主动脉动气流分选回收PC插槽中金属的实验研究

根现废弃电路板中金属与非金属的有效分选．对后续金属产品的分离提纯至关重要。为此,采用主动脉动气流对PC主板插槽破碎为5-0.5mm粒级的产品进行分选实验．并对实验结果进行正交实验设计和分析,考察不同气流速度和脉动频率对分选效率的影响,建立了综合分选效率经验模型。实验结果表明．在气流速度为2．90m／s,脉动频率为2．33Hz时,综合分选效率可达85．43％。同时,对正交实验的错配物含量进行计算,结果表明,当气流速度从2．76m／s增大到3．04m／s．脉动频率从1．96Hz增大到2．33Hz时,重产物错配物含量从23．70％减小到12．23％．而轻产物错配物含量从2．13％增大到3．86％。     

基于DEA-Malmquist的我国城市物质代谢效率评价

运用数据包络分析与麦氏指数(DEA-Malmquist),从"技术效率"、"技术变动效率"和"全要素生产率"三个方面,对我国34个城市从2005年到2007年的物质代谢效率进行实证分析,结果表明:物质代谢效率的总体水平不高,被评估的34个城市中有19个城市在评价期间是无效率的,主要分布在西部地区;并且整体而言,"全要素生产率"和"技术变动效率"要优于"技术效率";结果还表明:34个城市物质代谢的"技术效率"普遍处于中等水平,没有呈现出明显的空间分布差异,但是"技术变动效率"则在长三角地区的城市中体现出较为明显的优势,最后,提出了针对性的建议。     

我国物质流研究述评

在分析我国近年来物质流研究成果的基础上,探讨目前研究存在的问题,并提出今后物质流研究应在以下几方面作出努力:建立学术平台、研究基地,加强学术交流;建立统一的分析和计算的框架和具体系数的估算方法;把物质流分析的成果与具有社会价值的经济、人口、土地等因素结合分析,与国外进行对比,找出我国的问题所在;建立我国或者特定区域的隐藏流系数的实时分析模型;物质投入产出表的编撰与研究;对我国未开展物质流研究的典型区域进行物质流分析。     

Significance of iron compounds in chemical and electro‐oxidation treatment of sugar industry wastewater: Batch reaction

Industrialization plays a major role in a nation's growth. However, with an increase in industrial activities, pollution levels are also increasing. Among all industries, the sugar‐processing industry is one that requires large amounts of water to process the sugar, and, consequently, it discharges large amounts of water as effluent. Highly polluted wastewater brings changes to the physicochemical characteristics of the surrounding environment. Iron compounds have had a significant impact when they are used in wastewater treatment in various applications, including when they are used to minimize the pollution levels in sugar industry wastewater (SIWW). To minimize the pollutant levels from SIWW, iron compounds have been key for uses in treatments involving chemical and electro‐oxidation. Two different methodologies of electrocoagulation and chemical coagulation have been used to treat SIWW. In electrocoagulation, an iron plate is used as an electrode material under specific operating conditions. Ferrous sulfate and ferric chloride have been used as chemical coagulants at various pH and mass loading levels. The use of iron metals shows an 82% reduction in chemical oxygen demand (COD) and an 84% reduction in color at the optimum condition of pH 6, an electrode distance of 20 millimeters, and a current density of 156 square centimeters. As a chemical coagulant, iron salt (ferrous sulfate) provides a reduction of 77% COD and a 91% reduction of color at pH 6 and a 40‐millimole mass loading. Electrochemical treatment using iron was found to be suitable to treat SIWW. The sludge generated after treatment can be burned or composted with the possible recovery of some of the treatment costs.     

Effects of tectonic stress environment on tectonophysical features of deformed coal

To study the effects of the tectonic stress environment on the tectonophysical features of deformed coal, No.8 Mine in the Pingdingshan mine area is used as a study area and the relationship between the development of deformed coal, distribution of fractures, formation of deformed coal and tectonic stress environment are analyzed. The results indicate that the thickness of the bedrock layer should be included in the analysis of the tectonic stress environment for a region of intense tectonic activity. Although the reverse faulting stress regime can control the development of deformed coal, the C seam is extremely sensitive to the stress regime. The most advantageous direction of the deformed coal fractures is consistent with the regional maximum principal stress, and the development of fractures is closely related to the evolution of the tectonic stress environment. The fracture density of the E seam presents a uniform distribution, yet that of the C seam is completely heterogeneous. Superposition and compounding of the tectonic communities evidently increase the fracture density of the deformed coal. There is a relatively apparent boundary between the different types of deformation, which gradually transform from brittle to ductile with a decreasing lateral pressure coefficient. A generalized deformation pattern of the deformed coal is proposed and can be divided into frictional sliding and solid flow.     

二次电池电极材料环境影响计算系统

以生命周期评价理论为基础,建立了电极材料电化学性能与环境影响的内在量化关联关系分析方法。基于Java语言,设计和编写了二次电池电极材料环境影响综合计算系统,协调考虑了二次电池的循环特性、电化学特征等,实现了环境影响评价过程中对材料质量需求的便捷计算,进而实现了整个评价操作过程的综合化、软件化和信息化,提高了评价效率。选用LiFePO_4/C,LiFe_(0.98)Ti_(0.02)PO_4/C,LiFe_(0.98)Mn_(0.02)PO_4/C和FeF_3(H_2O)_3/C 4种正极材料基于此系统进行了实例应用。     

设计配置对生物滞留设施污染物去除性能的影响研究

生物滞留是一种常用的低影响开发技术,通过不同机理去除径流中的各种污染物。设施面积、消能池设置、表面覆盖物的合理设计可降低外界的不利影响;内部斜坡与多元结构可优化设施性能,介质层的改良填料和较长深度可提高污染物的去除效率;配置适宜植物可提高环境耐受能力与污染物去除效果,引入多样植物可提高设施生物多样性,有利于发挥动植物相互作用,提高设施的稳定性与整体性能。     

兰州冬季城市烟雾层辐射效应的观测分析研究

冬季兰州城市上空形成浓厚的烟雾层。利用1990年11月兰州大学和离城市地面625m高南山顶的辐射和探空资料,分析和计算了烟雾层的辐射效应。兰州城市烟雾层具有浑浊度系数大波长指数小的特点。对到达地面的太阳辐射有很强的削弱。浑浊度系数最大时,烟雾层内的平均加热率为6.16℃/d,。大气层对各波段的消光强弱不同,对可见光削减最大。同时烟雾层使到达兰州地面的大气逆辐射比南山顶增加5.2％,总的入射辐射比南山顶小5.6％,地面辐射差额比南山顶小67.8％。烟雾层的存在增加了城市边界层的稳定性。     

减振降噪功能材料的研制

根据材料性能的要求,选择环氧树脂为粘合剂,低分子聚酰胺为固化剂,石粉,石英砂,玻璃纤维３种物质为填料,根据优化的配方制成一种高分子复合材料,该材料的硬度约为２４０ＨＢ左右,冲击强度约为３０ｋｇ·ｃｍ／ｃｍ＾２,均接近于某些金属材料的指标,易成型,并且成本较低,可以用来代替纺织厂有梭织机的某些受撞击比较严重的金属部件,具有广泛的应用价值。     

一种改进的边界层参数化模式

在能量平衡方法的基础上提出一套利用常规气象资料求取边界层参数的改进方案。利用中国科学院大气物理研究所铁塔观测资料,与廓线法进行对比分析,表明这种方案具有输入要求少,输出信息量大,结果合理的优点。此外,对此方案中的4个可变参数作了敏感性试验,结果表明湿度变化参数α的敏感性较强,在使用时应当合理选择其数值。该方案可以满足新一代空气质量模式对边界层参数化的需求。同时,由于仅需常规气象资料就能求取所有的边界层参数,因此特别适合于空气质量模式的法规应用。