超低渗油藏在线分流酸化增注技术研究与应用

酸化是超低渗油藏最有效的增注措施之一，但由于储层物性差、非均质性强等问题，造成目前常规酸化措施普遍具有施工周期长、有效率低、有效作用距离短等不足，且酸化过程中存在指进现象和储层二次伤害。针对这一问题，选取鄂尔多斯盆地环江油田三叠系超低渗油藏为研究对象，提出了在线分流酸化技术，并配套研制了一种多元缓速螯合酸COA-1S和一种新型的水溶性分流剂COA-1P。通过室内评价实验和在线分流酸化模拟实验，发现该技术在缓速性、配伍性、水溶性、螯合能力和暂堵功能等方面均显著优于常规酸化；现场先导性实验结果表明，酸化后剖面吸水均匀程度从28.5%上升至50.9%，视吸水指数增加2倍左右，降压增注效果显著；同时，该技术还具有“不停井、不泄压、不动管柱、不返排”的特点，简化了常规分流酸化工序、降低了安全环保风险，是一种能够很好地适应超低渗油藏特征的酸化增注技术。     

河南WR-1地热井降压试验水位校正的应用研究

一般的单井稳定流抽水试验,可直接利用从孔口测得的水位降深与对应的流量关系,求取含水层的水文地质参数。但对地热井而言,由于在抽水过程中,井筒内水温的变化可对井中水位产生较大影响,故不宜直接利用降压试验前测得的静水位埋深和孔口所测的水位降深值,而应该进行静水位和动水位的校正(刘永贵,2016),才能与观测的水位埋深、水量、水温相匹配进行参数计算(高新智,2015)。文章以尉氏县WR-1地热井馆陶组降压试验静水位、动水位校正实例,阐述地热井降压试验水位校正的有效性和必要性。     

超临界流体的泄压过程研究

超临界水堆(SCWR)的LOCA研究是安全分析的重点和难点,其中压力容器的喷放泄压过程的研究至关重要。本文通过对反应堆压力容器进行简化,建立了简单容器喷放的数学物理模型,开发了超临界流体的喷放瞬态计算程序。将该程序的计算结果与超临界二氧化碳的泄压喷放过程的实验数据进行了比较,计算值与实验结果吻合良好,验证了模型的正确性。运用该验证后的程序对超临界水的容器喷放过程进行了深入研究和分析,分析了不同初始条件、破口面积及加热功率等对泄压过程瞬态特性的影响。结果表明,本文建立的简单容器模型能模拟从超临界到亚临界压力的喷放泄压过程。计算结果可为超临界水堆的LOCA分析提供理论基础。     

AP1000核电厂自动泄压系统误启动事故计算

基于最佳估算程序RELAP5/MOD3.3,对AP1000核电厂冷却剂系统和非能动堆芯冷却系统进行了建模分析,得到了自动泄压系统(ADS)阀门误启动事故下,系统压力、破口流量、系统水装量等参数的瞬态变化,计算结果与西屋公司采用NOTRUMP程序的计算结果进行了比较与分析。结果表明:AP1000核电厂的非能动专设安全设施能有效对一回路进行冷却和降压,防止堆芯过热,验证了AP1000发生ADS阀门误启动事故后的安全性。     

Numerical Study on Wake Flow Field Characteristic of the Base-Bleed Unit under Fast Depressurization Process

Numerical analyses have been performed to study the influence of fast depressurization on the wake flow field of the base-bleed unit (BBU) with a secondary combustion when the base-bleed projectile is propelled out of the muzzle. Two-dimensional axisymmetric Navier-Stokes equations for a multi-component chemically reactive system is solved by Fortran program to calculate the couplings of the internal flow field and wake flow field with consideration of the combustion of the base-bleed propellant and secondary combustion effect. Based on the comparison with the experiments, the unsteady variation mechanism and secondary combustion characteristic of wake flow field under fast depressurization process is obtained numerically. The results show that in the fast depressurization process, the variation extent of the base pressure of the BBU is larger in first 0.9 ms and then decreases gradually and after 1.5 ms, it remains basically stable. The pressure and temperature of the base-bleed combustion chamber experience the decrease and pickup process. Moreover, after the pressure and temperature decrease to the lowest point, the phenomenon that the external gases are flowing back into the base-bleed combustion chamber appears. Also, with the decrease of the initial pressure, the unsteady process becomes shorter and the temperature gradient in the base-bleed combustion chamber declines under the fast depressurization process, which benefits the combustion of the base-bleed propellant.     

Analysis of different containment models for IRIS small break LOCA, using GOTHIC and RELAP5 codes

Advanced nuclear water reactors rely on containment behaviour in realization of some of their passive safety functions. Steam condensation on containment walls, where non-condensable gas effects are significant, is an important feature of the new passive containment concepts, like the AP600/1000 ones.In this work the international reactor innovative and secure (IRIS) was taken as reference, and the relevant condensation phenomena involved within its containment were investigated with different computational tools. In particular, IRIS containment response to a small break LOCA (SBLOCA) was calculated with GOTHIC and RELAP5 codes. A simplified model of IRIS containment drywell was implemented with RELAP5 according to a sliced approach, based on the two-pipe-with-junction concept, while it was addressed with GOTHIC using several modelling options, regarding both heat transfer correlations and volume and thermal structure nodalization. The influence on containment behaviour prediction was investigated in terms of drywell temperature and pressure response, heat transfer coefficient (HTC) and steam volume fraction distribution, and internal recirculating mass flow rate. The objective of the paper is to preliminarily compare the capability of the two codes in modelling of the same postulated accident, thus to check the results obtained with RELAP5, when applied in a situation not covered by its validation matrix (comprising SBLOCA and to some extent LBLOCA transients, but not explicitly the modelling of large dry containment volumes).The option to include or not droplets in fluid mass flow discharged to the containment was the most influencing parameter for GOTHIC simulations. Despite some drawbacks, due, e.g. to a marked overestimation of internal natural recirculation, RELAP5 confirmed its capability to satisfactorily model the basic processes in IRIS containment following SBLOCA.     

Two types of a passive safety containment for a near future BWR with active and passive safety systems

The paper presents two types of a passive safety containment for a near future BWR. They are named Mark S and Mark X containment. One of their common merits is very low peak pressure at severe accidents without venting the containment atmosphere to the environment. The PCV pressure can be moderated within the design pressure. Another merit is the capability to submerge the PCV and the RPV above the core level. The third merit is robustness against external events such as a large commercial airplane crash. Both the containments have a passive cooling core catcher that has radial cooling channels. The Mark S containment is made of reinforced concrete and applicable to a large power BWR up to 1830 MWe. The Mark X containment has the steel secondary containment and can be cooled by natural circulation of outside air. It can accommodate a medium power BWR up to 1380 MWe. In both cases the plants have active and passive safety systems constituting in-depth hybrid safety (IDHS). The IDHS provides not only hardware diversity between active and passive safety systems but also more importantly diversity of the ultimate heat sinks between the atmosphere and the sea water. Although the plant concept discussed in the paper uses well-established technology, plant performance including economy is innovatively and evolutionally improved. Nothing is new in the hardware but everything is new in the performance.     

A Study on the Formation and Removing Mechanisms of a Gas Hydrate Slug in Gas Pipelines

Most of the existing hydrate prediction models cannot describe the formation process of hydrate slug in gas pipelines. The authors developed the physical model of hydrate formation state in gas pipelines, and the corresponding mathematical model is proposed by utilizing the theories of heat transfer, multiphase flow, and phase equilibrium. The formation process of hydrate slug is described by simulation, and the removing mechanism of hydrate slug using depressurization is analyzed. The change of related parameters is obtained. which can effectively provide theoretical guidance for preventing and removing the hydrate slug.     

远距离卸压开采关键层位置效应初探

采用数值模拟研究手段,以淮南矿区远距离保护层卸压开采为工程背景,用岩石破裂过程分析系统（RFPA^2D）模拟了层间覆岩层中关键层处在不同的位置下的被保护煤层压力降、变形随着采动工作面的推进所呈现特征,并根据数值模拟结果发现了关键层具有明显的位置效应的规律,得出一些有意义的结论。     

超临界流体技术制备中药超细粉体

颗粒细、药效好、用量少已成为现代中药制剂的必然发展趋势。利用近年提出的超临界流体辅助雾化过程成功制备出了中药复方肝炎制剂的超细粉体,系统分析了混合器压力和温度及进液速率对微粒形态、粒径和粒径分布的影响。结果表明：利用超临界辅助雾化过程,以水和乙醇的混合溶液为溶剂,可制备出粒径范围为1.0～5.0μm的复方肝炎超细粉体,且大部分粒子形态呈完整的球形。各影响因素对粒径及粒径分布均有不同程度的影响,其中混合器压力及溶液浓度对粒径及粒径分布的影响最明显,进液速率次之,混合器温度的影响较小。在操作范围内较为理想的工艺条件为混合器压力为14 MPa,温度为60℃,进液速率为4.5 mL/min。