电镀污泥成分X荧光检测水分影响机制及校正方法研究

电镀污泥是金属加工、电子元器件制造等行业在废水处理过程中所产生含重金属危险废物。我国每年产生大量电镀污泥约1 000万吨,因含有Zn、 Cu、 Fe、 Ni、 Cr等多种有价金属元素其资源化利用潜力巨大,同时大量污泥处置不当也会危害人体健康和污染环境。传统化学分析测试过程复杂周期长,不利于电镀污泥实时污染防控。能量色散X射线荧光(EDXRF)光谱法分析快速简便、费用低廉、可实现原位检测,然而电镀污泥样品含水率高、成分含量不稳定,影响测试结果的及时性和准确度,导致关键元素的资源转化效率难以保证、环境污染管控难度高。因此需要分析X荧光检测水分影响机制并探究水分校正方法,以提高EDXRF测试结果准确度。以不同含水率电镀污泥为对象,研究了水分对电镀污泥EDXRF测试过程中光谱本底、散射峰、目标元素特征峰的影响机制,通过目标元素特征峰与瑞利散射峰强度的比值、样品含水率ω₀ wt%和目标元素含量C_i%建立水分校正模型,探究了Ca、 Cr、 Fe、 Ni、 Cu、 Zn目标元素的水分校正方程中的实验修正因子。结果表明,水分抬高了光谱本底改变谱峰轮廓,对低能...     

固定化厌氧污泥小球的生物活性研究

本文采用间歇试验法，比较了以壳聚糖为载体、利用包埋法制备的固定化厌氧污泥小球与悬浮厌氧污泥的生物活性，结果是固定化厌氧污泥系统(IANS)的降解能力显著高于悬浮厌氧污泥系统(ANS)。     

造纸污泥与废水污泥流化床焚烧时NO_x和SO_2的排放特性研究

1前言流化床焚烧污犯是近年来发达国家广泛采用的方法，它能很好地实现污泥的稳定化、无害化、减容化和资源化处理。燃煤流化床锅炉污染物排放方面已做了大量的研究工作，由于污泥与煤在结构和性质方面的差异较大，因此有必要对流化床焚烧污泥时污染物排放特性进行研究。本文详细研究了造纸、废水污泥在流化床中焚烧时污泥水份、运行床温及过量空气对NO。和SO。的排放特性及污泥N－＋NO。、S－SO。的转化率的影响，并对这两种性质差异较大的污泥焚烧时的NO。和502的生成特性进行了对比分析，取得了许多有价值的结果，为污泥流化床焚烧…     

污泥中重金属的形态分析及其可浸出性

以自来水厂和污水处理厂的污泥为研究对象,采用Tessier五步法和火焰原子吸收光谱法研究污泥中重金属（Zn、Cu、Cd、Ni、Mn）含量、形态分布以及可浸出性。结果发现,在自来水厂污泥和污水处理厂污泥中重金属总量大小依次为Zn〉Mn〉Ni〉Cu〉Cd,Zn〉Mn〉Cu〉Ni〉Cd,污泥中Zn含量最高,为448.17mg.kg-1;Cd含量最低,为27.17mg.kg-1,超过国家标准,限制了污泥的农用。Tessier形态分析结果表明,污泥中Zn、Cu、Cd主要以稳定态存在;Mn主要以有效态存在,潜在的迁移性和植物毒性最值得关注;Cu浸出率最高,为14.8%,Zn浸出率最低,为0.11%,因此浸出率不仅与金属和污泥的特性有关,而且金属在污泥中赋存的化学形态对其可浸出性也有重要的影响。     

污泥在循环流化床炉内的燃烧和污染排放特性

本文介绍了在１００吨／日循环流化床垃圾焚烧炉上进行的工业污水处理厂干化污泥和城市污水处理厂干化污泥焚烧结果。对焚烧产生的烟气中的污染物烟尘、氮氧化物、二氧化硫、氯化氢、汞、镉、铅和二恶英等排放浓度所进行的测试结果表明,采用循环流化床炉焚烧干化污泥,在炉内加石灰石情况下,烟气排放能达到我国生活垃圾焚烧污染控制标准。     

造纸污泥流化床焚烧试验研究

在一座密相床截面积为 ０．２３ ｍ×０．２３ｍ、高度为 ５ｍ的流化床燃烧试验装置上进行了造纸污泥的焚烧试验．探明污泥水分、流化速度、二次风份额和过剩空气系数等参数对污泥燃烧性能的影响规律,为高水分造纸污泥焚烧炉的优化设计提供了依据．测试表明,在不添加脱硫剂情况下焚烧烟气中ＳＯ２、ＮＯｘ和Ｎ２Ｏ的排放浓度完全满足国家排放标准．     

污泥的超声破解实验研究

本文在测量超声破解污泥试验所用反应器声场的基础上,主要研究了复频超声作用下,超声频率和换能器位置对污泥破解效果的影响。在此基础上采用两个同相换能器,以污泥滤液COD、NH₃-N、TP的增量,首次研究了复频超声破解污泥的效果,且详细探讨了影响复频超声破解污泥的影响因素（不同频率组合、不同功率组合、不同时间组合）。实验结果与理论分析符合较好,从而说明超声是一种有效的破解污泥的方法,进而对超声处理污泥的规律进行研究,这将为超声处理污泥提供一定的实验基础。     

污泥对土壤过氧化氢酶活性的影响

选取自来水厂污泥为实验样品,采用实验室模拟的方法研究了污泥对土壤过氧化氢酶活性及热力学特征参数的影响。结果表明：在不同污泥含量下所有测定期间内过氧化氢酶活性都呈现抑制作用,污泥含量越高,对过氧化氢酶的抑制作用越明显。含污泥的土壤从第1d到第7d,土壤酶活性迅速降低,表现出明显的抑制作用;在第7d,污泥对过氧化氢酶活性的抑制作用达到最大,之后过氧化氢酶的活性缓慢恢复,28d后酶活性趋于平缓。热力学研究表明,过氧化氢酶最适宜温度为307—327K。土壤中含污泥时所需的Ea和ΔH比CK高,且污泥含量越大所需的Ea和ΔH越高,说明酶促反应越来越困难。     

超声波强化一次污泥沉降与脱水性能的研究

本文就超声波处理对一次污泥强化沉降与脱水性能进行了研究。对污泥性质中的SV、滤饼含水率、比阻、粘度等进行了分析。分析表明短时间的超声作用可以提高污泥脱水和沉降性能,超声处理7s后滤饼含水率降低2.9%；超声10s时粘度和比阻值最小,比原污泥分别减小29.4%和24.2%；15s后污泥沉降速率是原污泥的3.7倍。如投加絮凝剂,投加量为0.054g/L时污泥沉降速率最快,最终污泥体积为84.5%,粘度值最低,为84.5mpa·s。加入超声10s作用后,最佳絮凝剂投加量为0.027g/L,且最终污泥体积比单独投加0.054g/L时减小4%,粘度值降低14.8%。超声波与絮凝剂的联用可以改善污泥脱水性能和沉降性能,减小絮凝剂的量达一半以上。     

电镀铜对YBCO超导带材临界电流影响的研究

钇系超导带材(YBCO)由于载流能力强、不可逆场高,是近年来高温超导材料领域的研究热点,并在电力行业实现示范应用。YBCO超导带材由基底、缓冲层、超导层和保护层组成,可通过电镀铜工艺实现保护层的制备。目前,有关电镀铜对YBCO超导带材临界电流的影响还鲜有报道。因此,本研究对比了镀铜前后YBCO超导带材的表面形貌和临界电流。实验结果表明:电镀铜在提高带材机械强度的同时,对其超导电性并无明显影响。     

Expression Dewatering of Mixed Sludges

Filtration followed by expression characteristics of mixtures of clay and activated sludge are first reported in this study. Experimental results indicate that the average specific resistance of the mixed sludge exhibits an ideal-solution like behavior, that is, a linear combination of pure clay and activated sludge with the weight percentage as a parameter. In expression stage, nevertheless, the influence is highly nonlinear. The presence of a little amount of activated sludge can significantly increase both the expression creep effect and the portion of secondary consolidation. The consolidation stage data are interpreted by the Terzaghi-Voigt combined model, from which the model parameters are evaluated accordingly. As the activated sludge is added, both the difficulty of creeping of constituting particles within the sludge cake and the fraction of moisture attributed to the secondary consolidation increases rapidly, revealing a highly nonlinear characteristics. The dewatering efficiency of mixed sludge is discussed.     

Ultrasonic cell disruption of stabilised sludge with subsequent anaerobic digestion

The world-wide increasing environmental awareness and its subsequent regulations have led to the application of improved technologies in wastewater purification plants. This has resulted in higher wastewater and sludge productions. Sludge is the by-product of such plants and it is not only rich in organic carbon and pathogens but also in heavy metals and other environmental pollutants. In Europe, agricultural application of dried sludge (bio-solids) is confronted with negative reactions from the citizens, governmental organisations, farmers and the food industry. Ultrasonic disruption of sludge is a popular mechanical disruption process in sludge treatment. During ultrasonic treatment, high frequency acoustic signals are used to initiate the cavitation process. The applied ultrasonic field leads to a breakdown of cohesive forces of the liquid molecules resulting in the generation of cavitation bubbles. A shock wave is released by the collapse of the cavitation bubbles and propagates in the surrounding medium forming jet streams that cause the disruption of cells in sludge. Disruption of sludge cells enables the release of light organic substances into the sludge water thereby exposing them for further anaerobic digestion. This paper presents results on the disruption of conventionally stabilised sludge through the application of the ultrasonic field. In order to reduce the specific energy input (i.e. ratio of the consumed energy during ultrasonic disruption to the input sludge mass) and improve biogas production, the total solids content of the stabilised sludge was increased before disruption. The anaerobic digestion of sludge samples was carried out in a set of specially constructed laboratory anaerobic digesters. Results showed that subsequent anaerobic digestion of the ultrasonically disrupted sludge could improve biogas production with reduced sludge quantity that is vital to the economic consideration of the wastewater treatment plants. This process encourages the exploitation of valuable materials and energy from stabilised sewage sludge just before its final disposal. The negative effects of mixing disrupted sludge with its separated sludge water are also shown in this paper. This expresses the microbiological instability of the anaerobic process caused by the mixing process.     

Tube reactors as a novel ultrasonication system for trouble-free treatment of sludges

The performance of a novel low-maintenance tube reactor for ultrasonic treatment of sludge has been evaluated. The effects of sonication on the release of soluble chemical oxygen demand (sCOD) and anaerobic digestibility of raw and digested sewage sludge as well as agricultural sludge were studied. Results suggest that solubilization and digestibility is dependent on both type of sludge and the energy input. Digested and raw sludge showed high degree of solubilization, however, methane production was only increased for digested sludge. Agricultural sludge was not significantly affected by ultrasonic treatment neither concerning sCOD release nor methane production. The configuration of the ultrasonic system (serial vs. parallel operation) did not show a significant difference in both sCOD release and methane production. However, parallel operation tends to perform better for digested sludge, while serial operation tends to perform better for raw sludge. The strongest effect was observed for the treatment of digested sludge by increasing the methane production by more than 60%, although with a very intensive energy input of more than 5,000 kJ per kg total solids. Hence, tube reactors seem to be an attractive alternative to sonotrode-based systems achieving similar performance at low maintenance with great potential especially for digested sludge.     

Changes in pore size distribution inside sludge under various ultrasonic conditions

The pore size distribution is quite significant for determining the transport capacity of heat and moisture in sludge during the drying process. It is crucial to investigate the transformation of the pore size in sludge under sonication. In this paper, the microstructures of pores inside sludge before and after ultrasonic treatment with various ultrasonic conditions were observed using a microscope. Fractal geometry and image analysis were combined to quantitatively identify the evolution of pore size in sludge undergoing various acoustic energy densities and treatment times. The surface fractal dimension (d_f) was applied to characterize the pore size distribution of sludge. The results confirmed that sonication has a positive influence on the characteristics of pore structure inside the sludge and that the average pore size increases with increasing ultrasonic energy level, as determined by both acoustic energy density and treatment time. The d_f appropriately characterizes and quantifies the evolution of the pore size distribution of sludge under various ultrasonic conditions. This work is quite valuable for further investigating and evaluating moisture removal in the sludge drying process assisted by ultrasonic treatment.     

强化生物除磷过程中聚β羟基烷酸酯的红外光谱分析

强化生物除磷是废水生物除磷的主要技术手段。在厌氧与好氧交替运行的反应过程中,污泥中聚β羟基烷酸酯(PHA)经历了厌氧储存和好氧降解的过程,其位于1 740 cm-1吸收峰亦呈现出先增强后减弱的变化。通过比较PHA标准品的红外光谱图,实现了活性污泥PHA的红外特征归属,1 740 cm-1红外吸收峰源于PHA羰基特征吸收。利用高斯分峰法将相互重叠的PHA峰、蛋白质Ⅰ峰和蛋白质Ⅱ峰进行了分离,PHA与蛋白质Ⅰ峰的峰面积比值与PHA测定值有较好相关性,相关系数可达0.873,峰面积比值可反映污泥中PHA的变化趋势。选取1 480~1 780 cm-1区域红外光谱,经过归一化处理并转化为吸光度数据后,结合污泥样品PHA含量的色谱分析结果,应用偏最小二乘法建立了污泥样品红外光谱与PHA含量的关系模型,模型预测值与测量值具有较好的一致性,结合未知浓度活性污泥样品的红外光谱以及该关系模型,可以迅速预测未知污泥样品中的PHA含量。该方法的研究为污泥胞内PHA的快速表征和定量分析提供了新的分析方法。     

ICP-AES法测定造纸污泥中金属元素

金属元素,特别是重金属元素是造纸污泥资源化利用需要考虑的因素。采用ICP-AES法测定安徽山鹰纸业2种造纸污泥,福建青山纸业1种造纸污泥,福建中竹纸业1种造纸污泥的17种金属元素。结果显示,4种造纸污泥都含有不同量的金属元素,其中Al和Ca的含量最大,既有毒性较大的重金属,如Cr,也有过量才具有毒性的金属,如Fe,还有对植物生长有益的P和K等。福建中竹纸业污泥各元素的回收率为94.4%～107.3%。重金属元素含量低于国家标准GB/4284—84《农用污泥中污染物控制标准》。重金属含量的顺序为： 福建中竹纸业<福建青山纸业污泥<安徽山鹰纸业污泥。此测定结果可为造纸污泥的资源化利用,尤其是土地利用和肥料利用提供重要的理论参考。     

两种喷嘴喷射性能的试验研究

为比较自激振荡脉冲喷嘴和连续射流喷嘴的喷射性能,利用自行搭建的喷嘴性能测试装置对两种喷嘴的喷射性能进行了试验研究,实测了不同压力下两种喷嘴的时均喷液量,分析了不同口径的连续射流喷嘴和自激脉冲喷嘴的喷射特性,主要探讨了连续射流喷嘴、自激喷头下喷嘴直径对喷嘴喷液性能的影响,并进行了两种射流打击油泥样本的对比试验．试验结果表明,时均喷液特性相似的连续射流和脉冲射流在冲击油泥样本时,相同时间下脉冲射流的冲击破坏范围要大于连续射流,根据试验中油泥的屈服破坏过程,确定了射流有效打击力的临界值,建立射流清洗油泥时有效射程的经验估算式．