超声波与电化学协同作用降解硝基苯溶液的实验研究

本文以硝基苯模拟废水为研究对象，探讨了超声波与电化学协同作用降解硝基苯的实验情况。考察了处理时间、处理温度、硝基苯初始浓度、pH值、电解电压等因素对硝基苯降解率的影响。实验结果表明：随着作用时间增加，硝基苯的降解率升高；温度高于40℃时，硝基苯的降解率随温度的升高而降低，低于40℃时，硝基苯的降解率随温度的升高而增大；硝基苯的降解率随电压的升高而增大；酸性条件有利于硝基苯的降解；硝基苯初始浓度越大降解率越高。     

腐植酸溶液的声化学降解研究

采用频率为1.8MHz的超声波在固定式声化学反应器内研究了声化学降解腐植酸的自由基氧化历程。通过采用TA溶液作为OH自由基捕获剂,吡啶溶液作HO2自由基捕获剂,以及KI溶液的I2释放法分别确定出实验条件下反应溶液中OH自由基的浓度为10^-7M,HO2自由基浓度为10^-5M及H2O2浓度为10^-5M。在此基础上研究了均相与多相催化条件下声化学降解腐植酸溶液的TOC削减情况。发现CeO2和Cu2O催化作用下腐植酸的降解效率分别较均相条件下提高40％和20％。并就反应机理和反应动力学过程进行了描述。     

基于i6000的信息通信资源申请系统的研究

为满足不同业务资源申请审批,实现业务标准化及信息化,不同业务流程网上流转和无纸化办公,需要对信息通信资源申请系统进行设计。当前申请系统是将申请流程定义为一个五元组制定资源申请指标,设置资源申请定时器,如果定时警报响起,则将申请直接驳回至缓存队列中,继续等待申请,迭代上述过程,完成对信息通信资源申请系统设计。但没有设定迭代需要达到的指标,导致申请流程循环性严重,申请效率低。为此,提出了一种基于i6000的信息通信资源申请系统设计方法。该方法首先对信息通信资源申请流程和申请系统构造进行设计,然后利用FCM算法得到信息通信资源数据的聚类中心,对信息通信资源数据进行划分,采用投票法完成对信息通信资源数据的聚类集成,利用流量预测算法对信息通信资源进行申请,依据静态和动态结合的宽带分配法完成信息通信资源共享,并引入记录因子对资源申请的分配情况进行记录,使资源申请系统自动对资源申请进行处理。实验结果证明,所提方法提高工作效率,实现工作量化和信息通信资源信息化管理。     

MEH-PPV/PEG聚合物电双稳器件的研究

将PEG(聚乙二醇)引入到ITO/MEH-PPV(聚(2-甲氧基,5(2'-乙基己氧基)-1,4-苯撑乙烯撑)/Al三明治器件中,实现了很好的电双稳性能。通过改变PEG的分子量、浓度以及退火温度等条件,对器件性能进行了优化。通过电流-电压(I-V)测试研究了不同器件的性能,结果表明,分子量为4 000的PEG,在30 mg/mL的浓度下,通过120℃退火制备的薄膜,其器件性能最优,电流开关比可以达到10~3以上。利用SEM测试研究了活性层的膜形貌,并结合电流-电压(I-V)曲线的线性拟合,分析了电荷在器件中的传输过程。研究发现,相分离产生的陷阱对电荷的俘获是该器件产生电双稳特性的主要原因。     

PEG200改性SiO_2溶胶制备光学增透膜的研究

采用ＴＥＭ、ＳＤＰ 等分析手段对ＰＥＧ２００ 改性的ＳｉＯ２ 溶胶制备参数与光学增透膜的性质进行了研究。结果表明：ＰＥＧ２００ 改性后的ＳｉＯ２ 溶胶簇团粒度分布与交联状况发生显著变化,形成不同的网络结构特征,由此影响膜层的光学增透性能。     

超声波条件下降解染料废水的工艺条件研究

采用Fenton试剂对模拟染料废水的降解效果进行研究。结果表明,H2O2投加量、Fe2+投加量、pH值条件、超声处理时间的改变对染料废水的处理效果影响很大。对酸性染料:当pH为4.5,30%H2O2投加的体积分数为30mL/L,Fe2+投加的质量浓度为400mg/L,反应时间为40min时为降解反应的最佳操作条件。对碱性染料,正交试验表明当pH为4、30%H2O2投加的体积分数16mL/L、Fe2+投加的质量浓度为300mg/L、反应时间为60min时为降解反应的最佳操作条件,其降解率达98.46%,COD的去除率达到96.7%。     

PEG掺杂对钙钛矿太阳能电池的影响

为了提高钙钛矿太阳能电池的能量转化效率,减小回滞现象,研究了聚乙二醇(PEG)掺杂钙钛矿太阳能电池阳极修饰层PEDOT∶PSS对器件性能的影响。通过电容-电压(C-V)测试分析了PEDOT∶PSS修饰层和钙钛矿层之间的界面电荷积累情况,通过电流密度-时间(J-T)瞬态光电流的测量研究了修饰层和钙钛矿层之间缺陷态情况。结果表明,PEG掺杂阳极修饰层提高了器件的短路电流(J_(sc))、开路电压(V_(oc))和填充因子(FF),光电转化效率从7.5%提高到10.0%,光电转化效率提高了33%,经过掺杂后的器件回滞现象明显减弱。这种通过PEG掺杂PEDOT∶PSS的方法能够减少器件界面处的电荷积累和缺陷态,从而减小器件的回滞现象,提高器件的能量转化效率。     

功率超声强化溶液冻结机理的研究进展

功率超声波强化溶液结晶是一种新型的结晶技术,由于其具有促进溶液冻结、控制晶体粒径分布和提高冻结产品质量的作用,近年来受到越来越多的关注。从过冷溶液的一次冰晶成核、二次冰晶成核以及树枝状冰晶体的生长速度等方面对超声波强化溶液结晶的机理进行了综述,并对超声结晶机理研究的发展方向提出了建议。     

脱氧核糖核酸与刚果红化学反应的机理研究

采用UV-Vis光谱法,研究了在pH 4.56的Tris缓冲溶液中脱氧核糖核酸(DNA)与刚果红(GGH)相互作用。生成的紫色配合物最大吸光度差ΔA在600 nm,反应前后吸收光谱变化明显,反应体系对比度好。在此波长下测得配合物的表观摩尔吸光系数ε=1.41×105 L·cm-1·mol-1,最大结合数n=32,最低检出限为c＝8.04×10-8 mol·L-1 等。研究了体系的酸度、温度、时间等基本反应条件,以及不同类型物质对反应体系的干扰状况。离子强度的改变对体系的吸光度有一定影响。探讨了小分子物质与DNA作用的方式及二者的分子结构、分子构象及电子云分布之间的关系。     

定向结晶条件下聚乙二醇6000的强动力学效应

在单向温度场条件下, 采用不同抽拉速度实现了聚乙二醇6000的定向生长、界面形貌的实时观测及界面温度的测量, 进而揭示了其生长机制. 实验结果表明, 随着抽拉速度的增大, 界面的温度逐渐减小, 过冷度逐渐增大. 运用高聚物结晶的次级形核理论模型, 对实验数据进行了计算, 得到在界面过冷度为13.5 K左右时, 生长机制发生了由区域Ⅱ向区域Ⅲ的转变. 实验数据与等温结晶数据的比较发现等温结晶方法中获得过冷度相对较大, 是因为其包含了热过冷. 聚乙二醇6000定向结晶过程中需要的最大动力学过冷度为20 K, 说明由于高聚物的二维形核, 其生长主要由界面动力学控制, 具有较强的动力学效应.     

Ultrasonic investigation of magnetic nanoparticles suspension with PEG biocompatible coating

Water suspension of nanoparticles was studied by ultrasound spectroscopy. Nanoparticles have a core-shell structure with magnetic core Fe₃O₄ and surfactant shells. The surface of magnetic particles was coated with oleate sodium as the primary layer and polyethylene glycol as the secondary layer. The acoustic properties of suspensions, such as velocity and attenuation of ultrasonic waves, have been measured. From experimental data mechanical properties have been determined. Adiabatic compressibility of nanoparticles suspension decreased with increase of temperature. The changes of ultrasonic wave attenuation under the influence of the external magnetic field, show that magnetic liquids with high concentration of magnetic material (despite two surfactant shells) show tendency to aggregate.     

超声波对PEG/磷酸盐双水相系统组成及BSA分配的影响

超声波有望强化双水相萃取分离过程。本文研究了超声波对聚乙二醇(PEG)/磷酸盐双水相系统(ATPS)组成及牛血清白蛋白(BSA)在其中分配的变化规律。在超声波作用下,由于PEG6000的分子量增大,引起PEG600010%(w/w)/PO43-6%(w/w)ATPS在混合过程的Gibbs自由能变化增大,所形成的两相间差别变大,相图节线变长;而且,PEG分子量增大改变了BSA在双水相系统的静电作用和盐析作用,超声波作用提高了BSA在ATPS上相中的含量,增大了分配系数,减少了下相分配率。     

Study on frequency optimization and mechanism of ultrasonic waves assisting water flooding in low-permeability reservoirs

Water flooding is one of widely used technique to improve oil recovery from conventional reservoirs, but its performance in low-permeability reservoirs is barely satisfactory. Besides adding chemical agents, ultrasonic wave is an effective and environmental-friendly strategy to assist in water flooding for enhanced oil recovery (EOR) in unconventional reservoirs. The acoustic frequency plays a dominating role in the EOR performance of ultrasonic wave and is usually optimized through a series of time-consuming laboratory experiments. Hence, this study proposes an unsupervised learning method to group low-permeability cores in terms of permeability, porosity and wettability. This grouping algorithm succeeds to classify the 100 natural cores adopted in this study into five categories and the water flooding experiment certificates the accuracy and reliability of the clustering results. It is proved that ultrasonic waves can further improve the oil recovery yielded by water-flooding, especially in the oil-wet and weakly water-wet low-permeability cores. Furthermore, we investigated the EOR mechanism of ultrasonic waves in the low-permeability reservoir via scanning electron microscope observation, infrared characterization, interfacial tension and oil viscosity measurement. Although ultrasonic waves cannot ameliorate the components of light oil as dramatically as those of heavy oil, such compound changes still contribute to the oil viscosity and oil-water interfacial tension reductions. More importantly, ultrasonic waves may modify the micromorphology of low-permeability cores and improve the pore connectivity.     

Fundamental study on ultrasonic measurement system to detect penetration of boulders using cepstrum analysis

Generally, ultrasonic method and an elastic impact wave method are mentioned as examples representing the nondestructive test method. However, the ultrasonic method is known for the investigation of shallow depth becoming very shallow because of its small input. And the elastic impact wave method uses for example, a hammer for the discrimination of the reflection wave produced by minute cracks existing in the object, which is difficult. Theoretically, if it becomes possible to input the vibration of an ultrasonic domain into artificial structures such as a concrete and a boulder with strong amplitude, deeper investigation of depth and higher precision will be attained. The authors have developed a new ultrasonic method by using ultrasonic wave of the chirp signal, using the input of this system and using auto correlation and cepstrum as the analysis methods. In this paper, the experiment is classified into Pattern 1 and Pattern 2. In Pattern 1, the experiment of receiving the reflection wave was carried out using the concrete block with a width of 1300 mm and the down chirp signal from 50 kHz to 40 kHz. In Pattern 1, a reflection wave was clearly detected, and the length of the concrete block was calculated using auto correlation analysis, and was obtained as 1311.76 mm. In Pattern 2, the experiment of receiving the reflection wave was carried out using the same concrete block and the down chirp signal from 150 kHz to 130 kHz. In Pattern 2, the direct wave and the reflection wave were mixed, therefore it was not possible to presume the length from the obtained waveform. So cepstrum analysis method was used, and the traveling time of the reflection wave was obtained. In this result, the length of the concrete block was given as 1278.25 mm.     

A critical review on the sonochemical degradation of organic pollutants in urine,seawater, and mineral water

Substances such as pharmaceuticals, pesticides, dyes, synthetic and natural hormones, plasticizers, and industrial chemicals enter the environment daily. Many of them are a matter of growing concern worldwide. The use of ultrasound to eliminate these compounds arises as an interesting alternative for treating mineral water, seawater, and urine. Thereby, this work presents a systematic and critical review of the literature on the elimination of organic contaminants in these particular matrices, using ultrasound-based processes. The degradation efficiency of the sonochemical systems, the influence of the nature of the pollutant (volatile, hydrophobic, or hydrophilic character), matrix effects (enhancement or detrimental ability compared to pure water), and the role of the contaminant concentration were considered. The combinations of ultrasound with other degradation processes, to overcome the intrinsic limitations of the sonochemical process, were considered. Also, energy consumptions and energy costs associated with pollutants degradation in the target matrices were estimated. Moreover, the gaps that should be developed in future works, on the sonodegradation of organic contaminants in mineral water, seawater, and urine, were discussed.     

室温离子液体中超声制备纳米氧化锌掺杂材料及机理研究

在室温离子液体1-丁基-3-甲基咪唑四氟硼酸盐(ImBF_4)中超声制备镧系离子掺杂的纳米氧化锌材料,采用X射线衍射、透射电镜、光声光谱和荧光光谱技术表征样品结构和发光性能。为研究反应机理,采用甲基自由基复合法对离子液体的空化温度进行间接实测,进一步与空化动力学的数值分析结果进行比较。实验结果表明镧系离子掺杂可以有效地调控氧化锌的发光。与传统溶剂不同,离子液体空化温度不随超声时间的延长而降低,并随环境温度升高略有上升。反应机理的研究表明样品的形成生长与超声辐照和离子液体的共同作用密不可分。     

超声波原油破乳脱水的声场参数实验研究

本文阐明了超声波原油破乳脱水基本原理,实验研究了超声场参数对脱水率的影响,其中,声强,辐照时间和频率和影响原油脱水率的主要因素,而间歇比,脉冲宽度为次要回素,对本实验系统而言,声场参数有一个最佳值或范围,声强0.65W/cm^2,频率20kHz,间歇比8,脉冲宽度9.7ms,辐照时间5－10min.     

脉冲等离子体辐射微波机理的初步研究

在分析了等离子体辐射微波的电流波形和喇叭天线接收到的微波信号波形的基础上,对脉冲等离子体辐射微波的机理进行了理论分析：阴阳极间存在TEM和TM两种模式的波;流经等离子体的电流产生的磁场使等离子体中的波成为慢波;高频场的激励因素有两个,一是作加速运动的电子,二是阳极斑点溅射时阳极电位突降;同一时刻具有不同速度的电子将能量转换给相应相速的波是其产生超宽带辐射的原因。     

脉冲等离子体辐射微波机理的初步研究

 在分析了等离子体辐射微波的电流波形和喇叭天线接收到的微波信号波形的基础上,对脉冲等离子体辐射微波的机理进行了理论分析：阴阳极间存在TEM和TM两种模式的波;流经等离子体的电流产生的磁场使等离子体中的波成为慢波;高频场的激励因素有两个,一是作加速运动的电子,二是阳极斑点溅射时阳极电位突降;同一时刻具有不同速度的电子将能量转换给相应相速的波是其产生超宽带辐射的原因。