Experimental investigation of the effects of oil asphaltene content on CO_(2) foam stability in the presence of nanoparticles and sodium dodecyl sulfate

Foam stability tests were performed using sodium dodecyl sulfate(SDS)surfactant and SiO2 nanoparticles as foaming system at different asphaltene concentrations,and the half-life of CO_(2) foam was measured.The mechanism of foam stability reduction in the presence of asphaltene was analyzed by scanning electron microscope(SEM),UV adsorption spectrophotometric concentration measurement and Zeta potential measurement.When the mass ratio of synthetic oil to foam-formation suspension was 1:9 and the asphaltene mass fraction increased from 0 to 15%,the half-life of SDS-stabilized foams decreased from 751 s to 239 s,and the half-life of SDS/silica-stabilized foams decreased from 912 s to 298 s.When the mass ratio of synthetic oil to foam-formation suspension was 2:8 and the asphaltene mass fraction increased from 0 to 15%,the half-life of SDS-stabilized foams decreased from 526 s to 171 s,and the half-life of SDS/silica-stabilized foams decreased from 660 s to 205 s.In addition,due to asphaltene-SDS/silica interaction in the aqueous phase,the absolute value of Zeta potential decreases,and the surface charges of particles reduce,leading to the reduction of repulsive forces between two interfaces of thin liquid film,which in turn,damages the foam stability.

CO_(2)-Responsive Smart Foams Stabilized by an Extremely Rigid Bio-Based Surfactant

Environment friendly and intelligent surfactants have attracted great attention in recent years.A bio-based CO_(2)responsive surfactant rosin acid dimaleimide choline(R-BMI-C)with an extremely rigid skeleton was prepared using rosin and choline as raw materials by Diels-Alder addition reaction and acid-base neutralization reactions.Its structure was confirmed by IR and^(1)H NMR spectra.The foams’properties of R-BMI-C could be adjusted by bubbling CO_(2)/N_(2)to change the structure of the surfactant.At pH 10.4,R-BMI-C forms an unstable foam with a half-life of 1.5 h.When the pH was reduced to 7.4 by bubbling CO_(2),R-BMI-C forms an extremely stable foam with a half-life of 336 h.The surfactant R-BMI-C changed from bola type to conventional type when bubbling CO_(2).And the internal aggregation structure of R-BMI-C aqueous solution changed from spherical micelles to laminar micelles according to the cryogenic-transmission electron microscope.We know that the lamellar structure tends to adsorb at the air/water interface or is trapped in the foam film,which slows down the foam coarsening and agglomeration process,resulting in a significant increase in foam stability.R-BMI-C could be used in oil extraction,fire-fighting and chemical decontamination due to its excellent foaming,stabilization and defoaming properties.

不同山葡萄品种CO_(2)响应模型拟合及评价

为探索不同山葡萄品种叶片CO_(2)响应特征差异,以5 a生山葡萄‘北冰红’‘北国红’‘双红’和‘雪兰红’为试材,采用Li-6400便携式光合仪,测定果实膨大期山葡萄叶片光合-二氧化碳响应曲线(photosynthetic CO_(2)response curve,P_(n)-C_(i))以及胞间CO_(2)浓度(intercellular CO_(2)concentration,C_i)、气孔导度(stomatal conductance,G_s)、水分利用率(water use efficiency,WUE)和蒸腾速率(transpiration rate,T_r)等气体交换参数,基于直角双曲线模型、Michaelis-Menten模型和直角双曲线修正模型3种模型拟合山葡萄叶片P_(n)-C_(i)响应曲线。结果表明,直角双曲线修正模型拟合的山葡萄P_(n)-C_(i)响应曲线,其拟合参数与实测值最为接近,可直接计算CO_(2)饱和点(CO_(2)saturation point,CSP)。随大气CO_(2)浓度(atmospheric CO_(2)concentration,C_a)的增加,4个山葡萄品种C_i呈线性递增趋势;G_s和T_r总体呈先升后降趋势;WUE先降后升,呈“U”型变化趋势。主成分分析提取出2个主成分,累计贡献率达84.613%。综合评价‘雪兰红’得分最高,光能转化利用率最高,在低C_a环境下的适应性最佳;‘双红’在不同C_a水平下均可保持较高光合效率,排名第2。综上所述,直角双曲线修正模型拟合山葡萄叶片P_(n)-C_(i)响应曲线效果最优。

CO_(2)刺激响应球型水凝胶的制备及在蛋白质分离中的应用

以纤维素、甲基丙烯酸二甲基胺基乙酯和N,N'-亚甲基双丙烯酰胺等为原料制备了纤维素/聚甲基丙烯酸二甲基胺基乙酯互穿网络复合水凝胶材料(GCel/PD)。GCel/PD材料具有显著的CO_(2)刺激响应特性,能有效地吸附分离牛血清白蛋白(BSA)。其中,对BSA的最大吸附量可达(434.4±15)mg/g。在CO_(2)/N2氛围的循环切换下,GCel/PD材料表现出良好的循环稳定性,在循环使用3次之后,对蛋白质的吸附量仍能达到167.5 mg/g。使用之后,颗粒状GCel/PD便于从体系中分离出来,有望在蛋白质的分离提取方面得到应用。

基于高干度泡沫实验的非均质咸水层CO_(2)封存能力分析

CO_(2)咸水层封存是实现“碳中和”目标的一项重要技术手段。高干度泡沫不仅能更好地控制CO_(2)流度而且还能适应地层的非均质性,明显提高了咸水层的空间利用效率。为探究高干度CO_(2)泡沫在非均质咸水层中的调剖效果与CO_(2)封存能力,利用自行设计的高温高压驱替实验装置,进行了不同渗透率级差的并联岩心CO_(2)泡沫驱室内实验研究,分析了驱替过程中岩心的气液产出情况与CO_(2)饱和度的变化规律,指出了不同渗透率级差非均质岩心模型的碳封存效果与机理。研究结果表明:①与CO_(2)气驱相比高干度泡沫驱用于CO_(2)咸水层埋存具有更大优势,当岩心渗透率级差介于2.6~10.8时,泡沫均能有效封堵高渗透岩心,使阻力因子维持在36左右,增大了驱替压差与低渗透岩心的产气、产液速度;②岩心中气相饱和度与渗透率存在一定关系,当岩心的渗透率小于2450 mD时,最高气相饱和度随渗透率增加而增大,当渗透率超过2450 mD时,岩心最高气相饱和度在80%左右;③采用高干度泡沫驱可以有效扩大岩心中CO_(2)封存量,渗透率级差为4时,泡沫驱的CO_(2)封存体积较气驱增长219%,当渗透率级差扩大至10.8,CO_(2)封存量能始终维持在较高水平。结论认为,咸水层条件下CO_(2)泡沫驱替实验探究了CO_(2)封存能力变化,提供了非均质储层提高碳封存效率的实验认识,可为非均质咸水层中CO_(2)的地质封存技术优化提供参考和借鉴。

碱激发矿渣基泡沫混凝土的制备及其封存CO_(2)可行性研究

随着工业化进程的不断推进,工业固体废弃物的排放量逐年增加,以工业固废为主要原料制备泡沫混凝土并将其用于CO_(2)封存,对实现工业固废的资源化利用和CO_(2)的经济、高效封存具有重要意义。本文以高炉矿渣为原料,选用NaOH为碱激发剂,硬脂酸钠为稳泡剂,十二烷基硫酸钠(C12H25NAO4S,SDS)为发泡剂,制备了高孔隙的泡沫混凝土。探究了不同NaOH用量对矿渣基泡沫混凝土综合性能及封存CO_(2)性能的影响。实验结果表明,随着NaOH用量的增加,泡沫混凝土的干密度逐渐增加,抗压强度先增大后减小。泡沫混凝土的内部孔隙分布不均匀,孔隙率大。SEM结果表明,当NaOH用量过高时泡沫发生破裂连通。XRD结果表明,矿渣基泡沫混凝土水化产物主要是C—S—H凝胶和Ht物相,Ht物相的层状结构使得材料的孔壁不够致密,从而影响材料的力学性能。TGA结果表明,碳化过程中水化产物有效吸收CO_(2)转化成以CaCO3为主的碳酸盐,NaOH用量12%时,CO_(2)的封存量最高为89.74 kg/m^(3)。

基于响应曲面法优化氮掺杂活性炭的制备和CO_(2)吸附性能研究

氮掺杂活性炭制备过程中影响其性能的因素极其复杂,单一因素的定性分析无法满足对制备条件的准确调控,而多因素耦合量化分析可以弥补不足。以煤焦油沥青为原料,采用KOH活化法,与尿素共热解制备氮掺杂活性炭,通过响应曲面法(RSM)进行建模,以量化分析多因素耦合作用对活性炭产率和不同温度下(25℃,50℃和75℃)对CO_(2)吸附性能的影响,同时优化制备工艺参数,并且在此实验设计基础上利用线性拟合方法预测不同温度下CO_(2)吸附量的相关性。结果表明:对活性炭产率的影响由大到小的单因素依次为掺氮比(尿素与煤沥青的质量比)、活化温度、碱碳比(KOH与煤沥青的质量比)、活化时间,活化温度和活化时间的耦合作用影响最显著,碱碳比是影响活性炭CO_(2)吸附量最为关键的因素,但随吸附温度升高其他因素影响显著性增强;不同温度下CO_(2)吸附量可以进行相互预测,且相邻温度下CO_(2)吸附量之间的预测效果更好;得到的最佳制备条件为活化温度650℃、活化时间1.25 h、碱碳比2.5、掺氮比0.3,相应的活性炭产率可达59.316%,在25℃,50℃和75℃下CO_(2)吸附量分别为3.474 mmol/g,2.355 mmol/g,1.358 mmol/g。

响应面法和人工神经网络对亚临界CO_(2)萃取红花籽油的建模与优化

本文旨在寻找有效建模方法以预测亚临界CO_(2)萃取红花籽油的萃取率,优化其萃取工艺条件。以单因素实验为基础,采用Box-Behnken试验设计,研究了萃取压力、分离温度、萃取时间对红花籽油萃取率的影响,并采用响应面法(RSM)和人工神经网络(ANN)两种方法分别对同一实验进行建模分析,通过RSM数值优化、人工神经网络和遗传算法结合(ANN-GA)两种方法优化其工艺条件。结果表明,RSM与ANN两种模型均能较为精准预测,但通过两种模型的决定系数(R^(2))、平均绝对误差(MAE)、平均绝对百分比误差(MAPE)、均方根误差(RMSE)值比较,得出ANN模型(R^(2)=0.9966)的预测效果较优于RSM模型(R^(2)=0.9950)。ANN-GA确定的最佳萃取条件及萃取率分别为:萃取压力19.04 MPa、分离温度55.50℃、萃取时间134.98 min、萃取率23.52%。综上,RSM和ANN两种方法均可用于亚临界CO_(2)萃取带壳红花籽油的建模与优化,但ANN的预测准确度及拟合能力更为优秀。

CO_(2)响应型β-环糊精材料用于稠油降黏

制备了一种环境友好型马来酸酐改性β-环糊精(MAH-β-CD),温和条件下将其与聚醚胺(JD230)通过静电作用合成了具有CO_(2)响应性的表面活性剂(MJD230)。MJD230能与稠油形成稳定的水包油乳液,进而有效降低溶液的表面张力。在CO_(2)调控下,MJD230可重复用于稠油的乳化降黏和破乳。利用FTIR对MJD230结构进行了表征。通过观察降黏率和乳液粒径优化MJD230的合成条件,同时对降黏效果和乳液的稳定性进行了考察。将在反应温度为60℃,反应时间为60min,MAH-β-CD与JD230物质的量比为2∶1条件下制备的MJD230配成质量分数为0.5%的MJD230水溶液,其与稠油按照体积比为3∶7乳化后,稠油降黏率可达99.19%。反应体系pH和电导率的可逆变化证明了MJD230溶液对CO_(2)的响应性,这为表面活性剂驱油和CO_(2)捕集相结合提高稠油采收率提供了可行的途径。

超临界CO_(2)辅助热塑性聚氨酯/热塑性聚酯弹性体的发泡及其回弹特性

为克服热塑性聚氨酯(TPU)发泡后,其发泡材料回弹性不足、压缩强度低及收缩率大等问题,采用热塑性聚酯弹性体(TPEE)改性TPU,并以超临界CO_(2)为发泡剂,制备了TPU/TPEE发泡材料。研究了TPU/TPEE共混物的熔融及结晶行为、流变性能以及TPEE含量对TPU/TPEE发泡材料循环压缩性能、回弹性能、压缩永久变形及发泡性能的影响。差示扫描量热仪与落球回弹、压缩永久形变结果表明,TPEE的加入能使TPU分子链排列的有序性降低,回弹性提高;旋转流变仪结果表明,TPEE的引入可以有效改善共混物熔体的黏弹性,使得弹性作为主导,并显著改善发泡性能;循环压缩结果表明,加入TPEE可以进一步改善泡沫的压缩性能。当添加TPEE的质量分数为7%时,TPU/TPEE发泡体相对于纯TPU泡沫,发泡体落球回弹性提高了7.25%、压缩永久变形值降低了2.84%、压缩强度提高了326%。

致密油藏注CO_(2)防窜体系研究进展

致密油藏注CO_(2)不仅可以实现增压、混溶、降黏等目的,也是CO_(2)就地埋存和高效利用的重要途径。受CO_(2)与原油流度差异,特别是储层非均质性的影响,致密油藏注CO_(2)极易沿优势通道(裂缝)窜逸,因此,CO_(2)防窜是实现CO_(2)埋存和高效排驱的关键。通过对致密油注CO_(2)防窜体系的国内外研究动态进行综述,对比评述了凝胶、聚合物、泡沫、表面活性剂的防窜机理,重点概述了CO_(2)响应性表面活性剂的类型、CO_(2)响应特征及智能暂堵机制,在此基础上对致密油注CO_(2)防窜体系的应用前景进行了展望。依据现阶段CO_(2)响应性表面活性剂在CO_(2)防窜体系的应用,提出了CO_(2)响应性表面活性剂在CO_(2)防窜体系的重点研究方向:①设计和研发具备超临界CO_(2)可溶性,开关乳液、囊泡、凝胶、“蠕虫状”胶束自组装及原油触发解组装3方面特点的CO_(2)响应性表面活性剂;②CO_(2)响应性表面活性剂在致密储层的渗流规律、对裂缝的封堵机制、原油触发的解堵机理等系列科学问题亟需系统性探讨和深入研究。

镍/氮共掺杂自支撑泡沫碳电极的构建及电催化CO_(2)还原性能

以沥青为碳源、聚氨酯泡沫为模板,通过浸渍、固化和碳化等步骤制备了一系列镍/氮共掺杂自支撑泡沫碳电极,采用扫描电子显微镜、透射电子显微镜、氮气吸附-脱附分析、拉曼光谱和X射线光电子能谱等手段对材料进行了表征.结果表明,制备的泡沫碳电极为三维大孔骨架结构,表面具有缺陷位和Ni—N配位结构,通过改变碳化温度可调控N含量,进而实现对Ni—Nx活性位含量的调控.将该泡沫碳电极作为电还原CO_(2)的自支撑电极,可得到H_(2)/CO摩尔比稳定可控的合成气.在-0.9~-1.3 V(vs.RHE)电位窗口内,H_(2)/CO摩尔比可从1/2调整至2/1.反应10 h后,在900℃下得到的泡沫碳电极的电流密度为5.7 mA/cm^(2),H_(2)/CO摩尔比约为1/1.

致密油藏CO_(2)驱响应性防气窜体系的制备及性能

以3-二甲胺基丙胺(NNDP)和油酸为原料,制备了具有叔胺结构的CO_(2)响应性单体N,N-二甲基油酸酰胺丙基叔胺(DOAPA),将其与阴离子表面活性剂对甲苯磺酸钠(SPTS)复配,构建了具有CO_(2)响应性的蠕虫状胶束(CO_(2)-TWMS)。通过考察CO_(2)-TWMS与CO_(2)接触前后的电导率、化学结构和微观形貌变化表征了体系的响应性,结合其表面活性变化及致密基质/裂缝双重介质CO_(2)驱替与CO_(2)-TWMS防气窜过程中的压力和采收率变化,揭示了CO_(2)-TWMS防气窜性能与机制。结果表明,当n(SPTS)∶n(DOAPA)=1∶1时,CO_(2)-TWMS的黏度最大(4125 mPa·s)。CO_(2)和N2能够刺激CO_(2)-TWMS电导率在0.90~1.95 mS/cm之间可逆变化,诱导微观形貌在蠕虫状胶束和球形胶束间转换。此外,CO_(2)能够将CO_(2)-TWMS临界胶束浓度(CMC)从0.63 mmol/L(未通入CO_(2))降至0.25 mmol/L,最低表面张力从30.2 mN/m(未通入CO_(2))降至29.1 mN/m,CO_(2)-TWMS在气液界面的吸附效率和效能增强,有利于胶束的形成。在致密基质/裂缝双重介质中,CO_(2)诱导蠕虫状胶束形成,增大驱替过程中的压力,扩大CO_(2)驱替波及率,采收率提高22.6%。

超临界CO_(2)射流混合器喷嘴的模拟优化设计

提出了一种超临界CO_(2)射流混合器并建立射流模型,通过CFD模拟优化喷嘴结构和射流工况,最终确定涂料和超临界CO_(2)的最优混合效果。曲面响应分析法结果表明,各因素对射流破碎段湍动能的影响程度由大到小依次为压力、温度、喷射锥角。湍动能随压力的升高先减小后增大,随温度的升高而增大,随喷射锥角的增大先增大后减小。结合实际喷涂条件,在10 MPa、60℃条件下,从18°喷嘴锥角射出的超临界CO_(2)可在射流破碎段产生大于3000 m^(2)/s^(2)的湍动能。该研究结论可为超临界CO_(2)射流混合器的优化设计提供理论指导。

Analysis of pressure response at an observation well against pressure build-up by early stage of CO_(2)geological storage project

To ensure a safe and stable CO_(2)storage,pressure responses at an observation well are expected to be an important and useful field monitoring item to estimate the CO_(2)storage behaviors and the aquifer parameters during and after injecting CO_(2),because it can detect whether the injected CO_(2)leaks to the ground surface or the bottom of the sea.In this study,pressure responses were simulated to present design factors such as well location and pressure transmitter of the observation well.Numerical simulations on the pressure response and the time-delay from pressure build-up after CO_(2)injection were conducted by considering aquifer parameters and distance from the CO_(2)injection well to an observation well.The measurement resolution of a pressure transmitter installed in the observation well was presented based on numerical simulation results of the pressure response against pressure build-up at the injection well and CO_(2)plume front propagations.Furthermore,the pressure response at an observation well was estimated by comparing the numerical simulation results with the curve of CO_(2)saturation and relative permeability.It was also suggested that the analytical solution can be used for the analysis of the pressure response tendency using pressure build-up and dimensionless parameters of hydraulic diffusivity.Thus,a criterion was established for selecting a pressure transducer installed at an observation well to monitor the pressure responses with sufficient accuracy and resolution,considering the distance from the injection well and the pressure build-up at the injection well,for future carbon capture and storage(CCS)projects.

耐温耐盐CO_(2)响应型叔胺泡沫的性能及响应机理

目的解决传统泡沫过于稳定,消泡困难等问题。方法采用N-十二烷基-1,3-丙二胺与耐温耐盐型阴离子表面活性剂复配,制备一种CO_(2)响应型耐温耐盐复配泡沫体系,并采用分子模拟探究了复配泡沫的稳定性和响应机理。N-十二烷基-1,3-丙二胺具有良好的质子化性能和耐盐性能,但其耐温性能较差,且不具备响应性能。将其与十二烷基硫酸钠(SDS)和十二烷基磺酸钠复配后,高温下起泡速度提高了40%,泡沫存在时间达到复配前的3.17倍,耐温性显著提升,且具有良好的CO_(2)响应性能。分子模拟研究发现,通入CO_(2)后,液膜内SDS中含S原子基团与C_(12)N(CH_(3))N(CH_(3))_(2)中带正电荷的N原子基团相结合,从而失去表面活性,导致泡沫的稳定性变差,这也是响应消泡的原因。结论该复配体系具有良好的耐温耐盐性能和响应性能,能够在苛刻环境下完成泡沫排水采气后实现响应消泡,具有广阔的应用前景。

Displacement characteristics of CO_(2)flooding in extra-high water-cut reservoirs

Carbon dioxide(CO_(2))flooding is a widely applied recovery method during the tertiary recovery of oil and gas.A high water saturation condition in reservoirs could induce a‘water shielding’phenomenon after the injection of CO_(2).This would prevent contact between the injected gas and the residual oil,restricting the development of the miscible zone.A micro-visual experiment of dead-end models,used to observe the effect of a film of water on the miscibility process,indicates that CO_(2)can penetrate the water film and come into contact with the residual oil,although the mixing is significantly delayed.However,the dissolution loss of CO_(2)at high water-cut conditions is not negligible.The oil-water partition coefficient,defined as the ratio of CO_(2)solubility in an oil-brine/two-phase system,keeps constant for specific reservoir conditions and changes little with an injection gas.The NMR device shows that when CO_(2)flooding follows water flooding,the residual oil decreasesdnot only in medium and large pores but also in small and micro pores.At levels of higher water saturation,CO_(2)displacement is characterized initially by a low oil production rate and high water-cut.After the CO_(2)breakthrough,the water-cut decreases sharply and the oil production rate increases gradually.The response time of CO_(2)flooding at high watercut reservoirs is typically delayed and prolonged.These results were confirmed in a pilot test for CO_(2)flooding at the P1-1 well group of the Pucheng Oilfield.Observations from this pilot study also suggest that a larger injection gas pore volume available for CO_(2)injection is required to offset the dissolution loss in high water saturation conditions.

改性纳米SiO_(2)颗粒提高CO_(2)泡沫稳定性

泡沫注入作为一种提高采收率的方法,其稳定性和改善泡沫从裂缝向基质的运移一直是裂缝性油藏泡沫注入领域的2个主要问题。使用3-氨基丙基三乙氧基硅烷(APTES)对二氧化硅纳米颗粒进行改性来稳定二氧化碳泡沫,选择FTIR分析和接触角测量表征泡沫的产生和稳定性。实验在不同质量分数的NPs(0.04%~0.20%)、2种质量分数的SDS(0.236%~0.472%)、存在和不存在MgCl_(2)盐的情况下进行。结果表明:APTES对二氧化硅进行表面改性后,纳米颗粒在油水体系中更亲油,在空气-水体系中更亲气。这反过来又放大了改性二氧化硅(MS)向水气界面的迁移,增强了CO_(2)泡沫的稳定性。泡沫稳定性实验证实了这一机制的存在,将泡沫稳定剂从二氧化硅切换到MS纳米颗粒导致泡沫最大半衰期增加33.3%。泡沫性不受NPs类型的影响;然而,由于SDS在纳米颗粒表面的吸附,泡沫性降低。

响应面优化超临界CO_(2)萃取两粤黄檀挥发油的工艺研究及成分分析

两粤黄檀作为一种名贵的香料,提高其挥发油的萃取率对工业生产具有重大意义。以两粤黄檀为原料,采用超临界CO_(2)萃取两粤黄檀挥发油,在单因素试验的基础上,利用响应面优化萃取工艺,并确定了最佳工艺条件,利用气相色谱-离子迁移谱对两粤黄檀挥发油的挥发性成分进行分析。研究表明,两粤黄檀挥发油最佳萃取工艺为萃取压力30 MPa、萃取温度42℃、萃取时间3.8 h,在此条件下挥发油得率为(7.23±0.03)%,与理论值(7.44±0.05)%相差不大。从两粤黄檀挥发油中共鉴定出47种已知化合物,包含醛类17种、酮类3种、醇类5种、酯类11种、萜烯类7种、酸类2种、呋喃类1种、硫醚类1种,醛类、酯类和萜烯类是两粤黄檀挥发油的主要挥发性成分。该研究对两粤黄檀挥发油的进一步开发利用有重要意义。

再生聚酯纱线的超临界CO_(2)萃取除油工艺

再生聚酯在纺纱时需加入纺丝油剂,油剂会影响后续染色过程。为减少油剂对后续染色过程的影响,采用超临界CO_(2)流体萃取法,研究了再生聚酯纱线在超临界体系下的除油效果,选取除油温度、压力、时间、CO_(2)流量作为研究因素,利用响应面法对工艺条件进行优化,采用扫描电镜和红外光谱分析进一步对除油后纱线性能进行探究。结果表明:最佳工艺条件为除油温度64℃,除油压力21 MPa,除油时间60 min,CO_(2)流量415 kg/h,在此条件下再生聚酯纱的除油率可达到78%,超临界CO_(2)除油后的纱线表面油剂有一定减少,纱线物理结构未受到影响。