Effect of sorbed and desorbed Zn(Ⅱ) on the growth of a green alga (Chlorella pyrenoidosa)

Toxic effect of Zn(Ⅱ) on a green alga (Chlorella pyrenoidasa) in the presence of sepiolite and kaolinite was investigated.The Zn-free clays were found to have a negative impact on the growth of C.pyrenoidosa in comparison with control samples (without adding any clay or Zn(Ⅱ)).When Zn(Ⅱ) was added,the algae in the presence of clays could be better survived than the control samples,which was actually caused by a decrease in Zn(Ⅱ) concentration in the solution owing to the adsorption of Zn(Ⅱ) on the clays.When the solution system was diluted,the growth of algae could be further inhibited as compared to that in a system which had the same initial Zn(Ⅱ) concentration as in the diluted system.This in fact resulted from desorption of Zn(Ⅱ) from the zinc-contaminated clays,although the effect varied according to the different desorption capabilities of sepiolite and kaolinite.Therefore the adsorption and desorption processes of Zn(Ⅱ) played an important part in its toxicity,and adsorption and desorption of pollutants on soils/sediments should be well considered in natural eco-environmental systems before their risk of toxicity to aquatic organisms was assessed objectively.     

Adsorption removal of phosphate from aqueous solution by active red mud

Red mud is the waste of alumina industry and has high TiO_2 and Fe_2O_3 content which are active components for the adsorption of anion pollutants.In this study,the uptake of phosphate by red mud activated by heat treatment and acid-heat treatment was investigated. The factors influencing the adsorption were also investigated.The result showed that the red mud sample treated using acid-heat method at 80℃with 0.25 mol/L HC1 for 2 h achieved the highest phosphate removal.For the heat-activated red mud,the sample heated at 700℃for 2 h preformed better than the other heat treatment.Phosphate removal by the activated red mud was significantly pH dependent,and pH 7 was the optimal pH for phosphate removal.The adsorption fits Langmuir isotherm model well and the maximum adsorption capacities of the acid-heat activated red mud and the heat activated samples were 202.9 mgP/g and 155.2 mgP/g,respectively.     

采用零排放新工艺处理蚀刻废液

广州市某化工厂开发出一套对线路板蚀刻废液进行大规模集中资源化处理的零排放处理新工艺,该工艺通过在固相条件下生成氧化铜并用重力分选的方法将其分离出来,克服了原有工艺的缺陷,使废液中所有的成分能够在较低的处理成本下全部分离回收,无三废排出,达到了清洁生产的要求.对其工艺条件进行深入研究,通过正交试验优化了工艺条件.     

X-42钢在碳酸钠-碳酸氢钠溶液中慢拉伸时电化学噪音信号的小波分析

本文应用小波分析理论研究了X42管线钢在0.5 mol/l Na2CO3 1 mol/l NaHCO3溶液中,在-950mVSCE、-1100mVSCE阴极极化条件下,慢应变速率实验过程中的极化电流信号.结果表明,极化电流信号的低频部分代表着其发展趋势.在阴极极化时,由于阴极析氢造成的体系pH值升高,因而电流信号有逐渐增大的趋势.而且,在对SSRT过程中阴极极化电流信号进行分析时,并未发现第二类间断点.因此,对于工业腐蚀监控,是否可用出现第二类间断点来预测X-42钢在土壤中的应力腐蚀失效,还有待于进一步的研究与探讨.     

溶液特性及共存物对纳滤膜去除水中全氟辛酸的影响

利用聚酰胺复合纳滤(NF)膜去除水中的持久性有机污染物—全氟辛酸(PFOA),分别研究了PFOA浓度、溶液离子强度、pH值、典型大分子有机物—牛血清蛋白(BSA)以及BSA与Na+共存对PFOA截留率的影响.结果表明,在0.8MPa下过滤24h,随着PFOA浓度增大,PFOA截留率提高;溶液离子强度、pH值越高,PFO...     

硫化物标准溶液的配制及其稳定性研究

采用在碱性条件下加入乙酸锌－乙酸钠溶液形成硫化锌沉淀的形式配制硫化物标准溶液,可使其稳定保存。溶液酸度、水中溶解氧、痕量重金属离子存在、乙酸锌－乙酸钠纯度及光照射等因素,对硫化物标准溶液的稳定性有较大影响。实验结果表明：采用去离子除氧水、控制ｐＨ＝１０－１２、对乙酸锌－乙酸钠进行提纯等方法配制的硫化物标准使用液,室温下至少可稳定保存２个月,浓度基本不变。     

利用含铜蚀刻废液生产碱式碳酸铜

介绍了利用含铜蚀刻废液生产碱式碳酸铜的生产工艺、技术特点、工艺流程和产品质量。以碳酸钠作蚀刻废液的除杂剂,对其进行除杂前处理,控制反应液的pH为3．5～4．0、反应液中碳酸钠的浓度为0．02～0．03mol／L。可除去其中大部分杂质。用碳酸钠与含铜溶液中的铜进行合成反应,控制反应温度为70～80℃、pH为8～9、碳酸钠和含铜溶液中铜的浓度均为1mol／L,反应生成碱式碳酸铜,此产品中铜的质量分数为56％,产品质量优于木材防腐用碱式碳酸铜国内外同类产品。     

Ni/Fe/Cu氧化物的催化臭氧化作用研究

以吐氏酸的臭氧氧化为例,研究了过渡金属镍、铁、铜单组分和不同配比双组分氧化物的催化作用,附着沉淀法制备的Ｎｉ－Ｆｅ（１：４）和Ｎｉ－Ｃｕ（４：１）催化剂的臭氧利用率分别比γ－Ａｌ２Ｏ３载体提高了２８．９％和２４．３％,金属氧化催化臭氧化能显著改善吐氏酸溶液的可生化性,当溴氧消耗量为０．２５－０．３５ｇ／Ｌ时,ＢＯＤ５／ＣＯＤ达到最大值０．２８。     

基于环境监测的矿井通风三维仿真辅助决策系统设计

为优化金属矿山矿井通风系统及辅助决策设计,弥补常用矿井通风仿真解算软件在环境监测、实时解算和辅助决策方面的不足,基于矿井通风理论、环境监测、计算机与通信技术开发矿井通风三维仿真辅助决策系统。提出通过利用实时监测到的井下通风环境参数（风量、风速等）和已存储在系统数据库里的巷道参数,实现对矿井通风网络实时解算,并将其应用到山金阿尔哈达矿井通风系统中。结果表明:矿井通风三维仿真辅助决策系统同步实现了山金阿尔哈达矿井通风系统的环境监测、风网实时解算和三维仿真模拟,提高了其矿井通风管理水平,为矿井通风系统改造优化设计和矿井向深部中段延伸时的通风系统设计提供辅助决策依据。     

Dynamic simulation and performance prediction of free displacer Stirling engines

ABSTRACT

In this study, a Stirling engine with a free-displacer and a kinematically controlled power piston was proposed and analyzed from thermodynamic and dynamic points of view. The analysis intended to reveal the dynamic behaviors of moving components of the engine as well as predicting global thermal performance of it. A dynamic-thermodynamic mathematical model of the engine involving the isothermal gas pressure equation and motion equations of the displacer, power piston and crankshaft was developed. For the solution of the dynamic-thermodynamic model equations, and simulation of the engine’s running, a computer program was prepared in FORTRAN language. By considering a hot-end temperature of 1,000 K and a cold-end temperature of 350 K, dimensions of mechanic, volumetric and thermal components of the engine were quantified interactively. Variations of engine speed, engine power, displacer stroke, and engine torque were examined with respect to the spring constant, displacer mass, displacer damping constant and external load and, results were graphically presented. In comparison with engines having free-piston and kinematically driven displacer, the thermodynamic performance of the free-displacer engine was found to be lower. The engine was found to be able to work at constant speed and power. The values of the displacer mass and spring constant were optimized as 1,500 g and 1,30,000 N/s, respectively and the global speed of the engine was determined to be 47.75 Hz for these values. The effective and the indicated work of the engine were determined to be 113 and 126 J, respectively.