吴起油田注气混相驱油的研究与分析

提高原油的采收率在油田的开发利用过程中是一个永久的话题,它贯穿在油田的开发过程中。注气的方式提高的采收率是一种的应用的相当好的提高的采收率方法,因为的注气效果的受到的很多的油藏条件的限制,所以在注气的之前的将注气候选的油藏的筛选与评价,是注气的能否的成功关键。     

自动化仪器仪表在油田生产节能中的应用

伴随着科学技术的进步,对于工业生产来说,仪器仪表的自动化是发展的趋势,而且仪器仪表的自动化的普及程度在现在来说,是逐渐的增高的。在石油行业之中,自动化的仪器仪表的作用是非常大的,对于节省人力、物力,提升石油行业的工作效率有着明显的效果,但是对于自动化仪器仪表如果进行大量的布置,也会有一定的问题出现,主要的在于会损耗大量的能源,不能够满足我们国家的环保节能的总体的发展的要求。所以,要想对于油田进行长足的发展,就应该在环保节能的仪器仪表的研究方面加强投入,创新出更加合理、科学的建设、装配方案,不仅仅要满足油田的生产的要求,还应该达到环保、节能生产的目标。     

浅析公路路基施工工艺中的质量控制要点

公路的施工在现在面临的挑战是非常大的,主要是来自于车辆的行车速度在不断的提升,而且车辆的负荷也在增加,与是同时,车辆的数量也在逐渐的增多,这些因素都给公路的路基和路面带来了很大的影响。目前,公路的路基和路面的质量也在不断的提高,作为公路工程的基础,路基的质量会直接影响公路的使用效果,所以在进行公路施工的时候要对公路的路基的质量进行严格的控制。     

对油田生产过程的监控与管理系统的分析研究

随着我国已经加入了世界贸易组织,我国的能源市场的竞争也日益的加剧,石油企业在这种趋势之下,在不断的提高原油的产量的条件下,同时也要加快对油田生产过程中的监控以及管理系统的建设,提高竞争的手段。当今我国的石油勘探的开采技术已经得到了迅速的发展,而且取得了非常好的经济效益。但是对于联合站的原油生产的综合的处理能力以及原油的技术装置都是比较落后的。对于生产过程中参数的监测和控制装置技术的陈旧和设备的老化都对于安全生产有着重大的影响。本文通过列举油田联合站的分布式的监控系统的实例,对分布式监控系统在油田生产中的应用进行了研究。并且从油气集输的生产管理的系统现状出发,进行了系统的建模,重建了技术生产的管理流程,确立了总体的设计思路,并确定了系统开发技术的整体路线。     

浅议建筑监理对施工现场协调工作的开展

随着近年来我国社会经济发展的不断加快,城市化的进程也在不断的得以深化,建筑行业也由此而得到了更加迅速的发展,建设的速度和深度都在一定的程度上得到了提升,但是由于建设的速度越来越快,所以说在实际施工的过程当中也会相应的存在着一些问题,所谓的建筑监理工作指的是在建筑工程的施工过程当中,相关的建设单位对于监理单位进行的一种服务委托。在国家相关法律规范的指导之下,对于建筑工程的施工现场进行有效的管理工作,管理的内容主要是根据工程建设相关合同的要求来进行的,针对于建筑工程的质量、投资和工期等各个方面都要进行有力的监管工作,但是最主要的部分还是对于施工现场的相关协调,对于现场施工的各个部分进行有效的监管,及时的处理现场施工过程当中的诸多问题,从而对于工程的质量进行保证。     

黑陶印象

张福荣的黑陶艺术,蕴含着天地的交响。 黄色的泥土,红色的火焰,黑色的陶艺,构成统一的音符,终究造化出深沉的咏叹; 精美的画面,稳重的版式,震撼的图腾,每一种样态的交织,产生着优美的旋律,自然构造出生命的乐章。     

高速公路路基填料改良及其应用分析

高速公路的修建基础是根据当地的土质以及环境再配合相应的填充材料进行的。例如某些地方的土质是一种具有特殊性的盐渍土质。这种土质会给工程的实施带来很大的困难,因为土质的原因会出现腐蚀等一系列问题。本文对盐渍土地路基在施工时的问题进行分析。通过实验与具体的施工所遇到的问题研究盐渍路基的填料的问题。通过一系列的实验对盐渍土质的固话进行研究,为了在具体的施工过程中提供有利的施工方案,这是本次研究的主要目的。为改善盐渍路基提供可靠的科学基础。这将对未来的高速公路的发展有着非凡的意义。     

浅谈如何做好结构设计及需要注意的问题

伴随着我国整体社会的不断快速发展,城市的整体建设和综合性功能规划不能得到合理的发展。城市的整合性土建工程数量伴随着工程得到了合理的综合性发展。伴随着土建建筑工程的规模的不断扩大,工程的综合性数量、基站设备和数量得到了合理的加深。随着土建工程的机构管理设计关系的不断复杂化、多样化,带动综合性的土建设计结构液不断的发展,合理的分析土建结构的相关各个方面的关系,制定合理的综合性设计规划,从而逐步完成有效化的综合性多方面考虑工作控制。本文将针对土建设计结构进行合理的工程原则分析,制定合理的设计过程,完善综合性的土建结构设计过程的有效化分析,针对相关的结构设计进行合理的综合性问题研究,从几个方面制定合理的综合性意见分析,实现良好的结构设计控制。     

“变化期”的供应商选择策略

什么样的供应商才是企业所需要的？带来低价格的供应商、高质量的供应商、有规模的供应商、非竞争性的供应商、有能力的供应商、可以控制的供应商、有品牌的供应商、专属的供应商、可以快速响应的供应商、全球化的供应商等等,以上这些特征是企业脱口而出的要求标准。     

基于BIM技术的高架桥工程施工中应用研究

BIM是建筑信息模型的简称,现在BIM技术已经广泛的用于各种建筑工程中,这种技术主要是借助计算机来建立数字化的模型,它对工程项目的各个环节都有辅助的作用,对工程的招标、设计以及运营都起着重要的作用,对于建筑行业的管理者而言,它是整个工程起着重要的管理作用。建筑施工的过程是很复杂的,并且在施工的过程中有很多的不确定因素,作为建筑工程项目的管理者不但要考虑到建筑本身的设计,还要考虑到工期、成本或者是场地的问题,这些问题贯穿于施工过程的始终,而这些问题是随时变化的,不确定的因素很多,要想及时的管理是存在一定的困难的。现在我国的交通处于不断的发展中,高架桥也随着交通的发展而产生,高架桥在施工的过程中采用了BIM技术,它对高架桥的建设做出了重要的贡献,使高架桥的建设更为顺利。     

Confocal microscope—A valuable tool for examining wood-coating interface

The suitability of confocal laser scanning microscopy (CLSM) in examining a wood-coating interface was evaluated using a clear coating system. A comparison of the images of the wood-clear coating interface obtained using CLSM and light microscopy (LM) showed a marked superiority of CLSM in revealing the details of the physical nature of the interaction between the clear coating and the wood cell walls in the surface layer. The most distinct advantage of CLSM was in its ability to clearly resolve penetration of the coating into very fine cracks in cell walls, details not obtainable with LM. The information presented here demonstrates that CLSM has the potential to greatly enhance our understanding of the physical aspects of an interaction between the wood and coating at the interface.     

影响纳米流体液滴蒸发沉积图案的关键因素分析

目前关于液滴蒸发后沉积图案的研究主要集中于描述其物理现象的变化,但是对于蒸发过程中导致沉积图案形成的受力分析少有研究。影响纳米流体液滴蒸发沉积图案的主要因素是与液滴接触的底板温度和纳米颗粒的质量浓度。本文选用4种不同温度（30℃、47℃、64℃和81℃）的玻璃载玻片作为底板,采用粒径为20nm的3种质量分数（0.05%、0.1%和0.2%）的Al₂O₃-H₂O纳米溶液来研究纳米流体液滴在固体表面上蒸发后沉积图案的形成机理。实验结果表明,随着溶液质量分数的增加和底板温度的升高,咖啡圈效应越来越明显,且内环结构也逐渐清晰可见。其中咖啡圈效应由底板温度和溶液质量分数共同影响。溶液质量分数和底板温度都与马兰戈尼（Marangoni）效应呈正相关性,但由停滞点和Marangoni效应产生的内环结构,受底板温度的影响更大。     

废钢在底吹反应器中运动熔化及混匀的水模型实验

通过水模型实验,使用饱和氯化钾溶液制作的冰样模拟重型废钢,研究其在底吹气体搅拌反应器中的运动、融化及溶质的混匀规律。探究了单孔吹气模式下的液面高度、双孔吹气方式下的气体流量等因素对其的影响。结果表明,单孔吹气时,液面高度较低时(液面高度与直径比为0.42),气柱发展不充分,容器内环流较弱,盐球在气柱上下往复运动,融化较为缓慢。随着液面高度增加(液面高度与直径比为1.04),盐球随着环流运动,融化过程加快,按照98%标准得到的KCl的混匀时间甚至低于融化时间。双孔吹气时,A孔气体流量0.8 m3/h不变,B孔气体流量为0.5和1.0 m3/h时,盐球从吹气孔A上方加入后,在容器底部停留一段时间,在60~70 s之后才运动到顶部,沿着环流运动;B孔流量增加至1.5 m3/h时,盐球不会在底部停留,随气柱运动到吹气流量大的一侧的羽流区,其融化过程较快。在双孔吹气方案中,也发现了KCl的混匀时间低于融化时间的规律,这和融化末期盐球质量较小,释放的盐分较少有关。在本研究中,双孔吹气对盐球融化的促进作用不如单孔吹气且流量较大的方案。     

纳米填料/橡胶体系在贮存中的结构形态变化Ⅱ.结构变化的影响因素及其对性能的影响

综述了纳米填料／橡胶复合体系在熔融态或高弹态贮存停放过程中,影响其结构形态变化的因素,以及贮存停放对复合体系流变性能、物理机械性能和导电性能的影响,并评述了相关的理论模型。纳米填料／橡胶复合体系在熔融贮存过程中的结构变化主要受橡胶的黏度、填料特性及其用量、填料与橡胶之间的相互作用以及加工性能的影响。填料网络结构的絮凝程度强化使复合体系流变性能、动态力学性能降低,但导电性能提高。相关的填料聚集动力学和填料絮凝模型大部分是唯象模型。     

Lipid soil removal from cotton fabric after mercerization and carboxymethylation finishing

Soiling and soil removal from cotton fabrics that had been chemically modified by mercerization and carboxymethylation were studied using electron microscopy and radiotracer techniques. The distribution of lard soil in specimens before and after laudering was determined by means of chemical tagging with osmium tetroxide. Both the chemical and physical changes of the cotton resulted in differences in soiling and soil removal of lipid soil. Mercerization and carboxymethylation of cotton swell the cotton fiber, decrease the crenulation and the lumen, and smooth the fiber surface. These finishes also increase the pore volume and thus the chemical accessibility of the fibrillar structure. In addition, carboxymethylation causes changes in the chemistry of the fiber by increasing the carboxyl group content. These structural changes reduce the amount of soil deposited in the lumen of the fiber, particularly for the carboxymethylated cotton. They also increase soil removal from the crenulation and the interfiber spaces in the yarn bundle. Soil removal from fiber surfaces and from within the fiber—both lumen and secondary wall—was highest for the carboxymethylated cotton, and mercerization also enhanced lipid soil removal. The results of this experiment indicate that chemical accessibility and hydrophilicity of the fiber structure influence both soil deposition and soil removal of lipid soils. Soil removal of these modified cottons is enhanced by multiple mechanisms: (i) the decrease in small crevices and the crenulation or small capillary along the fiber, (ii) the increase in pore volume that enhances chemical accessibility and thus detergency within the fiber structure, (iii) the increase in hydrophilicity that enhances soil removal from the surface by the roll-up mechanism, (iv) the increase of mechanical action due to enhanced swelling of the carboxymethylated cotton, and (v) the reduction of soil redeposition on carboxymethylated surfaces.     

聚电解质静电沉积改性制备高性能反渗透膜

利用次氯酸钠溶液对商品反渗透膜表面进行氯化处理,然后将聚阳离子电解质壳聚糖通过静电吸附作用沉积在RO膜的表面,系统地研究了氯化过程的pH、氯化时间、次氯酸钠浓度、壳聚糖浓度及其沉积时间对膜性能的影响,以制备出高通量、高截留率的RO膜。在压力1.55 MPa、原料液温度（298±1）K的条件下,测定RO膜处理2000 μg·g^-1氯化钠溶液的水通量和截留率。结果表明,当pH=9、氯化时间为30 min、次氯酸钠浓度为1000 mg·L^-1时,水通量较原膜提高了约19.89%,截留率略有提高;当壳聚糖浓度为0.1%（质量分数）、沉积时间为30 min时,改性膜的接触角降低到34.88°,亲水性提高,水通量较氯化后的RO膜几乎保持不变,为60.55 L·m^-2·h^-1,截留率达到了99.56%。经过氯化和沉积改性后的RO膜水通量和截留率均得到了提高。     

Nuclear Cytoskeleton in Virus Infection

The nuclear lamina is the main component of the nuclear cytoskeleton that maintains the integrity of the nucleus. However, it represents a natural barrier for viruses replicating in the cell nucleus. The lamina blocks viruses from being trafficked to the nucleus for replication, but it also impedes the nuclear egress of the progeny of viral particles. Thus, viruses have evolved mechanisms to overcome this obstacle. Large viruses induce the assembly of multiprotein complexes that are anchored to the inner nuclear membrane. Important components of these complexes are the viral and cellular kinases phosphorylating the lamina and promoting its disaggregation, therefore allowing virus egress. Small viruses also use cellular kinases to induce lamina phosphorylation and the subsequent disruption in order to facilitate the import of viral particles during the early stages of infection or during their nuclear egress. Another component of the nuclear cytoskeleton, nuclear actin, is exploited by viruses for the intranuclear movement of their particles from the replication sites to the nuclear periphery. This study focuses on exploitation of the nuclear cytoskeleton by viruses, although this is just the beginning for many viruses, and promises to reveal the mechanisms and dynamic of physiological and pathological processes in the nucleus.     

Écoulement de Taylor‐Couette en géométrie finie et à surface libre

The reactors of Taylor‐Couette type are relatively recent application in the engineering processes field. The stability and the flow structure in this device are examined under the effect combined of the free surface and the fluid's height in annular space. The exploitation of the flow regimes is carried out according to the number of Taylor for various values of aspect ration Γ. By means of ultrasonic velocimetry (UPV) we determine axial average velocity profile and the axial wavelength. We also carry out the spectral analysis by Fourier's fast transform of the fluctuations associated with the average velocity values in order to analyze the flow structure. We particularly aim for checking the presence or the absence of the azimuth wave according to the filling height and the rotational velocity imposed. We highlight the effects of free surface and aspect ratio on the conditions of appearance of the second instability ( wavy mode). The analysis of the fluctuation shows that the appearance of the azimuth wave regime (Wavy mode) is delayed when the aspect ration decreases. Below a critical value noted Γc = 10, the azimuth wave regime is not observed any more.     

高温干燥对褐煤孔隙结构及水分复吸的影响

利用卧式固定床实验炉制得不同温度下干燥处理的煤样,采用低温氮吸附法测试煤样的比表面积、孔体积和孔径分布等孔隙特征参数,使用复吸实验装置测定不同干燥程度褐煤煤样的平衡含水量,探索了高温干燥处理后褐煤孔隙结构的演变与其复吸特性之间的关联规律。结果表明：褐煤原煤及不同干燥温度(600~800℃)下半焦的等温吸附曲线均属于第Ⅱ类吸附等温线,褐煤原煤、600℃和700℃干燥半焦的吸附回线均属于L1型,800℃干燥半焦的吸附回线有从L1型转变为L2型的趋势;随着干燥温度的增加,干燥半焦的比表面积先增大后减小,介孔峰值的孔径微分同样先增大后减小,而大孔孔径微分基本保持不变;分形维数D₁和D₂呈相反的变化趋势,且D₂>D₁;不同干燥程度半焦的复吸曲线变化趋势相同,且平衡含水量随着干燥温度的升高而减小;半焦复吸特性与孔隙结构有关,平衡含水率与其孔容积之间呈较好的线性关系。     

Inorganic/organic nanocomposite coatings: The next step in coating performance

Inorganic/organic hybrid materials have considerable promise and are beginning to become a major area of research for many coating usages, including abrasion and corrosion resistance. Our primary approach is to prepare the inorganic phase in situ within the film formation process of the organic phase. The inorganic phase is introduced via sol-gel chemistry into a thermosetting organic phase. By this method, the size, periodicity, spatial positioning, and density of the inorganic phase can be controlled. An important aspect of the inorganic/organic hybrid materials is the coupling agent. The initial task of the coupling agent is to provide uniform mixing of the oligomeric organic phase with the sol-gel precursors, which are otherwise immiscible. UV-curable inorganic/organic hybrid systems have the advantages of a rapid cure and the ability to be used on heat sensitive substrates such as molded plastics. Also, it is possible to have better control of the growth of the inorganic phase using UV curing. It is our ultimate goal to completely separate the curing of inorganic and organic phases to gain complete control over the morphology, and hence optimization of “all” the coating properties. Thus far, it has been found that concomitant UV curing of the inorganic and organic phases using titanium sol-gel precursors afforded nanocomposite coatings which completely block the substrate from UV light while maintaining a transparent to visible light. Also, it has been found that the morphology of the inorganic phase is highly dependent on the concentration and reactivity of the coupling agent. Presented at the 82nd Annual Meeting of the Federation of Societies for Coatings Technology, October 27–29, 2004, in Chicago, IL.