High Pressure-Differential Thermal Analysis and Ultrasonic Wave Amplitude Analysis of Ice-Water Equilibrium at 1.5-5.0 GPa

Water is the most active component in all geological systems. It has an importanteffect on the physical properties of minerals and melts. It also plays a key role in the evolutionof the Earth. Accurate thermodynamics data on water are currently confined to pressures below1.0 GPa and temperatures below 900℃. Presented in this paper are new data available on theP-T properties of water at pressures up t0 5. 0 GPa, developed from differential thermal analysis and ultrasonic wave amplitude analysis. It has been found that there may exist anotherternary point at 3. 0 GPa and that ultrasonic wave amplitude change of ice-water transitionshows two inflection points above 2. 0 GPa, consistent with the two peaks of differential thermal curves above 2. 0 GPa. It may be a new phenomenon which needs further study.

High-pressure Phase Equilibria for Binary Ethanol System Containing Supercritical CO_2

High-pressure phase behavior of supercritical (SC) CO2+ethanol system was investigated at 333.2 K,348.2K, 353.2K, 368.2K, 413.2K and 453.2K and pressure from 2.0MPa to 14.3MPa. The measurement was carried out in a cylindrical autoclave with a moveable piston and a window for adjustment and observation of phase equilibria at given T and p. The samples were taken from two coexisting phases and were analyzed to obtain their compositions. It is shown that the solubility of SC CO2 in ethanol increases drastically with pressures at the given temperature, but the content of ethanol in CO2-rich phase increase faintly.

高压注入条件下N_(2)对含水煤中CH_(4)置换效应的影响

为了揭示高压注入条件下N_(2)对不同含水率煤中CH_(4)置换效应影响,基于含水率为0.75%、1.5%和3%的3种煤样,开展了高压注N_(2)置换CH_(4)实验。实验结果表明:随着煤含水率的增加,煤吸附CH_(4)和N_(2)的能力表现出逐渐减弱的趋势,N_(2)的吸附量始终小于CH_(4)的吸附量,且N_(2)置换CH_(4)的能力逐步下降;在本实验压力条件下,CH_(4)预吸附平衡压力超出0.75 MPa越大,其N_(2)利用率越低。同时随煤含水量的增加,CH_(4)置换率、N_(2)注置比均出现逐步减小的趋势,因此可得CH_(4)置换率、N_(2)注置比均与煤的含水量呈负相关关系。实验含水煤样更好的还原井下处于潮湿环境中的原煤,通过CH_(4)置换率和N_(2)注置比的反馈得出,过大的注气压力并不能得到良好的注气效果,反而会降低该置换源气体的利用率,因此对井下注N_(2)置换煤层CH_(4)的工程技术来说,为避免盲目提高注气压力而造成N_(2)的置换效率下降的现象,建议井下煤层注N_(2)置换CH_(4)时,CH_(4)吸附平衡压力控制在0.75 MPa最佳。

High pressure-differential thermal analysis of ice-water equilibrium at 1.5-5.0 GPa

It is well known that trace amount of water has important effects on the physical properties of minerals and melts. Strength and viscosity decrease, diffusion rate and electrical conductivity increase, seismic waves attenuate and liquidus temperatures are lowered by the addition of water. The effects make water one of the most active components of any geological system with implications for the evolution and dynamics of the earth.

Vapour-Liquid Equilibrium with a New Ebulliometer：Ester＋Alcohol System at 0.5 MPa

A new dynamic ebulliometer is used to determine vapor-liquid equilibrium(VLE) data experimentally. In the equipment,both phases are recirculated. Its operation is a consequence of the Cotrell pump effect produced when the mixture is heated in a double-walled inverted vessel. The reliability of the apparatus is tested with the mixtures studied previously by various authors. VLE data for the binary systems of methyl acetate + methanol and the methyl acetate + ethanol at 0.5 MPa are determined. The experimental data are confirmed with the point-to-point test of van Ness,applying the Fortran program of Frendslund et al. In addition,the experimental results are com-pared with the UNIFAC(including different versions) and ASOG prediction models.

The minimization of non-equilibrium plasma source at high pressure

The density of plasma produced by atmospheric non-equilibrium plasma source is the function of en-ergy dissipation rate in ionization electric field and gas particles momentum.The experiment shows that the plasma density highly rises with the increasing of energy dissipation rate and gas particles momentum.When the energy dissipation rate of activation field is 2.18 Wh/m3 and the average gas particles momentum is 109×10-22 g·m/s,the air throughput of plasma source whose volume is only 2.5 cm3 can be up to 12 m3/h and the density of plasma can be up to 1010 cm-3.The research can develop a method of producing minitype plasma source which is low energy consumption but high ion concen-tration used for chemical industry,environmental engineering and military.

基于残差神经网络模型的高压气井水合物生成预测方法

综合天然气多组分混合比例、临界压力和温度等因素影响,构建跳过连接的卷积神经网络模型,提出利用残差神经网络(ResNet)预测高压气井多元体系天然气水合物生成的方法。井场试验结果表明,相较于传统全连接神经网络(FCNN)与小波神经网络(WNN),基于大数据集参数自动调优和动态微调残差神经网络模型的多元体系水合物生成预测效果较优且吻合程度较高,预测均方误差由WNN的0.006~3.417和FCNN的0.008~3.722降至ResNet的0.001~1.020,并可量化分析单组分体系以及二元和多组分体系水合物相平衡实际压力随温度动态变化关系。

海上高温高压气井析蜡机理及防治对策

针对海上高温高压气藏气井开采过程中结蜡的问题,采用气⁃液⁃固流体相平衡理论及节流效应原理,分析了海上异常高温高压气井析蜡机理,发现高温高压气井蜡沉积主要发生在关闭气井翼阀瞬间温度急剧降低的油嘴位置处。根据相平衡理论,对高温高压气井原始地层流体进行了相态恢复和表征,准确描述了气⁃液⁃固三相流体相态变化特征、蜡的析出机理和析出过程。依据相平衡模型分析了气井结蜡位置、流体组分组成变化和结蜡的影响因素,合理解释了高温高压气井析蜡机理是温度压力急剧变化导致流体由气态向液态,再向固态瞬时相变的过程,并提出了相应防治策略。

核电高压给水加热器启动过程建模与仿真

为了研究金属材料的热惯性和温度变化速率对高压给水加热器启动过程的动态特性及能耗特性的影响,本文建立了基于两相非平衡模型的核电站高压给水加热器仿真模型。针对高压给水加热器的启动过程开展仿真研究,以抽汽阀门开度和给水焓值为入口扰动边界条件,分析了最大温度变化速率和正常温度变化速率下的启动过程动态特性。研究发现:高压给水加热器仿真模型完成启动后,壳侧压强、水位和给水出口温度等主要参数与设计值误差在1%以内;为了满足温度变化速率的限制,抽汽阀门开度变化率最快不能超过75.34%/h,正常变工况运行不得超过37.24%/h,对高压给水加热器的启动过程有重要指导意义。该仿真模型可以为高压给水加热器启动过程的调试和运行优化提供参考。

花岗岩强荷载动应力平衡及破裂特征

强冲击荷载作用下岩石应力状态复杂多变,为了研究花岗岩在高应变率加载下岩石的应力状态变化及破裂特征,利用霍普金森试验系统对0.6,1.0,1.4长径比花岗岩试样进行动态冲击试验,结合LS-DYNA模拟岩石冲击试验,分析研究了花岗岩试样的应力平衡过程、破裂特征及应力应变演化规律。结果表明:在10 m/s冲击速度下,0.6,1.0,1.4长径比花岗岩应力平衡持续时间分别为60,60,13μs。当ε低于84.6 s^(-1)时,1.4长径比花岗岩无法达到应力平衡,岩石破坏后多呈现断裂或长条状碎块,当提升冲击速度至14 m/s时,应变率提升至102.6 s^(-1),岩石块度逐渐均匀。3种长径比花岗岩试样在80~120 s^(-1)加载应变率下破碎块度均匀。与数值模拟试验结果对比可知,岩石在弹性变形阶段满足应力应变均匀性假定,在塑性变形直至峰后阶段应力分布开始紊乱,诱使应变均匀度下降,这是导致岩石破裂块度分布不均的直接因素。通过降低岩石长径比的方式来消除惯性效应可以使岩石长期处于应力平衡,使岩石破碎块度均匀。

Calculation of CO_2, CH_4 and H_2S Solubilities in Aqueous Electrolyte Solution at High Pressure and High Temperature

This paper reports an investigation into the characterisation of liquidaivapor electrolyte solutions at high pressure and high temperature. A procedure to enable calcuIations of methane, carbon dioxide and hydrogen sulphide solubilities in brines (0-6 m.) for temperature from 25 to 350℃ and for pressures from 1 to 1800 bar is presented. The model is based on Helgeson, Kirkham and Flowers modified equations of state (HKF) and on the semi-empirical interaction model introduced by Pitzer. HKF modified equations of state are used to calculate the reference fugacity of gas species, and the Pitzer ionic interaction model is used to calculate the activity coefficient of dissolved species (i.e. ionic or neutral).The efficiency of the combination of the two models is confirmed by several comparisons with data in the literature.

超高压凝固Al-Si合金的非平衡组织

研究了超高压（５．５ ＧＰａ）条件下凝固的过共晶 ＡＩ－Ｓｉ合金的非平衡组织．结果表明：过共晶成分合金中出现大量初生α 相，并有α＋β＋（α＋β）共晶的共生组织， Ｓｉ在α相中的固溶度和Ａｌ在β相中的固溶度都有极大增加．讨论了高压对凝固组织

超高压力对ZA27合金非平衡凝固组织和性能的影响

研究了高压凝固条件下ZA27合金凝固组织的变化。高压凝固ZA27合金的宏观组织为致密的网状结构,每个晶粒由相互平行的二次枝晶所构成,而且二次枝晶具有一定的方向性,最后凝固组织并非(β+η)共晶体,而是单一的η相,高压也增加了Zn在α相以及Al在η相中的固溶度。同时高压使ZA27合金的二次枝晶臂间距(DAS)减小,硬度获得大幅度的提高。

阿比朵尔人血浆蛋白结合率的测定

目的:建立测定阿比朵尔血浆药物浓度的高效液相色谱法(HPLC),并考察阿比朵尔的人血浆蛋白结合率。方法:采用平衡透析法结合HPLC,对阿比朵尔的人血浆蛋白结合率进行测定。结果:低、中、高3种浓度下,阿比朵尔的血浆蛋白结合率分别为90．1％,91．1％和89．8％。结论:本方法灵敏度高,重现性好,操作简单,能满足药品分析要求。阿比朵尔与血浆蛋白具有较强的结合。

含水凝析气相态特征及非平衡压降过程产液特征

气态水的存在对凝析气藏相态特征的影响不容忽视,常规的相态测试过程无法模拟含水凝析气田开发过程中近井带的非平衡压降过程的实际产液特征。利用PVT筒开展了含气态水凝析油气体系相态特征实验,研究了气态水对凝析气相态特征的影响,并通过缩短凝析气体系定容衰竭过程的平衡时间,模拟含水凝析气田开发过程近井带的非平衡压降衰竭过程,对比分析了非平衡压降过程含水凝析气体系中凝析油、水的抽提蒸发效应。结果表明,气态水的存在引起了凝析油气体系中重质含量的增加,导致露点压力升高,反凝析提前,最大反凝析压力提高,反凝析液量增加。含水凝析油气体系在非平衡压降衰竭过程中,由于气液相体系未达平衡,导致液相滞后析出并随气相运动一起被采出,造成凝析油采出程度和产水量提高,且非平衡压降速度越大,凝析油采出程度越高。因此,凝析气田近井带的非平衡压降有利于凝析油的开采并缓解液锁的发生。

高温高压平衡水条件下煤吸附CH_4实验

以北皂矿的褐煤、蔡园矿的气煤、西曲矿的焦煤和古汉山矿的无烟煤作为研究煤样,模拟深部煤层的实际温度、压力和水分含量条件,进行高温高压平衡水条件下煤吸附CH4实验。实验结果表明:褐煤的朗格缪尔体积(VL)随温度的升高而减小;焦煤的朗格缪尔体积随温度的升高而增大;气煤和无烟煤的朗格缪尔体积随温度的升高先增大,后减小。研究表明:煤层埋藏深度增加,温度增高,吸附量减小;温度增高,平衡水分含量降低;平衡水分含量降低,吸附量增大。高温高压平衡水条件下煤吸附CH4的实验结果表现的特性是由于压力、温度和水分对煤吸附的综合作用的结果。在开展深部煤层等温吸附实验研究时,应该选用与模拟深度相对应的温度下平衡水含量的煤样。

高压下CO_2-乙醇二元系统的气液平衡

在带有可视石英窗的可变体积高压釜内 ,在 60－ 180℃温度范围、 4.0－ 14.5 MPa压力范围下测定了 CO2和乙醇二元系统的相平衡数据 .根据实验结果预测了 pc,Tc,xc.用 Peng-Robinson方程和 Wong-Sandler混合规则进行了拟合 ,所得结果与实验数据基本相符 .

高压凝固ZA43合金的非平衡组织

研究了高压凝固条件下ZA43合金凝固组织的变化。高压凝固ZA43合金的组织明显变细 ,没有形成粗大的树枝晶 ,分布随机 ,形状各异 ,部分横截面类似于胞晶的粒状结构 ,共晶相呈均匀细小的蠕虫状结构。高压增加了溶质原子在固溶体中的固溶度 ,减少了枝晶偏析。

高气压强电场电离过程中的离子浓度分布规律

研究了高气压强电场电离区域的离子浓度分布的连续性方程,对电离区域的电离物的产生、消失和输运进行了研究。通过采用电离放电增加了输入能量密度、G值、电离占空比等,从而提高了离子产生率。通过外加电场和离子“雪崩”头部的本征电场的叠加作用,离子被束缚在放电通道中。对离子施加垂直电场方向的作用力,就能把电场中的等离子体成束输送出去。已经能够做到有效体积仅为1cm3的等离子体源,输运等离子体率达到1012cm-3.s-1。

凝析气藏油气水三相PVT相态特征测试及分析

常规凝析油气体系PVT相态测试方法忽略了气态凝析水对凝析油气体系相态的影响,而国内外凝析气藏开发实践表明,气态凝析水对凝析油气体系相态特征的影响不应被忽略。为了更有效地指导凝析气藏的开发,必须建立考虑气态凝析水的凝析油气体系PVT相态测试和计算方法。探索设计了富含气态凝析水的凝析油气体系PVT相态测试方法,并与常规凝析油-气两相平衡体系的PVT测试结果进行了对比,分析了考虑气态水组分的存在对凝析油气体系相态的影响。