Experimental Investigation of Pressure Drop Hysteresis in a Cocurrent Gas-Liquid Upflow Packed Bed

Extensive experimental work on hysteresis in a c℃urrent gas-liquid upflow packed bed was carried out with three kinds of packings and the air-water system. However, only when packed with small glass beads ((1.4 mm) was the bed pressure drop hysteresis observed. Two more liquids with different liquid properties were employed to further examine the influence of parameters on pressure drop hysteresis. The similarity of pressure drop hysteresis in packed beds was concluded in combination of experimental evidence reported in literature.

Degradation of ciprofloxacin hydrochloride in a multiphase mixed system by subaquatic gas-liquid discharge plasma

In recent years, antibiotic pollution has become a serious threat to human health. In this study, a gas-liquid discharge plasma is developed to degrade ciprofloxacin hydrochloride in a multiphase mixed system containing inorganic and organic impurities. The discharge characteristics are analyzed by diagnosing the applied voltage and discharge current waveforms, as well as the optical emission spectra. The work investigates how degradation efficiency is affected by applied voltage, gas flow rate, treatment time, initial concentration as well as the addition of γ-Al_(2)O_(3) pellets and peanut straw. After 70 min, the degradation efficiency of ciprofloxacin hydrochloride in the multiphase mixed system reached 99.6%. Its removal efficiency increases as the initial concentration decreases and the applied voltage increases. Besides, there is still a good degradation efficiency of ciprofloxacin hydrochloride with the addition of peanut straw.The degradation mechanism of ciprofloxacin hydrochloride is investigated through the analysis of degraded intermediates and reactive species.

A Novel Method for Determining the Void Fraction in Gas-Liquid Multi-Phase Systems Using a Dynamic Conductivity Probe

Conventional conductivity methods for measuring the void fraction in gas-liquid multiphase systems are typically affected by accuracy problems due to the presence of fluid flow and salinity.This study presents a novel approach for determining the void fraction based on a reciprocating dynamic conductivity probe used to measure the liquid film thickness under forced annular-flow conditions.The measurement system comprises a cyclone,a conductivity probe,a probe reciprocating device,and a data acquisition and processing system.This method ensures that the flow pattern is adjusted to a forced annular flow,thereby minimizing the influence of complex and variable gas-liquid flow patterns on the measurement results;Moreover,it determines the liquid film thickness solely according to circuit connectivity rather than specific conductivity values,thereby mitigating the impact of salinity.The reliability of the measurement system is demonstrated through laboratory experiments.The experimental results indicate that,in a range of gas phase superficial velocities 5–20 m/s and liquid phase superficial velocities 0.079–0.48 m/s,the maximum measurement deviation for the void fraction is 4.23%.

A New Device for Gas-Liquid Flow Measurements Relying on Forced Annular Flow

A new measurement device,consisting of swirling blades and capsule-shaped throttling elements,is proposed in this study to eliminate typical measurement errors caused by complex flow patterns in gas-liquid flow.The swirling blades are used to transform the complex flow pattern into a forced annular flow.Drawing on the research of existing blockage flow meters and also exploiting the single-phase flow measurement theory,a formula is introduced to measure the phase-separated flow of gas and liquid.The formula requires the pressure ratio,Lockhart-Martinelli number(L-M number),and the gas phase Froude number.The unknown parameters appearing in the formula are fitted through numerical simulation using computational fluid dynamics(CFD),which involves a comprehensive analysis of the flow field inside the device from multiple perspectives,and takes into account the influence of pressure fluctuations.Finally,the measurement model is validated through an experimental error analysis.The results demonstrate that the measurement error can be maintained within±8%for various flow patterns,including stratified flow,bubble flow,and wave flow.

Enhanced degradation of tetracycline by gas-liquid discharge plasma coupled with g-C_(3)N_(4)/TiO_(2)

Plasma-catalysis is considered as one of the most promising technologies for antibiotic degradation in water.In the plasma-catalytic system,one of the factors affecting the degradation effect is the performance of the photocatalyst,which is usually restricted by the rapid recombination of electrons and holes as well as narrow light absorption range.In this research,a photocatalyst g-C_(3)N_(4)/TiO_(2) was prepared and coupled with gas-liquid discharge(GLD)to degrade tetracycline(TC).The performance was examined,and the degradation pathways and mechanisms were studied.Results show that a 90%degradation rate is achieved in the GLD with g-C_(3)N_(4)/TiO_(2) over a 10 min treatment.Increasing the pulse voltage is conducive to increasing the degradation rate,whereas the addition of excessive g-C_(3)N_(4)/TiO_(2) tends to precipitate agglomerates,resulting in a poor degradation efficiency.The redox properties of the g-C_(3)N_(4)/TiO_(2) surface promote the generation of oxidizing active species(H2O2,O3)in solution.Radical quenching experiments showed that·OH,hole(h^(+)),play important roles in the TC degradation by the discharge with g-C_(3)N_(4)/TiO_(2).Two potential degradation pathways were proposed based on the intermediates.The toxicity of tetracycline was reduced by treatment in the system.Furthermore,the g-C_(3)N_(4)/TiO_(2) composites exhibited excellent recoverability and stability.

Effects of channel wall wettability on gas-liquid dynamics mass transfer under Taylor flow in a serpentine microchannel

The wall wettability of microchannels plays an important role in the gas-liquid mass transfer dynamics under Taylor flow.In this study,we regulated the contact angle of the wall surface through surface chemical grafting polymerization under controlled experimental conditions.The dynamic changes of CO_(2)bubbles flowing along the microchannel were captured by a high-speed video camera mounted on a stereo microscope,whilst a unit cell model was employed to theoretically investigate the gas-liquid mass transfer dynamics.We quantitatively characterized the effects of wall wettability,specifically the contact angle,on the formation mechanism of gas bubbles and mass transfer process experimentally.The results revealed that the gas bubble velocity,the overall volumetric liquid phase mass transfer coefficients(kLa),and the specific interfacial area(a)all increased with the increase of the contact angle.Conversely,gas bubble length and leakage flow decreased.Furthermore,we proposed a new modified model to predict the gas-liquid two-phase mass transfer performance,based on van Baten’s and Yao’s models.Our proposed model was observed to agree reasonably well with experimental observations.

南京地区水厂上、下向流生物活性炭工艺应用效能对比

通过对南京地区两水厂中上向流和下向流生物活性炭(biological activated carbon,BAC)池的长期检测,系统对比了两种类型BAC的净化效能和自身性能变化规律。结果表明,在水厂长期运行过程中,上向流BAC池对氨、高锰酸盐指数等水质指标的总体去除效能优于下向流BAC池;上向流、下向流BAC池中BAC的碘值和亚甲蓝值衰减程度相近,但上向流BAC池中BAC颗粒的吸附性能优于下向流水厂;运行8年后,两类BAC池中生物量和生物活性都趋于稳定,但上向流BAC池中的微生物群落丰富度较高,生物降解性能较好。

前置上流式反应器的固定床渣油加氢工艺运行分析及研发建议

原油价格高企,需要高效利用原油资源,渣油加氢技术是较好的选择,微膨胀的上流式反应器与固定床反应器结合的渣油加氢工艺技术已成功开发并多次工业应用。分别选取两套上流式反应器与固定床反应器结合的渣油加氢装置(A、C)和两套固定床渣油加氢装置(B、D)进行对比分析,结果表明:前置上流式反应器的渣油加氢工艺技术也能加工不同类型的渣油原料,A装置加工高氮含量的渣油原料,其在装置运转第14周期脱硫率、脱氮率、脱金属率和降残炭率分别为82.46%,31.51%,73.69%,54.85%;C装置加工高硫含量的渣油原料,其在装置运转第5周期脱硫率、脱氮率、脱金属率和降残炭率分别为85.23%,38.71%,72.83%,54.49%;级配催化剂均满足装置的技术需求。与固定床渣油加氢装置相同,上流式反应器第一催化剂层也会出现较大的径向温差,第一反应器压降也会升高,主要与催化剂床层中的物流分布和膨胀程度有关。建议进行上流式反应器内构件、催化剂和关键工艺参数的协同研发。

IC厌氧反应器内上升流速对钙离子截留量的影响

IC反应器钙化问题是造纸废水处理中面临的重大问题,钙离子截留量的高低是判断污泥钙化快慢的主要依据。本文针对某造纸企业3个IC反应器的进出水各项指标及进水量、循环量、上升流速等工艺指标进行分析,探讨了上升流速的高低对钙离子截留量的影响。

Evaluation of frictional pressure drop correlations for air-water and air-oil two-phase flow in pipeline-riser system

Accurate prediction of the frictional pressure drop is important for the design and operation of subsea oil and gas transporting system considering the length of the pipeline. The applicability of the correlations to pipeline-riser flow needs evaluation since the flow condition in pipeline-riser is quite different from the original data where they were derived from. In the present study, a comprehensive evaluation of 24prevailing correlation in predicting frictional pressure drop is carried out based on experimentally measured data of air-water and air-oil two-phase flows in pipeline-riser. Experiments are performed in a system having different configuration of pipeline-riser with the inclination of the downcomer varied from-2°to-5°to investigated the effect of the elbow on the frictional pressure drop in the riser. The inlet gas velocity ranges from 0.03 to 6.2 m/s, and liquid velocity varies from 0.02 to 1.3 m/s. A total of885 experimental data points including 782 on air-water flows and 103 on air-oil flows are obtained and used to access the prediction ability of the correlations. Comparison of the predicted results with the measured data indicate that a majority of the investigated correlations under-predict the pressure drop on severe slugging. The result of this study highlights the requirement of new method considering the effect of pipe layout on the frictional pressure drop.

A Numerical Study on the Effect of the Backflow Hole Position on the Performances of a Self-Priming Pump

A self-priming pump is a centrifugal pump that has the ability to prime itself. Typically, its performance dependson the configuration of its reflux hole. In this study, the ANSYS FLUENT software is used to investigate the effectsof three different radial positions of the reflux hole on gas-liquid two-phase distribution, pressure pulsation, andimp during self-priming. The research results indicate that: (1) The effective channel size for the reflux liquid toenter the volute varies depending on the location of the reflux hole. The effect of the impeller rotation on thereflux liquid becomes more obvious as the setting distance of the reflux aperture decreases. (2) The position ofthe reflux hole significantly affects the gas phase mass fraction inside the impeller, resulting in a significant reductionin the time it takes for the mass fraction to exceed 80%. (3) The position of the reflux hole significantly affectsthe average pressure on each monitoring surface. (4) Placing the reflux hole at a excessively distant radial distancecan result in an excessive vertical component. (5) The self-priming performance of the pump can be improved tosome extent by placing the return hole at a small radial distance.

A New Distribution Method for Wet Steam Injection Optimization

A new approach and a new related distribution system are proposed to address the issue of uneven steam injection caused by the different suction capacities of the used wells during the application of steam“stimulation”methods for enhanced oil recovery.The new distribution system consists of a swirler,spiral dividing baffles,and critical flow nozzles.Numerical simulations are used to analyze the flow-field and degree of steam homogeneity obtained with such an approach.The results indicate that a higher inlet pressure leads to better results.Additionally,the internal flow field becomes more stable,and the deviation from an even distribution reduces to±4.0%even when the resistance of each branch is inconsistent.Furthermore,field tests have yielded satisfactory results.

UHASB升流式水解酸化反应器处理制药废水的中试试验

针对某制药废水为主的工业污水厂水解酸化池因布水不均、污泥板结和短流等导致运行效果不佳的问题,利用UHASB升流式水解酸化器对制药废水为主的工业污水进行了中试试验。试验结果显示:当COD_(Cr)进水质量浓度为195.4~600 mg/L时,两套中试设备平均COD_(Cr)去除率超过31.51%,平均SCOD_(Cr)/COD_(Cr)超过0.80,相较于对照组COD_(Cr)去除率提高15%以上,SCOD_(Cr)/COD_(Cr)(0.63)提升33%以上;当进水受到水质水量冲击时,中试设备出水水质维持稳定,COD_(Cr)质量浓度约为200 mg/L,波动抑制率超过60%。研究结果表明:UHASB升流式水解酸化反应器用于处理该污水厂废水,其处理效果相较于污水厂现有预处理工段具备明显优势,中试试验为该工业污水厂预处理工段的改造提供技术参考。

基于UHOFe处理制浆造纸废水体系的计算模拟与优化

在保证废水水力停留时间的情况下,为研究上流式多相废水处理氧化塔(UHOFe)的结构及进水参数、搅拌转速对反应器内部流态均匀度的影响,通过计算流体力学(CFD)的数值模拟方法,考察装载搅拌桨叶对UHOFe反应器内部流场的影响情况。首先建立了反应器的参数化模型,通过引入平面内速度变异系数(MF)作为进水均匀度的评价指标,然后使用计算机流体力学软件ANSYS 2022,结合单因素实验以及正交实验,对反应器的内部流体流态进行三维流场数值模拟仿真。模拟仿真结果表明,装载搅拌桨叶可加强反应器内部液体的混合,且当出水口高度为12850 mm、入水口速率为3 m/s、搅拌桨叶尺寸为1300 mm、搅拌转速为140 r/min时,反应器内的进水均匀度效果最优,最有利于提升Fenton体系的药剂间混合效率,最终提高废水处理效率。

浅槽重介质分选机上升流系统结构改造研究

针对永安煤矿选煤厂W26F54浅槽重介质分选机上升流系统频繁发生堵塞问题,导致精煤产品质量下降、人工成本增加等问题,在对堵塞问题原因分析基础上,对上升流系统结构从系统管路改造、布流孔板结构改造、上升流介质斗缓冲版改造进行了系统改造。实践应用表明:改造后上升流系统堵塞频率降低了95%,对分选效果无影响,经济效益显著。

浅槽分选上升流防堵优化

针对生产过程中浅槽分选上升流系统不畅及易堵塞的问题,分析了堵塞原因,探究了影响上升流系统的因素,优化了重介质浅槽分选机上升流系统结构。结果表明,悬浮液粘度、上升流系统结构等都是影响上升流系统是否堵塞的因素;上升流系统管道壁面上的颗粒以拉升模式或滚动模式离开,否则颗粒将粘附在壁面上;优化采用了布流孔板和上升流介质斗,大幅降低了上升流系统管道堵塞频率。

W26F60型重介浅槽分选机上升流回流过滤装置设计与应用

针对晋能控股煤业集团马道头选煤厂细泥量增大、浅槽分选密度不稳的生产状况,根据上升介质流向对管路进行优化改造,通过加装回流过滤系统装置,形成闭路循环,可提高合介桶磁介质量,实现上料的密度稳定。

液相柴油加氢反应器内件损坏原因分析与对策研究

SLHT液相柴油加氢装置取消了复杂的高压循环氢系统,代之以简单的循环油系统,采用上流式反应器,反应器内全液相操作,反应器的长径比、床层高度不受双相流动模型的限制,内构件少,能耗降低显著,比传统的滴流床技术低40%以上。不同于传统的滴流床加氢反应器,上流式反应器在压降升高后无法进行催化剂撇头,使得反应器压降成为制约装置长周期安全平稳运行的主要瓶颈。本文对因反应器压降高造成内件损坏的原因进行分析总结,提出改进压板层约翰逊网安装方式、完善操作工况、降低反应循环比、优化催化剂装填方案等措施,取得显著效果,对同类液相柴油加氢装置具有较好的借鉴和推广价值。

带非局部边值条件的Gas-Liquid模型正解的渐近性态

应用bootstrap技巧,讨论了带非局部边值条件的Gas-Liquid模型正周期拟解的存在性和一般时变解的渐近性态.

Anammox transited from denitrification in upflow biofilm reactor

Anammox was successfully transited from heterotrophic denitrification and autotrophic denitrification in two upflow biofilm reactors, respectively. The results showed that the volumetric loading rate and nitrogen removal efficiency in the reactor transited from heterotrophic denitrification were higher than that in its counterpart. When the hydraulic retention time was 12 h or so, the total nitrogen loading rate was about 0.609 kg N/(m3·d), and the effluent ammonia and nitrite concentrations were less than 8.5 mg/L and 2.5 mg/L, respectively. The upflow anammox biofilm reactor was capable of keeping and accumulating the slow-growing bacteria efficiently. During operation of the reactor, the biomass color was gradually turned from brownish to red, and the ratio of ammonia consumption, nitrite consumption and nitrate production approached the theoretical one. These changes could be used as an indicator for working state of the reactor.