泥炭吸附低浓度SO2的速率可用班厄姆公式描述,吸附平衡表达式可用Freundlih方程、Langmuir等温方程式表达,而Freundlih方程拟和效果更好.     

废弃锂离子电池中金属的回收及钴酸锂的湿法合成

采用湿法回收并合成锂离子电池中钴酸锂。考察了不同的有机溶剂溶解粘结剂PVDF、不同酸浸条件对钴酸锂浸出效果的影响、碳酸钴和碳酸锂共沉淀物的焙烧条件,并对所获得的钴酸锂进行结构分析。结果表明,N-甲基吡咯烷酮（NMP）作为溶解PVDF的溶剂效果最佳;当硫酸浓度6％、固液比1：30、30％的H2O：1．4mL／g、温度80℃、反应120min时为硫酸浸出最佳条件,此时钴的浸出率为92．3％,锂的浸出率为92．0％;合成LiCoO2时的焙烧温度在750℃较为合适。SEM分析表明,颗粒粒度小,分散性好。     

我国废旧轮胎的再循环利用

总结了我国废旧轮胎的再循环利用技术及利用途径 ,指出我国废旧轮胎的回收利用应以生产胶粉或其他方式为主 ,再生胶将逐渐减少