酸压用自降解颗粒暂堵剂的制备与性能评价

暂堵酸压技术是改造碳酸盐岩储层、提高储层渗透性、保证油井增产稳产的有效措施。其中,暂堵剂是暂堵酸压技术的关键。本文采用水溶液聚合法制备了一种酸压用自降解颗粒暂堵剂TDJ,通过室内实验对TDJ进行了配方优化、降解性、封堵性及解堵性等研究。结果表明：反应温度为60 ℃, 30%丙烯酰胺,1%乙氧基化三羟甲基丙烷三丙烯酸酯,0.3%过硫酸铵合成的TDJ性能最好。TDJ适用地层温度为60~120 ℃,其降解时间受HCl浓度和NaCl溶液浓度影响,在1%HCl中完全降解需要85 h,20%HCl中完全降解需要67 h;在10000 mg/L NaCl溶液中完全降解需要10 h, 70000 mg/L NaCl中完全降解需要18 h。岩心实验表明：TDJ具有良好的封堵性能和解堵性能,暂堵率和解堵率分别达到90%和92%以上。      

自降解屏蔽暂堵剂PAM/PCL的合成及性能研究

针对生物降解塑料聚己内酯(PCL)耐温性能差、高温条件下降解时间快等缺点,本文以丙烯酰胺(AM)和PCL为主要原料,N,N-亚甲基双丙烯酰胺(MBA)为交联剂、过硫酸铵(APS)和亚硫酸氢钠(SHS)为引发剂、失水山梨糖醇脂肪酸酯(Span-80)和乙基纤维素为分散剂,采用反相悬浮聚合法合成了一种自降解暂堵剂,考察了分散剂、搅拌速度、交联剂、油水比和引发剂对暂堵剂降解时间的影响,确定了暂堵剂最佳合成条件：分散剂用量(质量分数,下同)0.4%、搅拌速度400 r·min^-1、油水比(体积比)8∶2、交联剂用量0.8%、引发剂用量0.5%。对暂堵剂的性能进行了评价,实验结果表明：暂堵剂具有较好的耐温耐盐性,耐温可达160℃,与钻井液配伍性较好,少量暂堵剂就可以有效降低钻井液的滤失量。砂床封堵实验表明：暂堵剂具有较好的封堵性能,暂堵剂用量为0.5%就可使砂床浸入深度减少6.5 cm。     

新型高吸水聚合物凝胶型屏蔽暂堵剂MTC-1的合成及性能

以丙烯酸（AA）、丙烯酰胺（AM）、2-丙烯酰胺基-2-甲基丙磺酸（AMPS）为原料，蒙脱土（MMT）为改性剂，过硫酸钾和无水亚硫酸氢钠为氧化还原引发体系，六亚甲基四胺（C₆H₁₂N₄）为交联剂，采用水溶液聚合法合成了一种新型高吸水聚合物凝胶型屏蔽暂堵剂（MTC 1），其结构经IR表征。在最优合成条件（AM/AMPS/AA=11/7/1, m/m/m，引发剂加量0.6 wt%，于45 ℃反应2.5 h）下，MTC-1的最大吸水倍率为1006倍。岩心流动实验结果表明：MTC-1的堵水性能较高，封堵效率达到83.72%。     

新型暂堵酸化用自降解暂堵剂的制备及现场应用

针对传统暂堵酸化用暂堵剂颗粒耐酸性差、降解性差和除堵工艺复杂等问题，本研究通过水溶液自由基聚合法制备了一种新型的自降解暂堵剂CQZDJ。考察了单体加量、交联剂加量、引发剂加量对CQZDJ凝胶强度和降解性的影响；通过FT-IR、TGA、SEM对其结构进行表征；并对其降解机理进行了探讨；最后在长8区块的环平81-8实验井进行了现场实践。结果表明：CQZDJ凝胶强度及降解时间与单体加量、交联剂加量、引发剂加量成正比关系，且降解时间可控；降解性实验表明CQZDJ在(1%~10%)HCl溶液、水、（2%~10%）NaCl溶液中均可在4 d内完全降解，具备良好的降解性能，对地层伤害小；SEM照片显示CQZDJ的降解过程是从初始三维网状结构逐渐崩解为层状结构，最终降解为无规则线性小分子链的过程；暂堵后现场流压上升6.3 MPa，日产油由3.87 t/d增产至5.22 t/d，实现了储层的有效改造，增产效果显著。      

电缆护套光屏蔽自愈合涂料的制备及性能

以环糊精修饰的二氧化钛纳米粒子作为光屏蔽剂，利用环糊精与金刚烷的包合作用作为自修复作用力制备了一种具有自愈合性能的光屏蔽涂料，并研究了其光屏蔽性能和自愈合性能.研究结果表明，该涂料能够与电缆护套软质基材牢固结合，具有较好的疏水性和较低的吸湿率（在相对湿度75%的环境中放置48 h后水接触角>90°；在相对湿度54%的环境中吸湿率<2%）；该材料对紫外光具有较好的光屏蔽性能（紫外光屏蔽率>90%），并表现出良好的自愈合性能，在遭受损伤时，裂痕能反复多次恢复，拉伸性能可恢复80%以上.     

一种提高有机硅导电橡胶复合材料导电和电磁屏蔽性能的方法

描述了一种利用多元复合导电网络提高有机硅橡胶复合材料导电和电磁屏蔽性能的思想。这种含有多元复合导电网络的复合材料是通过将镀银泡沫、导电填料和有机硅橡胶复合在一起而制备的。利用扫描电子显微镜观察了复合材料的微观结构,采用电阻测试仪、矢量网络分析仪、热失重分析仪分别研究了复合材料的导电性、电磁屏蔽性能及热稳定性,并探讨了补强剂SiO2对这些性能的影响。结果表明,2%碳纳米管/导电泡沫/硅橡胶多元复合体系相比于2%碳纳米管/硅橡胶单一复合体系电阻率降低了6个数量级,平均电磁屏蔽效能由12dB提高到52dB,增大了4倍。当导电填料换为炭黑后,2%炭黑/导电泡沫/硅橡胶多元复合体系相比于2%炭黑/硅橡胶单一复合体系电阻率降低了7个数量级,平均电磁屏蔽效能由10dB提高到50dB,增大了5倍。由于多元复合导电网络,材料的导电性能和电磁屏蔽性能大幅度提升。此外,补强剂的加入增大了复合材料的热稳定性,但降低了其导电和电磁屏蔽性能。     

GW型单液法水玻璃油井堵水材料的研制

GW型单液法水玻璃油井堵水材料是用G01型材料作凝胶剂的一种新型堵剂。本文对该堵剂的凝胶机理、浆液的流变性、固砂体强度、固砂体稳定性、固砂体破坏试验以及堵塞率等进行了详细的研究,并在大港油田成功地进行了两口井试验。结果表明该堵剂的强度、稳定性以及解堵性能优于现有的类似的溶液型的堵剂。配制和施工工艺简便,性能可靠,原材料易得,成本低,可广泛应用于油井堵水,有较好的经济效益。     

再生纤维素膜对聚苯乙烯的截留性

本文用铜氨法以及微相分离和后处理技术制备了孔径30A至1000A的一系列再生纤维素膜。采用膜渗透计按流动速率法及静态渗透压法分别测定了它们的平均孔径2rf以及膜在甲苯溶液中对聚苯乙烯标样的截留率Re。得到膜平均孔径和所截留聚苯乙烯分子最Mw及其均方根末端距〈h~2〉~(1/2)之间的关系式分别为: lg2r?=lg0.155 0.59lgM_w lg2rf=lg0.589 0.96lg〈h~2〉~(1/2)     

对-(二乙氨基)苯基锗倍半氧化物的合成及对体外培养癌细胞的作用

β-羧乙基锗倍半氧化物(Ge-132)的无毒广谱抗癌作用以及潜在的治疗艾滋病的功能~[1～3]促进了Ge-132及其衍生物合成及生物活性研究~[4～6],而对锗原子直接与苯环及其衍生物连接的有机锗倍半氧化物的研究则相对较少.我们曾报道了~[7]p-(二甲氨基)苯基锗倍半氧化物的合成、结构及对癌细胞的作用,p-(二乙氨基)苯基锗倍半氧化物的研究尚未见报道.本文采用改进的方法合成了p-(二乙氨基)苯基锗倍半氧化物(Ge-164).通过元素分析、IP、XPS和TG-DTA确定了组成和结构,观察了它对体外培养人乳腺癌细胞有丝分裂的影响.     

膜催化研究(Ⅲ)——无机膜反应器中乙醇脱氢制乙醛

应用Sol-gel法制备了无机氧化铝膜,其孔径大小集中分布在3～5nm间,透过率和分离系数均符合Knudsen扩散.将该膜用于乙醇脱氢制乙醛反应中,分别考察了反应温度、进料空速、内管吹扫气流对乙醇转化率及乙醛产率和选择性的影响,并与相同条件下的常规反应器中的结果作了比较.结果发现,用膜反应器后,乙醇转化率及乙醛产率均明显高于常规反应器,与相应的平衡转化率相比较,乙醛收率可提高5%～10%.     

Graded regulation technology for enhanced oil recovery and water shutoff in pore-cavity-fracture carbonate reservoirs

Although a single type of chemical agent (eg, gels, microspheres, surfactants, etc.) has achieved some effects in enhanced oil recovery of carbonate reservoirs, for pore-cavity-fracture carbonate reservoirs, the use of a single type of chemical agent does not perform well. The main objective of this study is to study the effect of different types of chemical agents in enhanced oil recovery of complex carbonate reservoirs. In order to determine the screening principle of chemical agents, the types of water channeling in the North Troyes reservoir were analyzed. For complex fractures, step by step plugging, multi-agent and multi-slug comprehensive intervention is carried out to ensure the plugging of high-permeability channels and inhibit the seepage of large channels. It can plug channeling fracture channel, adjust secondary dominant channel and reduce matrix flow resistance, so as to expand macroscopic swept volume and improve microscopic water flooding efficiency. The results show that it is difficult to comprehensively control water channeling in pore-cave-fracture carbonate reservoir, and the reservoir heterogeneity in the test area can be improved by mixing different types of control and flooding agents and carrying out deep profile control. The plugging rate of gel is 97.18 %, and the oil–water selection ratio is 0.45 in fractured core; the expansion rate of nano - microspheres is more than 3 times; the wetting modifier can improve the imbibition oil displacement efficiency by 14.76%, and the test result shown that nano - microspheres and wetting modifier have good synergistic oil displacement effect. The field application result shown that daily oil production of oil well in the test area increased by 5.0 m³/d and the daily water rate decreased by 19.0% compared with that before the control flooding. The findings of this study can help for better understanding of enhanced oil recovery in pore-cave-fracture carbonate reservoir.     

Foam Flooding with Ultra-Low Interfacial Tension to Enhance Heavy Oil Recovery

Severe viscous fingering during water flooding of heavy oil leaves a large amount of oil untouched in the reservoir. Improving sweep efficiency is vital for increasing heavy oil recovery. Previous researches have proved that foam flooding can increase the sweep efficiency and oil recovery. The polymers could make the foam more stable and have better plugging capacity, but the interfacial tension (IFT) of oil and water increase which could decrease the displacement efficiency of the heavy oil. In view of the deficiency of conventional foam flooding, it is necessary to research the ultra-low interfacial tension foam which could improve macro-swept volume and micro-displacement efficiency in heavy oil reservoir. In this paper a novel foam agent is developed by the combination of surfactant and additives to lower the IFT of oil and water. The operating parameters including foam injections modes and gas liquid ratio were investigated by core flooding experiments. Field test performance shows that oil production per day increased from 85.6 to 125.7 t, water cut declined from 92.1 to 83.6% after 3 months injection. This study provides a novel method to improve heavy oil recovery with an ultra-low interfacial tension foam flooding system.     

Study on the Plugging Ability of Polymer Gel Particle for the Profile Control in Reservoir

Polymer gel particle is a widely used deep profile control agent to plug the water breakthrough channel in reservoir. However, there is still no theoretical model to describe its plugging ability available when it is applicated. Based on the Hertz contact theory and force analysis, the plugging model of polymer gel particle is established at the view of pore throat, and the parameters in the model are achieved by the pore throat experiments. The plugging model is verified by the core experiments. The results show that the plugging strength of polymer gel particle keeps rise with the increasing of the ratio between particle diameter and pore throat size, and then it will stay at a stable value because of the limitation of material strength. The material strength is 0.32 MPa and the particle will be broken when the size ratio is over 3. The plugging strength of the polymer gel particles with the diameters of 30–40 µm and 60–80 µm is 0.12 and 0.31 MPa in the cores with the permeability of 2989.6 × 10^?3 and 3014.7 × 10^?3 µm², respectively, which is consistent perfectly with the theoretical calculation. The plugging model of polymer gel particle is verified to be correct and can be applied to the profile control in reservoir.     

交联聚丙烯酰胺微球的形状与大小及封堵特性研究

采用流变、扫描电镜(SEM)、动态光散射(DLS)、核孔膜过滤和填充砂管驱替实验,研究了纳米级水溶胀交联聚丙烯酰胺微球的性能.结果表明,在一定的剪切速率范围内,微球浓度为100～900 mg/L的分散体系的黏度随剪切速率增加而增大,表现出较明显的剪切增稠的胀流体特性,微球浓度为50 mg/L的分散体系的黏度随着剪切速率...     

Polymers for Enhanced Oil Recovery Technology

Recently enhance oil recovery (EOR) technology is getting more attention by many countries since energy crises are getting worse and frightened. One of the reasons for this is due to the shortage of current oil resources and difficulties in finding a new oil field. Indonesia is one of the examples, before 2004 Indonesia is a net oil exporting country but after that Indonesia is a net oil importing country. The oil demand in the country is increasing while the oil production capacity is decreasing. In fact, when a new oil reservoir is drilled, the oil amount obtained from it is about 20-40% of the potential and hence there is still 60-80% oil left in the reservoir. Application of EOR technology gives an additional chance to get out more oil from the reservoir, possibly about another 20%. Polymer is the material that plays an important role in the application of EOR technology, especially surfactant and hydrogel polymers. In the technology, surfactant polymer is injected to the reservoir to reduce an interfacial tension between oil and water and is able to wipe out the trapped oil from the reservoir rock and hence increase the oil production. While an injection of hydrogel polymer to the reservoir is to increase a viscosity of fluid containing water so that the fluid is more difficult to flow than the oil, and as a result, the oil production increases. The most common polymer used for this application is polyacrylamide group.     

Nuclear-magnetic-resonance shielding constants calculated by pseudospectral methods

We have developed an algorithm based upon pseudospectral (PS) ab initio electronic structure methods for evaluating nuclear magnetic shielding constants using gauge-including atomic orbitals (GIAOs) in the spin-restricted and spin-unrestricted formalisms of Hartree-Fock (HF) theory and density-functional theory (DFT). The nuclear magnetic shielding constants for both 1H and 13C calculated using PS methodology for 21 small molecules have absolute mean errors of less than 0.3 ppm in comparison with analytic integral results. CPU timing comparisons between PS methods and conventional methods carried out for seven large molecules ranging from 510 to 1285 basis functions demonstrate that the PS methods are an order of magnitude more efficient than the conventional methods. PS-HF was between 9 and 26 times faster than conventional integral technology, and PS-DFT (Becke three-parameter Lee-Yang-Parr) was between 6 and 21 times faster.     

双功能聚二甲基硅氧烷/铜纳米线复合薄膜的制备与性能

通过环境友好的葡萄糖模板法和改进的湿化学还原法制备了聚二甲基硅氧烷/铜纳米线(PDMS/CuNWs)复合薄膜, 其采用的“类夹心结构”有效解决了铜在空气中易氧化进而导致电导率大幅度下降的问题, 同时获得了具有优异电磁屏蔽和光热转化性能的双功能轻质柔性复合薄膜. CuNWs面密度为1.6 g/cm²的复合薄膜在重复弯折1000次后性能保持率最高可达99.07％; CuNWs面密度为2.4 g/cm²的复合薄膜在X波段下总电磁屏蔽效能达到30.1 dB, 屏蔽效率达到99.9％; 同时, 在2 W/cm²的近红外光照射下, 复合薄膜在仅加热15 s后其表面温度高达211.2 ℃, 具有十分快速的光热响应和转化效率.     

Multi-layered graphene-Fe3O4/poly (vinylidene fluoride) hybrid composite films for high-efficient electromagnetic shielding

A flexible and multi-layered graphene nanosheets (GNSs)-Fe₃O₄/poly (vinylidene fluoride) hybrid composite film with high-efficient electromagnetic interference (EMI) shielding was fabricated via a facile layer-by-layer coating. The well-designed multi-layered and hybrid electromagnetic fillers endow the prepared film with good surface impedance matching and prominent internal multiple absorption, which forms “absorb-reflect-reabsorb” electromagnetic transmission pattern and results in highly efficient electromagnetic shielding effectiveness (EMI SE). The resultant composite film exhibits an exceptional EMI SE of 52.0 dB at a thickness of 0.3 mm. What is more important is that the prepared film exhibits excellent flexibility and EMI stability, and the retention rate of efficient EMI SE is high as 91.9% after 1000 bending-release cycles. This study provides a feasible strategy for designing high-efficient EMI shielding film with excellent flexibility and ultra-thin thickness that suitable for next-generation intelligent protection devices.     

Coreflooding and Pore-Scale Visualization of Foamed Gel Flowed in Porous Network Media

To investigate the mechanisms of enhancing oil recovery and the flow behaviors of foamed gel in porous media, foamed gels with characteristics of excellent strength and viscosity were prepared with polymer, crosslinking agent, foam agent, and formation water. The breakthrough-vacuum method and a rotary viscometer were used to evaluate the strength and viscosity of foamed gel. Coreflooding and pore-level visualization experiments were performed in heterogeneous reservoir models. Laboratory results illustrate that high strength and viscosity of foamed gel can be prepared by 0.15% NJ-8, 0.2% polyacrylamide solution, and 1.5% foaming agent. The strength and viscosity of the foamed gel reached 0.06 MPa and 10,000 MPa · s, respectively. The results of coreflooding experiments in heterogeneous cores show that oil recovery can be improved by approximately 36.9% after injecting 0.3 pore volume of the foamed gel, and enhanced oil recovery is mainly attributed to the improving sweep efficiency of mid- to low-permeability layers. Images of visualization flooding demonstrate that foamed gel exhibits good oil resistance and elasticity when used with crude oil. Furthermore, the new amoeba effect, Jamin effect, fluid-diverting effect, and extruding effect between foamed gel and oil in porous media can enhance oil recovery by improving sweep efficiency.