基于LCA的聚乳酸快递包装环境友好性评价

以聚乳酸快递包装为研究对象,运用生命周期评价（LCA）方法对聚乳酸快递包装的原料获取、加工、使用及5种处置情景的环境影响进行比较,并采用累积能源需求（CED）方法对能源消耗情况进行分析.功能单位（1000个规模为25×35cm的聚乳酸快递袋,918kg）快递袋原材料获取、加工及使用阶段的环境影响潜能值分别为1.09×10^-9、5.64×10^-10、1.24×10^-10.海洋水生态毒性是聚乳酸快递袋环境影响的主要类型,占77%;非生物资源耗竭潜能值、人类毒性次之,分别占9%和6%.能源消耗主要类型为不可再生能源,占总能源消耗的89%,其中,快递袋使用阶段为主要贡献阶段,占比为91%.处理阶段5种处置情景中情景Ⅴ（焚烧47%,填埋13%,回收40%）对环境最为友好,通过增加焚烧和回收处置的比例,减少填埋比例对环境有着更为积极的影响.     

基于成本核算的废旧动力电池回收模式分析与趋势研究

概述了动力电池流向、回收管理体系和回收模式等管理现状,总结提出了以新能源汽车生产企业、动力电池生产企业、第三方综合利用企业和产业联盟为回收主体的四种动力电池回收模式;考虑建设成本、运行维护成本、收集成本、贮存成本、运输成本、人工成本、税收成本、管理成本等8个构成要素,构建了废旧动力电池回收成本模型;核算了四种回收模式的废旧动力电池回收成本和利润情况.核算数据显示,回收1万t/a的废旧动力电池项目,在年总收益均为8500万元的条件下,四种回收模式的利润区间为-461~401万元.结果与趋势分析表明,我国可优先推广新能源汽车生产企业为回收主体的回收模式,便于迅速布局;市场成熟后以动力电池生产企业和综合利用企业为回收主体的模式将进入市场,专业性和技术性将大幅提升;当市场更加成熟,以产业联盟为主体的回收模式将更具优势,回收成本降到最低.综上,建议从避免重复建设,缩短资金周转周期,探索创新模式,构建绿色供应链以及完善回收法律体系等方面入手,进一步完善我国废旧动力电池回收体系.     

中国八大综合经济区能源生态效率测度及其驱动因素

为促进能源、经济、社会与生态环境的绿色可持续发展,将经济、社会福利等期望产出与生态环境污染非期望产出纳入能源生态效率测度框架,运用基于Shephard能源距离函数的随机前沿模型,从区域研究视角出发分析中国八大综合经济区能源生态效率演变趋势,并探讨其驱动因素的作用机制.结果显示：样本期内全国能源生态效率均值为0.5839,整体水平偏低,且呈现显著的空间非均衡分布特征.八大综合经济区能源生态效率水平呈现由沿海向内陆逐渐递减的发展态势.南部、东部和北部等沿海经济区能源生态效率均值分别为0.6941、0.6213、0.6087,位居前列;西南、黄河中游、长江中游以及东北等经济区次之,能源生态效率均值分别为0.5803、0.5720、0.5623、0.5537;西北经济区能源生态效率均值为0.5087,位列末位.经济发展水平与能源消费结构的估计系数分别为0.0459、0.0747,对能源生态效率的提高具有抑制作用;产业结构、城镇化水平以及环境规制的估计系数分别为-0.9339、-0.6197、-0.0387,对能源生态效率的提高具有促进作用.     

BPA和EE2在PA微塑料上竞争吸附的位点能量

为研究微塑料上雌激素共存的吸附行为,以17α-乙炔基雌二醇（EE2）和双酚A （BPA）为目标污染物,微塑料聚酰胺（PA）为吸附剂,通过等温吸附实验研究二者在单溶质和双溶质体系下的吸附性能,基于位点能量分布理论进一步剖析二者在PA微塑料上的的吸附特性.同时,采用X射线光谱（XPS）以及傅里叶变换红外光谱（FTIR）对吸附前后的PA微塑料进行表征,探究其可能存在的吸附机理.等温吸附拟合结果及XPS、FTIR的表征结果表明BPA和EE2及二者混合溶液在PA上的吸附属于非均质吸附,疏水分配及氢键作用为主要的吸附机制.位点能量分布分析结果表明,相同浓度（1～4mg/L）条件下,BPA吸附位点主要分布于高能量区;单溶质体系的EE2吸附位点主要集中于低能量区.双溶质体系下,相同浓度的两种物质位点分布函数均随着位点能量的增大而呈指数降低,BPA下降趋势较为平缓,吸附位点分布更集中.两种体系相比较,BPA平均位点能量和位点能量非均质性分别增加了0.749%和2.483%,吸附位点数量减少了10.852%;双溶质体系下EE2平均位点能量降低0.813%,位点能量非均质性增加1.870%,吸附位点数量增加42.429%.双酚A和EE2在PA微塑料上的竞争吸附中,EE2占优势.     

Mercury emissions and partitioning from Indian coal-fired power plants

In India coal combustion is the single largest source of emission of mercury which is a wide-spread persistent global toxicant, travelling across international borders through air and water. As a party to the Minamata convention, India aims to monitor and reduce Hg emissions and stricter norms are introduced for mercury emissions from power plants (30 μg/Nm³for flue gas in stack).This paper presents the results obtained during the experimental studies performed on mercury emissions at four coal-fired and one lignite-fired power plants in India. The mercury concentration in the feed coal varied between 0.12–0.27 mg/Kg. In the mercury mass balance, significant proportion of feed coal mercury has been found to be associated with fly ash, whereas bottom ash contained very low mercury. 80%–90% of mercury was released to air through stack gas. However, for circulating fluidised bed boiler burning lignite, about 64.8% of feed mercury was found to get captured in the fly ash and only 32.4% was released to air. The mercury emission factor was found to lie in the range of 4.7–15.7 mg/GJ.     

铝穹顶储罐雷击损伤及燃爆风险研究

针对铝穹顶储罐雷击问题,开展了回击后长持续时间雷电流分量作用下的铝合金板烧蚀损伤试验研究,分析了铝穹顶储罐损伤及油气燃爆风险。结果表明:当直流分量为164 C时,2 mm铝板发生穿孔,铝穹顶储罐存在雷击燃爆风险;当直流分量≤157 C时,未穿孔,背面温度最高为480℃,存在燃爆风险,铝穹顶储罐存在雷击燃爆风险;当直流分量196 C时,4 mm铝板发生穿孔;当直流分量为196 C时,6 mm铝板未发生穿孔,背面温升为125℃,小于205℃,铝穹顶储罐不存在雷击燃爆风险。     

Retrofitting residential building envelopes for energy efficiency: motivations of individual homeowners in Israel

The willingness of private individuals in Israel to invest in energy-saving retrofit of the envelope of residential buildings was studied by means of a survey. Responses show that awareness of the need to conserve energy is high, but that willingness to participate in a retrofit project is modest and is limited to relatively small outlays. The decision on whether to retrofit at all, and then how much to invest in the project, is characterized as a two-stage process in which different factors may affect the outcome of each of the two stages. The major barrier to building retrofit is the perception (justified, in most cases) that the direct economic benefit to the homeowner from the resulting energy saving is small, and that given Israel's relatively mild climate, the payback period is very long. The stamp of approval provided by a government subsidy of 25% would have a large non-proportional effect on willingness to undertake building retrofit. Funding for the subsidy could be obtained from a Pigovian levy on electricity, applied for a limited period, and its environmental benefits outweigh the cost of the subsidy itself.     

可见光助三维电极/电Fenton处理罗丹明B废水的研究

提出了以多孔TiO2薄膜(Porous-TiO2)板为阳极,活性炭负载Fe-Ni共掺P25颗粒(Fe-Ni-P25/AC)为粒子电极的可见光助三维电极/电Fenton(Vis-3D/EF)降解有机废水的新方法.同时,考察了该体系对罗丹明B溶液的去除效果和影响因素,探讨了降解过程的反应动力学,并与常规阳极和粒子电极组成的体系处理能耗进行了对比,探讨了Vis-3D/EF体系各个作用对去除率的贡献及对罗丹明B的降解机理.实验结果表明,在电源电压20 V、溶液pH=3、Fe2+离子投加量0.5 mmol·L-1、曝气量1.5 L·min-1、反应时间60 min时,20 mg·L-1罗丹明B的降解率为96.84%,处理过程更符合二级反应动力学.在此条件下,Porous-TiO2阳极板和Fe-Ni-P25/AC粒子电极组成的体系,降解过程具有明显的协同催化特点,协同因子达1.22,且处理能耗仅为常规石墨(Gr)阳极、活性炭(AC)粒子电极组成体系的1/85.5.Vis-3D/EF降解过程中电催化氧化作用、Fenton氧化作用、可见光催化作用及可见光下的协同作用对去除率的贡献分别为43.88%、20.21%、15.26%和17.49%.同时,通过叔丁醇捕获实验发现,·OH对去除率的贡献为75.58%,表明·OH是该体系中产生的主要活性物质.     

Model for empowering rural poor through renewable energy technologies in Bangladesh

This paper proposes an integrated ecological, economic and social model to assist sustainable rural development in villages in Bangladesh. In the model, renewable energy technologies (RETs) create income-generating activities for male landless and marginal farmers and for women from such households, while reducing environmental problems, like deforestation and indoor air pollution from cooking with poor-quality fuels. Because of the high capital costs of RETs, the model proposes an extension of the well-known micro-credit approach developed by such NGOs as the Grameen Bank and BRAC. With the assistance of an External Agency composed of NGO, business, government and university representatives, such groups of villagers would form Village Organizations, comprising cooperatives or other forms of business, borrow money from a bank or large NGO, and purchase a RET based on biogas, solar or wind, depending upon location. By selling energy to wealthier members of the village, the Village Organizations would repay their loans, thus gaining direct ownership and control over the technology and its applications.     

Thermal defluorination behaviors of PFOS,PFOA and PFBS during regeneration of activated carbon by molten salt

• New method of mineralizing PFCs was proposed. • Activated carbon was regenerated while mineralizing PFCs. • Molten NaOH has good mineralization effect on PFOS and PFBS. Current study proposes a green regeneration method of activated carbon (AC) laden with Perfluorochemicals (PFCs) from the perspective of environmental safety and resource regeneration. The defluorination efficiencies of AC adsorbed perfluorooctanesulfonate (PFOS), perfluorooctanoic acid (PFOA) and perfluorobutanesulfonate (PFBS) using three molten sodium salts and one molten alkali were compared. Results showed that defluorination efficiencies of molten NaOH for the three PFCs were higher than the other three molten sodium salts at lower temperature. At 700°C, the defluorination efficiencies of PFOS and PFBS using molten NaOH reached to 84.2% and 79.2%, respectively, while the defluorination efficiency of PFOA was 35.3%. In addition, the temperature of molten salt, the holding time and the ratio of salt to carbon were directly proportional to the defluorination efficiency. The low defluorination efficiency of PFOA was due to the low thermal stability of PFOA, which made it difficult to be captured by molten salt.The weight loss range of PFOA was 75°C–125°C, which was much lower than PFOS and PFBS (400°C–500°C). From the perspective of gas production, fluorine-containing gases produced from molten NaOH-treated AC were significantly reduced, which means that environmental risks were significantly reduced. After molten NaOH treatment, the regenerated AC had higher adsorption capacity than that of pre-treated AC.