A study of hydrate plug formation in a subsea natural gas pipeline using a novel high-pressure flow loop

The natural gas pipeline from Platform QKI8-1 in the southwest of Bohai Bay to the onshore processing facility is a subsea wet gas pipeline exposed to high pressure and low temperature for a long distance. Blockages in the pipeline occur occasionally. To maintain the natural gas flow in the pipeline, we proposed a method for analyzing blockages and ascribed them to the hydrate formation and agglomeration. A new high-pressure flow loop was developed to investigate hydrate plug formation and hydrate particle size, using a mixture of diesel oil, water, and natural gas as experimental fluids. The influences of pressure and initial flow rate were also studied. Experimental results indicated that when the flow rate was below 850 kg/h, gas hydrates would form and then plug the pipeline, even at a low water content （10%） of a water/oil emulsion. Furthermore, some practical suggestions were made for daily management of the subsea pipeline.

Experimental research on characteristic of start-up pressure wave propagation in gelled crude oil by large-scale flow loop

In order to research start-up pressure wave propagation mechanism and determine pressure wave speed in gelled crude oil pipelines accurately,experiment of Large-scale flow loop was carried out.In the experiment,start-up pressure wave speeds under various operation conditions were measured,and effects of correlative factors on pressure wave were analyzed.The experimental and theoretical analysis shows that thermal shrinkage and structural properties of gelled crude oils are key factors influencing on start-up pressure wave propagation.The quantitative analysis for these effects can be done by using volume expansion coefficient and structural property parameter of gelled crude oil.A new calculation model of pressure wave speed was developed on the basis of Large-scale flow loop experiment and theoretical analysis.

UPFC setting to avoid active power flow loop considering wind power uncertainty

The active power loop flow(APLF)may be caused by impropriate network configuration,impropriate parameter settings,and/or stochastic bus powers.The power flow controllers,e.g.,the unified power flow controller(UPFC),may be the reason and the solution to the loop flows.In this paper,the critical existence condition of the APLF is newly integrated into the simultaneous power flow model for the system and UPFC.Compared with the existing method of alternatively solving the simultaneous power flow and sensitivity-based approaching to the critical existing condition,the integrated power flow needs less iterations and calculation time.Besides,with wind power fluctuation,the interval power flow(IPF)is introduced into the integrated power flow,and solved with the affine Krawcyzk iteration to make sure that the range of active power setting of the UPFC not yielding the APLF.Compared with Monte Carlo simulation,the IPF has the similar accuracy but less time.

LOCAL NONLINEAR CHARACTERISTICS OF GAS LIQUID SOLID THREE PHASE SELF ASPIRATED REVERSED FLOW JET LOOP REACTOR

Hursts rescaled range (R/S) analysis and Wolfs attractor reconstruction technique have been adopted to estimate the local fractal dimensions and the local largest Lyapunov exponents in terms of the time series pressure fluctuations obtained from a gas liquid solid three phase self aspirated reversed flow jet loop reactor,respectively.The results indicate that the local fractal dimensions and the local largest Lyapunov exponents in both the jet region and the tubular region inside the draft tube increase with the increase in the jet liquid flowrates and the solid loadings,the local fractal dimension profiles are similar to those of the largest Lyapunov exponent,the local largest lyapunov exponents are positive for all cases,and the flow behavior of such a reactor is chaotic.The local nonlinear characteristic parameters such as the local fractal dimension and the local largest Lyapunov exponent could be applied to further study the flow properties such as the flow regime transitions and flow structures of this three phase jet loop reactor.

LOCAL CHAOS CHARACTERISTICS IN A SELF ASPIRATED REVERSED FLOW JET LOOP REACTOR

The local chaos characteristics of the time series pressure fluctuations of gas liquid two phase flow in a self aspirated reversed flow jet loop reactor are studied by the deterministic chaos analysis technique. It is found that the estimated local largest Lyapunov exponent is positive in all cases and the profile is similar to that of the local fractal dimension in this reactor. The positive largest Lyapunov exponent shows that the reactor is a nonlinear chaotic system. The obvious distribution indicates that the local nonlinear characteristic parameters such as the Lyapunov exponent and the fractal dimension could be applied to further study the flow characteristics such as the flow regine transitions and flow structures of the multi phase reactors.

FLOW AND DIFFUSION IN SELF-ASPIRATED REVERSE FLOW JET LOOP REACTOR

1 INTRODUCTIONGas and liquid distributions in a self-aspirated reverse flow jet loop reactor dependchiefly on the aspiration and the breakup against gas phase by the liquid nozzle aswell as the redistribution in the draft tube.It has also been noted that effective diffu-sion or backmixing in the reactor has great influence on the flow and mass transferrates.In this case,accurate descriptions about the fluid flow and diffusion conditions inthe reactor are most necessary for effective amplification of them.

LOCAL LIQUID-PHASE OHARAOTERISTIOS OF THE SELF-ASPIRATED REVERSED FLOW JET LOOP REAOTOR

The local liquid--phase characteristics of the gas--liquid two-phase and gas--liquid--solid threephase self-aspirated reversed flow jet loop reactor with a concentric gas--liquid injection nozzle were studied experimentally. They facilitate the evaluation of local phenomena. The local instantaneous liquid velocities at different axial positions of the reactor were measured by using the modified pilot tube.The local liquid-phase turbulent structural parameters such as time-averaged velocity. turbulent nuctuating velocity and turbulent micro scale were calculated with the aid of the statistical theory of turbulence. In particular, effects of liquid jet flowrates and solid loadings on the profiles of the liquid--phase turbulent structural parameter both in the jet effective region and in the tubular region inside the draft tube were discussed.

FRACTAL STUDIES IN A SELF-ASPIRATED REVERSED FLOW JET LOOP REACTOR

1 INTRODUCTIONSelf-aspirated reversed flow jet loop reactors,characterized by a well defined flow pat-tern,well better dispersing effects,relatively low power consumption and a high masstransfer coefficient,are widely used in chemical engineering,especially in biochemicalengineering.The characteristics of such reactors are highly random or stochastic due tothe influence of a variety of phenomena such as jetting and bubbling of the

Modeling of Continuous Cross-flow Microfiltration Process in an Airlift External-loop Slurry Reactor

New modified combination mathematical models including the pores blocking models and the cake layer models were developed to describe the continuous cross-flow microfiltration in an airlift external loop slurry reactor. The pores blocking models were created based on the standard blocking law and the intermediate blocking law, and then the cake layer models were developed based on the hydrodynamic theory in which the calculation method of porosity of cake layer was newly corrected. The Air-Water-FCC equilibrium catalysts cold model experiment was used to verify the relevant models.Results showed that the calculated values fitted well with experimental data with a relative error of less than 10%.

Experimental Investigation on the Effection of Flow Regulator in a Multiple Evaporators/Condensers Loop Heat Pipe with Plastic Porous Structure

Multiple loop heat pipes which have two evaporators and two condensers in one loop are a kind of active heat transfer device. Since they have two evaporators and two condensers, the operating mode also becomes multiple. This work discusses the cases that multiple loop heat pipes were operated with one condenser at high temperature and the other at low temperature. To avoid the high temperature returning liquid and keep the multiple loop heat pipes work properly, the flow regulator which was made of polyethylene was designed, fabricated and applied in this test. The effect of flow regulator was confirmed and analyzed. In the test that large temperature difference existed between two sinks, it can be found according to the result that the flow regulator worked effectively and prevented the high temperature vapor to enter the inlet of common liquid line, which can keep the evaporators and returning liquid to operate at low temperature. With the increment of heat loads and the temperature difference between two sinks, the pressure difference between two condensers became larger and larger. When the pressure difference was larger than the flow regulator’s capillary force, the flow regulator could not work properly because the high temperature vapor began to flow through the flow regulator. According to the test data, the flow regulator can work properly within the sinks’ temperature 0°C/60°C and the two evaporators’ heat load 30/30 W.

基于激光热成像的薄膜面向导热系数测试方法

提出一种基于激光热成像的薄膜面向导热系数测试方法。仿真论证了激光加热相较于常规电加热方案的热损失差异;分析了激光加热功率、表面换热系数、测温模型增益系数等关键参数标定问题,并设计了相应的方案。基于15个不同材料或厚度的薄膜和薄片样品进行了实验,测试结果和参考值相对偏差均<6%,其中导热系数<3 W/(m·K)的样品测试误差显著优于常规方法,这表明该方法可有效改善热流环路积分法对低导热薄膜的测试精度。

Numerical Simulation and Experimental Analysis of the Influence of Asymmetric Pressure Conditions on the Splitting of a Gas-Liquid Two-Phase Flow at a T-Junction

Dedicated experiments and numerical simulations have been conducted to investigate the splitting characteristics of a gas-liquid two phase flow at a T junction.The experiments were carried out for different gas-liquid velocities.The flow rates in the two branches were measured accurately to determine how the two considered phases distribute in the two outlets.The experimental results have shown that when the two outlet pressures are asymmetric,the two-phase flow always tends to flow into the outlet which has a lower pressure.As the inlet liquid velocity increases,however,the two-phase flow gradually tends to split evenly.Compared with the experiment results,the pressure difference between the two outlets can be determined more accurately by means of numerical simulation.The trends of experimental results and simulations are in very good agreement.

钐钴永磁流量计研制与锂铅自然对流回路流速测量

介绍了钐钴永磁流量计的研制过程,包括材料选取、结构设计、运行原理及内部磁场分布状态。利用镓铟锡高温冲刷回路与商用流量计对其进行了校准比对,结果显示校准后的平均流速约为钐钴永磁流量计测量值的1.8倍。将校准后的结果运用于液态锂铅自然对流回路的流速测量,并与商业软件ANSYS Fluent模拟计算结果进行对比,二者之间的误差约为23.3%,并对误差进行了分析。通过实验与分析,确定锂铅自然对流回路的流速范围约为0.05~0.06m·s^(-1)。

捻转血矛线虫LAMP-LFD检测方法的建立

为了建立一种用于检测捻转血矛线虫的特异、灵敏、快速的检测方法,用环介导等温扩增技术(LAMP)结合横向流动试纸条(LFD),针对捻转血矛线虫mt-COⅠ基因的保守序列设计特异性引物和探针,对反应温度、反应时间、Mg^(2+)浓度、dNTP浓度进行优化,建立了捻转血矛线虫环介导等温扩增技术与横向流动试纸条检测技术(LAMP-LFD)相结合的核酸检测方法。结果显示,建立的LAMP-LFD检测方法最低检测限为100 fg,对奥斯特线虫、夏伯特线虫、毛首线虫DNA检测均为阴性;50份临床样品检测结果与粪便虫卵检测法结果的符合率为96%。该方法操作方便、结果判定快速简单,有望成为流行区域和基层检测捻转血矛线虫的新方法。

基于DK2-PLF的主动配电网馈线合环电流评估

合环电流评估技术对于配电网馈线合环转供电操作具有重要意义,为了提高主动配电网馈线合环电流计算的准确性,文中从融入源荷数据分布特性及预测的角度,提出基于双重K2算法和概率潮流(double K2 algorithm and probability load flow,DK2-PLF)的主动配电网馈线合环电流评估方法。首先,采用基于DK2算法的贝叶斯网络描述源荷相关性样本;其次,利用Cholesky分解方法处理获得的源荷相关性样本,以半不变量法计算主动配电网馈线合环电流的累积概率分布;然后,对主动配电网馈线合环电流从合环成功率和越限程度两方面进行安全性评估;最后,以贵州某城市为算例,对10 kV配电网系统开展馈线合环电流评估研究。得出以下结论:一是从概率密度、累积分布、最大误差三方面比较,相比于K2算法,DK2算法源荷预测值的概率密度、累积分布误差较小,验证了DK2算法的优越性;二是从累积分布、最大误差两方面比较,采用Cholesky分解的半不变量法对比未采用Cholesky分解的半不变量法、蒙特卡洛法,其累积分布误差较小,采用Cholesky分解的半不变量法满足主动配电网馈线合环电流评估要求;三是从合环成功率、合环越限程度两方面比较,采用半不变量法计算的合环电流安全性指标结果与仿真结果偏差在电网经验误差5%范围内,说明基于DK2-PLF的主动配电网馈线合环电流评估方法可为合环辅助决策提供参考。

二级环流反应器中收缩-膨胀隔板的性能优化

通过在二级环流反应器两级之间安装具有收缩-膨胀形状的隔板,可以有效减小两级之间的液相回流流量,但同时会增加流体流动阻力。为了在减小液相回流流量的前提下减小流动阻力,本研究对隔板进行优化设计。首先通过模拟计算获得不同隔板下的压降和液相回流流量,随后对数据进行拟合,得到压降、液相回流流量与结构参数的关联式。计算结果表明当表观气速较小时,隔板宽度对压降影响较大,高度的影响较小。表观气速增大时,隔板高度对压降的影响变大。在所有气速下,隔板宽度是影响液相回流流量的决定因素。最后通过多目标优化,获得了在不同表观气速下最优隔板的Pareto前沿。

双圈流水泥粉磨系统节能降耗优化调整实践

某水泥生产线采用由RP170mm-140mm辊压机与ϕ4.2m×13m球磨机组成的水泥粉磨双圈流半终粉磨系统,运行过程中存在辊压机辊面磨损严重、物料挤压效果差、系统结皮严重、选粉机间连接风管布置不合理、收尘器阻力较高、球磨机二仓研磨体反向分级严重等问题,系统工序电耗偏高。通过采取减小辊压机初始辊缝、严格控制原材料水分、治理设备漏风、调整磨内结构及研磨体级配等优化措施,改善了系统结皮,降低了系统阻力,粉磨系统产量由200t/h增至230t/h,水泥生产工序电耗由29kW·h/t降至25~26kW·h/t,节能降耗效果显著。

基于压缩开关候选集合的分布鲁棒配电网重构方法

在大规模多时刻配电网重构(distribution network reconfiguration,DNR)问题中,大量待优化的开关严重降低了配电网重构的求解效率。针对此问题,提出了一种压缩开关候选集合的分布鲁棒配电网重构模型,该模型分为2个阶段,第1阶段以最小化系统有功网损为目标函数,使用最优匹配回路流法压缩开关候选集合,第2阶段以最小化取电成本和开关动作成本之和为目标函数,并构建以电源点容量为限值的机会约束,采用基于Wasserstein球的分布鲁棒方法处理分布式电源的不确定性,利用对偶转换方法对目标函数中的最坏情况期望和机会约束进行确定性转换,将模型转化为一个混合整数二阶锥规划问题。最后,对33节点和辽宁盘锦45节点系统进行了数值实验,证明了所提模型能够有效提升计算效率,与鲁棒模型和随机规划模型相比,决策者可以通过改变样本数量和置信度来调整模型的经济性和保守性。

绝热段阻力对CO_(2)、R134a和R410A分离式热管传热性能的影响

通过实验研究了上升管和下降管阻力对CO_(2)、R134a和R410A分离式热管传热性能的影响,分析了热管传热极限和传热热阻的变化规律。研究发现阻力变化对不同工质热管的影响不同,对于CO_(2)热管,上升管阻力和下降管阻力对其传热性能的影响程度接近,当上升管或下降管阀门开度从90°降至30°时,CO_(2)热管的传热极限均由1200 W降为700 W。对于R134a和R410A热管而言,上升管阻力对其传热性能的影响更大,当上升管阀门开度从90°降至30°时,R410A热管的传热极限由1300 W降为700 W,R134a热管则未出现正常运行状态,管内始终存在较大的过热过冷度,两种热管的传热热阻也显著增大。而下降管阻力增大对R134a和R410A热管的传热性能几乎无影响。因此,在实际工程设计中,CO_(2)热管应采用上升管和下降管管径相同或相近的结构,而R134a和R410A热管适合采用上升管管径明显大于下降管管径的结构,以达到节省管材的目的。

基于关键要素管控的铁路网络空间安全防御研究

随着我国铁路信息化、数字化、智能化的持续发展,以及其技术水平和服务能力的不断提升,铁路企业所面临的网络安全态势愈发严峻。文章分析铁路网络安全现状及面临的挑战,研究基于信息台账、网络流量、数据流向、闭环流程等关键要素管控的铁路网络空间安全防御措施,以实现对铁路网络空间安全防御能力的进一步提升,为铁路新质生产力的形成及数字化转型提供有益借鉴。