废弃电子元器件酸性浸出液中铜的萃取研究

利用国产新型铜萃取剂DZ988,以PEG-NO2/H2SO4混酸溶液氧化浸取废弃电子元器件得到的酸浸液为萃取原液(含铜浓度CCu=3.132 g/L),进行铜的萃取研究,考察各因素对铜的萃取及反萃取的影响。试验结果表明,铜的萃取率随萃取剂浓度、O/A比、萃取温度及pH的提高而提高;在萃取剂浓度设定为25%,萃取料液浓度用氨水调至pH=2,油水比O/A=1:1,常温的条件下,对废弃电子元器件的PEG-NO2/H2SO4混酸浸出液中的铜的萃取率可达99.45%,铜、铁分离系数达1 151;以硫酸作反萃剂,对负载铜的萃取剂进行反萃取研究,在硫酸溶液浓度为250 g/L,相比O/A=1:1时,铜的反萃率接近100%。同时,DZ988基本不萃取Co、Ni,后续可从铜萃余液中继续回收Co、Ni。     

沈阳市农村环境基础设施运营与管理对策探讨

分析了沈阳市农村环境基础设施运营管理存在的问题,提出了解决对策。     

羧酸类药用活性化合物在生物碳质上的吸附特性

为研究生物碳质吸附在处理水土环境中羧酸类PhACs（药用活性化合物）的作用,通过比表面积、红外光谱、元素分析及电镜扫描对商业水稻秸秆生物碳质的结构与性质进行了讨论,同时研究了生物碳质对不同初始pH及不同初始质量浓度的五种羧酸类PhACs[KTP（酮洛芬）、IBP（布洛芬）、NPX（萘普生）、ASP（阿司匹林）、SYA（水杨酸）]吸附特征的影响.结果表明:吸附过程包括前期快速吸附和后期缓慢吸附至平衡两个阶段;在第一阶段,外表面吸附与大孔及中孔扩散是控制吸附的机制,在第二阶段,生物碳质内表面吸附及基质在微孔中的扩散是影响吸附的主要机制.初始pH为6.0~7.0时,等温吸附数据符合Freundlich吸附等温方程,反映了非均匀性表面的吸附特性.五种羧酸类PhACs在生物碳质上的吸附能力[通过K_d,0.01（特定液相浓度下的单点分配系数）表达]表现为NPX（24.30 g/L）> IBP（15.82 g/L）> KTP（10.44 g/L）> SYA（2.64 g/L）> ASP（1.24 g/L）.溶液初始pH变化对所选PhACs的吸附量有显著影响,初始溶液pH处于pKa±1.0范围内时,所选吸附质的吸附量达到最大值,随着初始pH的升高,所选PhACs主要以阴离子形式存在,同时生物碳质表面负电性增加,增强的静电斥力减弱了氢键作用.研究显示,氢键作用在生物碳质吸附PhACs过程中起到主要促进作用,除此之外,还受到范德华力及π-π电子供受体等多种作用驱动.      

Comparison of several packings for CO2 chemical absorption in a packed column

CO₂ capture and storage has gained widespread attention as an option for reducing greenhouse gas emissions. Chemical absorption and stripping of CO₂ with hot potassium carbonate (K₂CO₃) solutions has been used in the past, however potassium carbonate solutions have a low CO₂ absorption efficiency. Various techniques can be used to improve the absorption efficiency of this system with one option being the addition of promoters to the solvent and another option being an improvement in the mass transfer efficiency of the equipment. This study has focused on improving the efficiency of the packed column by replacing traditional packings with newer types of packing which have been shown to have enhanced mass transfer performance. Three different packings (Super Mini Rings (SMRs), Pall Rings and Mellapak) have been studied under atmospheric conditions in a laboratory scale column for CO₂ absorption using a 30 wt% K₂CO₃ solution. It was found that SMR packing resulted in a mass transfer coefficient approximately 20% and 30% higher than that of Mellapak and Pall Rings, respectively. Therefore, the height of packed column with SMR packing would be substantially lower than with Pall Rings or Mellapak. Meanwhile, the pressure drop using SMR was comparable to other packings while the gas flooding velocity was higher when the liquid load was above 25 kg m⁻² s⁻¹. Correlations for predicting flooding gas velocities and pressure drop were fitted to the experimental data, allowing the relevant parameters to be estimated for use in later design.     

浅析林区锅炉检验工作遇到的问题及解决办法

依据长期的工作实践,指出林区锅炉检验工作中经常遇到的问题,并针对性地给出了相应的解决办法。     

多孔TiO_2光催化降解罗丹明B水溶液

以SiO2为模板剂,采用溶胶-凝胶-碱洗的方法制备多孔TiO2催化剂。经TEM和BET分析表明,多孔TiO2粒径约为10 nm,且颗粒大小分布均匀,其比表面积较大,约为167.572 m2/g。通过罗丹明B水溶液的光催化降解实验,考察了多孔TiO2的光催化活性。实验结果表明,初始pH=6,初始浓度30 mg/L的罗丹明...     

改性活性氧化铝除磷性能的试验

为提高活性氧化铝对废水中磷的去除效果,以硫酸铝为改性剂,采用浸渍法对其进行改性;测定了改性前后活性氧化铝的比表面积及孔容孔径;考察了吸附时间、pH、废水初始浓度、改性剂投加量等因素对去除废水中磷的影响;探讨了改性活性氧化铝对磷的吸附机理.结果表明,改性后活性氧化铝的比表面积为398.364 m2/g,提高了14.22%...     

一种基于SDS溶液高效提取土壤残留Bt蛋白的方法

通过对SDS浓度、孵育温度和孵育时间3种提取条件的研究,建立了一种基于SDS溶液的提取土壤中残留Bt蛋白的方法(简称SDS法).在ρ(SDS)为2 g·L-1、孵育温度为50℃、孵育时间≥4 h条件下,采用SDS法可有效地从不同类型土壤样品中提取残留Bt蛋白,提取效果明显好于碳酸盐法、人造蠕虫肠道蛋白提取液法和PBST(phosphate buffer solution with Tween-20)法.     

A mathematical model for predicting the flash point of binary solutions

A mathematical model which may be used for predicting the flash point of binary solutions has been proposed and subsequently verified by experimentally-derived data, such data pertaining to an almost-ideal solution as also to highly non-ideal solutions. The results reveal that the model is able to precisely predict the flash point over the entire composition range of binary solutions for both ideal solutions and non-ideal solutions by way of utilizing the flash point of the individual components. The highly non-ideal solution like octane+ethanol exhibits the minimum flash-point behavior, which leads to the minimum on the flash point vs composition curve.     

Removing and recycling mercury from scrubbing solution produced in wet nonferrous metal smelting flue gas purification process

Wet purification technology for nonferrous metal smelting flue gas is important for mercury removal; however, this technology produces a large amounts of spent scrubbing solution that contain mercury. The mercury in these scrubbing solutions pose a great threat to the environment. Therefore, this research provides a novel strategy for removing and recycling mercury from the scrubbing solution, which is significant for decreasing mercury pollution while also allowing for the safe disposal of wastewater and a stable supply of mercury resources. Some critical parameters for the electrochemical reduction of mercury were studied in detail. Additionally, the electrodeposition dynamics and electroreduction mechanism for mercury were evaluated. Results suggested that over 92.4% of mercury could be removed from the scrubbing solution in the form of a Hg-Cu alloy under optimal conditions within 150 min and with a current efficiency of approximately 75%. Additionally, mercury electrodeposition was a quasi-reversible process, and the controlled step was the mass transport of the reactant. A pre-conversion step from Hg(Tu)₄²⁺ to Hg(Tu)₃²⁺ before mercury electroreduction was necessary. Then, the formed Hg(Tu)₃²⁺ on the cathode surface gained electrons step by step. After electrodeposition, the mercury in the spent cathode could be recycled by thermal desorption. The results of the electrochemical reduction of mercury and subsequent recycling provides a practical and easy-to-adopt alternative for recycling mercury resources and decreasing mercury contamination.