Nitrogen and phosphorus removal in pilot-scale anaerobic-anoxic oxidation ditch system

To achieve high efficiency of nitrogen and phosphorus removal and to investigate the rule of simultaneous nitrification and denitrification phosphorus removal （SNDPR）, a whole course of SNDPR damage and recovery was studied in a pilot-scale, anaerobicanoxic oxidation ditch （OD）, where the volumes of anaerobic zone, anoxic zone, and ditches zone of the OD system were 7, 21, and 280 L, respectively. The reactor was fed with municipal wastewater with a flow rate of 336 L/d. The concept of simultaneous nitrification and denitrification （SND） rate （rSND） was put forward to quantify SND. The results indicate that： （1） high nitrogen and phosphorus removal efficiencies were achieved during the stable SND phase, total nitrogen （TN） and total phosphate （TP） removal rates were 80% and 85%, respectively; （2） when the system was aerated excessively, the stability of SND was damaged, and rSND dropped from 80% to 20% or less; （3） the natural logarithm of the ratio of NOx to NH4^＋ in the effluent had a linear correlation to oxidation-reduction potential （ORP）; （4） when NO3^- was less than 6 mg/L, high phosphorus removal efficiency could be achieved; （5） denitrifying phosphorus removal （DNPR） could take place in the anaerobic-anoxic OD system. The major innovation was that the SND rate was devised and quantified.

Scale effect removal and range migration correction for hypersonic target coherent detection

The detection of hypersonic targets usually confronts range migration(RM)issue before coherent integration(CI).The traditional methods aiming at correcting RM to obtain CI mainly considers the narrow-band radar condition.However,with the increasing requirement of far-range detection,the time bandwidth product,which is corresponding to radar’s mean power,should be promoted in actual application.Thus,the echo signal generates the scale effect(SE)at large time bandwidth product situation,influencing the intra and inter pulse integration performance.To eliminate SE and correct RM,this paper proposes an effective algorithm,i.e.,scaled location rotation transform(ScLRT).The ScLRT can remove SE to obtain the matching pulse compression(PC)as well as correct RM to complete CI via the location rotation transform,being implemented by seeking the actual rotation angle.Compared to the traditional coherent detection algorithms,Sc LRT can address the SE problem to achieve better detection/estimation capabilities.At last,this paper gives several simulations to assess the viability of ScLRT.

Evaluation of removal of the size effect using data scaling and elliptic Fourier descriptors in otolith shape analysis, exemplified by the discrimination of two yellow croaker stocks along the Chinese coast

Removal of the length ef fect in otolith shape analysis for stock identification using length scaling is an important issue; however, few studies have attempted to investigate the ef fectiveness or weakness of this methodology in application. The aim of this study was to evaluate whether commonly used size scaling methods and normalized elliptic Fourier descriptors(NEFDs) could ef fectively remove the size ef fect of fish in stock discrimination. To achieve this goal, length groups from two known geographical stocks of yellow croaker, L arimichthys polyactis, along the Chinese coast(five groups from the Changjiang River estuary of the East China Sea and three groups from the Bohai Sea) were subjected to otolith shape analysis. The results indicated that the variation of otolith shape caused by intra-stock fish length might exceed that due to inter-stock geographical separation, even when otolith shape variables are standardized with length scaling methods. This variation could easily result in misleading stock discrimination through otolith shape analysis. Therefore, conclusions about fish stock structure should be carefully drawn from otolith shape analysis because the observed discrimination may primarily be due to length ef fects, rather than dif ferences among stocks. The application of multiple methods, such as otoliths shape analysis combined with elemental fingering, tagging or genetic analysis, is recommended for sock identification.

Scaling and Removal of Calcium. Carbonate on Electroless Plating Surface

The scaling process of calcium carbonate on a low-energy heat transfer surface－electroless plating surface was investigated in a simulated cooling water system. Owing to the very low surface energy, the electroless plating surface exhibited less scaling susceptibility. A longer induction period and a lower scaling rate were obtained on the low-energy surface compared to copper surface under identical conditions. The calcite particles obtained on the electroless plating surface during the induction period were larger in size than those on copper surface because fewer crystals formed and grew at the same time on the low-energy surface. With increasing surface temperature, the induction period reduced and the scaling rate increased for the low-energy surface. When initial surface temperature was fixed, an increase in fluid velocity would reduce the induction period and increase the scaling rate due to the diffusion effect. However, when the heat flux was fixed, an increase in fluid velocity would decrease the surfacetemperature, and lead to a longer induction period and a lower scaling rate. The removal experiments of calcium carbonate scale indicated that during post induction period, the detachment was not obvious, while during the induction period, apparent removal of crystal particles was obtained on the electroless plating surface owing to the weak adhesion force. The more frequently the transient high hydrodynamic force acted, the more the detached crystal particles were.

Removal of Cu(Ⅱ) from Wastewater Using Acidified Sewage Sludge Ash

Sewage sludge ash (SSA), the waste generated in sewage sludge incineration, was obtained from Wuhan Sewage Treatment Plant and used as a low-cost sorbent for removing Cu(Ⅱ) from wastewaters. The sorbent was first modified with 5 % sulfuric acid to increase its sorption capacity. The specific surface area, porosity, cation-exchange capacity (CEC) and pH ZPC of the sorbent were measured. Batch experiments were made to study the effect of contact time, solution pH value and temperature on sorption. Both Langmuir and Freundlich models well described the Cu(Ⅱ) sorption process, with correlation coefficient (R 2) values of 0.993 4 and 0.989 9 respectively. And the sorption process follows the Lagergren first order kinetic model. The equilibrium sorption capacity of acidified SSA to Cu(Ⅱ) is estimated to be 7.78 mg/g under optimal conditions.

One-Step-Installation of Offshore Wind Turbine on Large-Scale Bucket-Top-Bearing Bucket Foundation

In 2010,the first offshore wind turbine with integrated installation was established in Qidong sea area of Jiangsu Province,China,which led to the implementation phase of one-step-installation technique based on the design and construction of large-scale bucket-top-bearing (LSBTB) bucket foundation.The critical technique of LSBTB bucket foundation included self-floating towing,penetration with adjustment of horizontal levelness,removability and one-step-installation.The process of one-step-installation included the prefabrication of LSBTB bucket foundation in onshore construction base,installation and debugging of wind power,overall water transportation of foundation and wind power system,and installation of foundation and offshore wind turbine on the appointed sea area.The cost of one-step-installation technique was about 5 000 Yuan/kW,which was 30%-50% lower than that of the existing technique.The prefabrication of LSBTB bucket foundation took about two months.During the one-step-installation process,the installation and debugging of wind power and overall water transportation need about one to two days in sea area within 35 m depth.After the proposed technique is industrialized,the cost will be further reduced,and the installation capacity is expected to be up to 500 wind turbines per year.

A Combined System for Biological Removal of Nitrogen and Carbon from Nylon-6 Production Wastewater

A combined system consisting of hydrolysis acidification, denitrification and nitrification reactors was used to remove carbon and nitrogen from the nylon - 6 production wastewater, which was characterized by good biodegradability and high nitrogen concentration. The influences of Chemical Oxygen Demand （COD） in the influent, recirculation ratio, Hydraulic Residence Time （HRT） and Dissolved Oxygen （DO） concentration on the system performances were investigated. From results it could be seen that good performances have been achieved during the overall experiments periods, and COD, Total Nitrogen （TN）, NH^＋ -N and Suspended Solids （SS） in the effluent were 53, 16, 2 and 24 mg· L^-1, respectively, which has satisfied the first standard of wastewater discharge established by Environmental Protection Agency （EPA） of China. Furthermore, results showed that operation factors, viz. COD in the influent, recirculation ratio, HRT and DO concentration, all had important influences on the system performances.

COLOR-SCALE MORPHOLOGICAL FILTERS WITH MULTIPLE STRUCTURING ELEMENTS

With the wide use of color in many areas, the interest on the color perception and processing has been growing rapidly. An important topic in color image processing is the development of efficient tools capable of filtering images without blurring them and without changing their original chromatic contents. In this paper, a new technique reducing noise of color image is developed. A class of color-scale morphological operations is introduced, which extend mathematical morphology to color image processing, representing a color image as a vector function. The correlation between color components is utilized to perform noise removal. Color-scale morphological niters with multiple structuring elements (CSMF-MSEs) are proposed. Their properties are discussed and proved. Experimental results show that CSMF-MSEs are suitable and powerful to eliminate noise and preserve edges in color image because of efficient utilization of inherent correlation between color components, and they perform better than vector

改进的单尺度Retinex雾天图像增强算法

在恶劣天气(如雾、霾)条件下,室外计算机视觉系统会采集到严重降质的图像,为生产、生活带来了严重的影响。本文基于色彩恒常理论提出了一种快速有效的雾天图像增强新算法,首先利用拉普拉斯梯度算子增强了雾天降质图像的各个颜色分量的边缘信息,然后在单尺度Retinex算法的基础上创新性提出了一种符合人眼视觉特性的中心自适应调节的拟合函数增强图像各个颜色分量,提高对比度,保持色彩信息。同时结合对比度、信息熵和运算时间等客观评价标准,与直方图均衡化和多尺度Retinex算法进行对比,验证了本算法优越性,并能满足实时处理的需求。实验仿真结果表明,该算法去雾效果显著,具有良好的视觉欣赏效果。

基于小波变换和Retinex结合的遥感图像的薄云去除

去除遥感图像中的薄云是图像处理中的常见难题。为了更好地对存在薄云的遥感图像进行薄云去除,提高薄云遥感图像的地物细节信息的可读性。提出了基于小波变换和单尺度Retinex结合的遥感薄云去除算法,先将遥感薄云图像进行小波分解,对分解的低频薄云部分进行抑制,高频信息部分进行强化,处理后进行小波重建,然后利用单尺度Retinex算法对重建后的遥感图像进行增强处理。最后利用平均灰度值,信息熵,标准差及平均梯度指标进行客观评价分析,结果表明,该方法可以在有效去除薄云的同时增强地面细节信息。

具有颜色保真性的快速多尺度Retinex去雾算法

针对MSR算法在图像去雾应用中存在颜色失真现象且计算量大的问题,提出一种具有颜色保真性的快速MSR去雾算法。通过将MSR算法对RGB三个颜色通道的处理转变为仅对暗原色单一通道进行处理,避免了对颜色通道间色调相关性的影响,实现颜色保真,同时大大减少了算法执行时间。实验结果表明该算法克服了MSR去雾算法的颜色失真问题,能够有效提升图像的对比度和饱和度,实现图像快速去雾。

Effects of temperature,pH and O_(2) on the removal of hydrogen sulfide from biogas by external biological desulfurization in a full scale fixed-bed trickling bioreactor(FBTB)

Hydrogen sulfide(H_(2)S)is a critical component of biogas formed under anaerobic conditions by sulfur and sulfate reducing bacteria from animal manure and renewable energy crops.H_(2)S causes high corrosion in equipment,has a negative environmental impact,inhibits the biogas formation process and is furthermore odorous and toxic.Although several methods for internal and external desulfurization found their way into practice and had been explored at laboratory scale,no data were available on the performance of such methods in full scale practice,especially for an external fixed-bed trickling bioreactor(FBTB).The effects of temperature,pH and air ratio on H_(2)S removal efficiency(RE)were studied.The study was conducted at a research biogas plant with a given output of 96 m^(3) biogas per hour,and an H_(2)S concentration ranging between 500 ppm and 600 ppm(1 ppm=1 cm^(3)/m^(3))on average.The FBTB column has been designed to hold a packing volume of 2.21 m^(3) at a gas retention time of 84 seconds being loaded at an average of 32.88 g H_(2)S/(m^(3)·h).The highest H_(2)S RE of 98% was found at temperatures between 30℃ and 40℃.A major decline in RE to 21%-45%was observed at temperatures from 5℃ to 25℃.The results clearly showed a temperature optimum range for sulfate reducing bacteria.The results reveal that RE is little affected by different pH values and air ratios.During the experimental period,the practical suitability of the FBTB system could be proved while avoiding the disadvantages of internal biological desulfurization methods.

Effects of Whole-Tree Harvesting on Species Composition of Tree and Understory Communities in a Northern Hardwood Forest

In the northeastern United States, whole-tree harvesting is widely used to supply fuel to biomass energy facilities, but questions remain regarding its long-term sustainability. We have previously reported findings indicating no short-term decrease in forest productivity in whole-tree harvested sites when compared with similar conventionally (stem-only) harvested sites. Here we present additional results of the same study, but focus on the effect harvest treatment has on the species composition of the regenerating forest. Within northern hardwood forests in central New Hampshire and western Maine, regeneration surveys were conducted on four (4) small clearcuts in 2010 and twenty-nine (29) small clearcuts in 2011. The species and diameter of trees > 2 m in height were recorded within 1 m or 2 m-radius plots and used to calculate the biomass fraction of each species. The 2010 study additionally measured the density of trees 2 m in height and the diversity of understory non-tree species. Non-metric multidimensional scaling and multi-response permutation procedures were used to determine the effect of harvest treatment had on community-wide tree species composition. Potential differences were also examined on a species-by-species basis. Both analytic methods indicated no significant differences in species composition of tree species or understory communities. Within the limits of our data, we conclude that no significant effects of residue removal on species composition are observed within our sample of northern hardwood sites at this early stage of stand development.

ThinMatch:一种高效大规模场景图像匹配方法

本文基于GraphMatch提出一个改进的算法ThinMatch,它可以有效地提高大规模图片集SfM三维重建的效率。算法主要思想是:这种大规模的图像集通常来自网络,因此图像中必然包含较多的冗余信息。比如图像冗余:图像集中包含较多的无关图像;特征冗余:图像中包含无关的内容,如行人、动物和树木等;计算冗余:与目标相关但不匹配的图像对之间匹配尝试。ThinMatch针对这三类冗余,利用行人检测去除部分特征冗余,利用图像匹配率滤除无关图片,利用图像中大尺度特征的匹配情况来减少计算上的冗余。实验通过与暴力搜索法、最新水平的GraphMatch算法的比较,展示出ThinMatch在保证了一定匹配质量的情况下,有效地提升了匹配的速度。尤其在去除计算冗余阶段,与GraphMatch相比它保证了平均约94%的最终摄像头注册数,但将匹配速度大约提高到了原来的两倍。

Research Progress on Energy Plants in Piggery Wastewater Treatment

Large-scale pig-raising can discharge a great deal of wastewater,which contains high content of organic matter,ammonia nitrogen and suspended solids.The improper treatment of the piggery wastewater can lead to serious environmental problems. As a liquid fertilizer,piggery wastewater is relatively low in fertilizer efficiency and high in transportation cost,so it is very necessary to treat it in situ. Energy plants have the advantages of rapid growth,large biomass,strong tillering ability and developed root system. Therefore,energy plants can be used to absorb and transform the pollutants( like nitrogen and phosphorus) in piggery wastewater into the components of plants,as well as form the rhizosphere environment which is conducive to microbial growth,so as to enhance the effects of nitrogen and phosphorus removal. The obtained energy plants can be recycled as the raw materials for biogas to increase the production of biogas,which brings economic benefits while solving the environmental problems caused by piggery wastewater.

量子防垢技术在油田加热炉的防垢应用研究

加热炉是油田生产运行中的重要设备,结垢不仅会造成加热炉频繁清洗,增加检修成本,而且影响换热效率,减少使用寿命,甚至造成加热炉烧损,导致停产或停输。采用新型管道外置安装量子环防垢器防垢技术,释放有针对性的振动波改变水中钙镁离子的振动特性,减少加热炉在温升过程中CaCO_(3)的结晶和沉积,防垢率可以达到80%以上。量子环防垢器防垢技术对于减少加热炉清洗,提高加热炉炉效和使用效率有着积极的意义,可在油田结垢严重区块推广应用。

基于多尺度生成对抗网络的锥束CT图像耦合伪影校正方法

针对锥束CT(CBCT)图像存在的耦合伪影难以完全校正问题,提出1种基于多尺度生成对抗网络的锥束CT图像耦合伪影校正方法。首先,根据CT图像的伪影特征构建了一套包括仿真图像和实际图像的CBCT耦合伪影数据集,用于提高模型泛化能力。再将特征金字塔结构(FPN)和基于卷积块的注意机制(CBAM)融入网络的生成器结构中,帮助网络捕获更全面特征信息,并配合多尺度判别器(MSD)搭建生成对抗网络框架,使得生成的去伪影图像更加清晰和真实。实验分析显示,经本文方法校正图像的PSNR和SSIM在仿真数据集中提高了21.595 dB、0.541,在实际数据集中提高了14.072 dB、0.274。实验结果表明,本文方法可有效校正耦合伪影。

延长油田转向酸油层深部解堵室内评价

酸化常用于解除伤害和增加储层渗透率。在碳酸盐岩储层中,这一过程通常采用基于黏弹性表面活性剂(VES)的转向酸。VES转向酸配方可以对[H^(+)]和[Ca^(2+)]的变化做出响应,从而调节表面活性剂溶液的流变性。当黏度增加时,流体会改变其流动方向,形成虫洞。构建了酸液中和的体系,并使用2种商用转向酸进行了测试,研究了不同中和度下流体的流变性,模拟了流体在碳酸盐基质中流动和反应时的行为。此外,还研制了基于VES的新型响应性转向酸ZX,并研究了它们在不同[H^(+)]和[Ca^(2+)]下的线性和非线性流变性,并在岩心驱替实验中评估了其性能,实验结果表明新型转向酸形成了优势虫洞。

《结直肠手术患者尿管拔除评估量表》的编制与信效度检验

目的在加速康复外科理念的指导下编制《结直肠手术患者尿管拔除评估量表》,并检验其信效度。方法通过文献查阅法、专家访谈法,结合临床实践分析影响结直肠手术患者尿管拔除时机的相关因素,通过2轮德尔菲专家函询,形成初始版量表。采用方便抽样法选取2023年4月至10月在湖北省某三级甲等医院的137例结直肠手术患者进行问卷调查,并进行信效度检验,分析量表的敏感性和特异性,确定最佳阈值。结果该量表包括3个维度,20个条目。累计方差贡献率为83.582%。条目水平的内容效度指数为0.96~1.00,量表水平的内容效度指数为0.91。量表各条目与所属维度的相关系数为0.637~0.852,维度间的相关系数为0.602~0.774,各维度与总量表的相关系数为0.889~0.918。量表各维度的Cronbach'sα系数为0.914~0.957,量表总的Cronbach'sα系数为0.931;各维度的分半信度为0.913~0.942,量表总的分半信度为0.958。量表ROC曲线下面积为0.934[95%CI(0.892,0.975)]。当量表评分为29.5分时,该量表的敏感度、特异度和约登指数最高,分别为0.870、0.912和0.782。评分≤29.5分时,可考虑拔除尿管。结论本研究构建的《结直肠手术患者尿管拔除评估量表》具有较好的信效度,经过临床验证可较准确的判断结直肠手术患者尿管拔除时机。

硫酸钡锶的结垢机理与化学除垢技术的研究现状

结垢会给油田生产带来严重危害,严重威胁生产流程的进行,降低生产流量,导致生产损失。注入的水、原生水与岩石之间存在化学作用,导致储层流体的组成复杂,因此难以控制无机结垢地层。碳酸盐(钙)、硫化物(铁、锌)和硫酸盐(钙、钡、锶)垢在油田中更为常见,结垢的形成取决于各种因素,包括但不限于温度、压力、溶液饱和度、流体动力学行为等。本文介绍了油气生产中常见的无机结垢类型、形成机理、热力学溶积度、结垢预测,以及化学除垢剂的研究现状与发展趋势,以期为油田硫酸钡锶垢的预防与除垢提供参考。