88 resultados para CAP-13HG
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拓扑异构酶(topoisomerase)是一类控制和修改双螺旋DNA复制和转录过程中的拓扑结构的酶,是生命活动中最重要的酶。以IA类和II类拓扑异构酶中共存的toprim以及CAP-like结构域为研究对象,对拓扑异构酶中的三大类酶的分子进化情况进行了分析。结果显示在IA类和II类酶之间序列保守性很低,但是具有两个保守的结构域,在IIB类拓扑异构酶中toprim结构域中存在着和其他toprim结构域相同的四个保守位点,而在CAP-like结构域中IA类和II类中存在较大差异,没有明显的序列保守性,IIB类和IIA类的CAP-like结构域在二级结构上非常相似。从toprim结构域系统进化研究中我们发现IIA类和皿类中toprim结构域的进化关系很近,两类酶的toprim结构域在亲缘关系上和primase较远,而以上三者和IA类的进化关系最远。CAP-like结构域的系统进化研究发现IIA类以及IA类的domain4的CAP-like结构域进化关系比较近,IIB类和他们之间关系稍微远一些,IA类的domain3和以上几个结构域的关系较远,这也与他们的二级结构上的一致性是相同的。通过分析,IIA、IIB类起源于类似IA类的古老的拓扑异构酶,'在IA类进化中经过基因复制产生了两个不同的CAP-like结构域。然后祖先拓扑异构酶发生了变化,N'端加入了ATPase结构域和DNAgyrase/Mutlsecond结构域,形成了严格依赖ATP供能的真核生物IIA类,在细菌中断开成为两个亚基的细菌中IIA类。IIB类是祖先细胞的IIA类的一个或者是两个亚单位在古细菌以及真核生物中通过复制、重组和缺失造成的,IIB类中的toprim结构域很接近IIA类,可以认为,llB类中的toPrim结构域直接由IIA类转移而来,而IIB类中的cAP一1汰e结构域较IIA类中产生更早一些,应该是由拓扑异构酶祖先中产生的二级结构为aβaaββ的CAP-like结构域直接进化而来。然而,两个结构域的基因在连接到一起时候发生了不同于一般顺序的拼接,于是nB类中两个结构域形成了不同于现在的IA类和IIA类的顺序。
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Self-assembly of the building block [Cu(oxbe)](-) with Mn(II) led to a novel coordination polymer {[Cu(oxbe)]Mn(H2O)(Cu(oxbe)(DMF)]}(n).nDMF.nH(2)O, where H(3)oxbe is a new dissymmetrical ligand N-benzoato-N'-(2-aminoethyl)-oxamido and DMF = dimethylformamide. The crystal forms in the triclinic system, space group P(1)over-bar, with a = 9.260(4) angstorm, b = 12.833(5) angstrom, c = 15.274(6) angstrom , alpha = 76.18(3)degrees, beta = 82.7(3)degrees, gamma = 82.31(3)degrees, and Z = 2. The crystal structure of the title complex reveals that the two-dimensional bimetallic layers are constructed of (CuMnII)-Mn-II-Cu-II chains linked together by carboxylate bridge and hydrogen bonds help to produce a novel three-dimensional channel-like structure. The magnetic susceptibility measurements (5-300 K) were analyzed by means of the Hamiltonian (H)over-cap = -2J(S)over-cap (Mn)((S)over-cap(Cu1) + (S)over-cap(Cu2)), leading to J = -17.4 cm(-1).
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The catalytic active phase (CAP) of a novel liquid catalyst for isobutane alkylation with butenes was investigated, the composition of the CAP was analysized, The components of the catalytic active phase were separated and examined by the methods of FTIR, UV and NMR etc., On the basis of these results, a reaction mechanism based on the formation of protonated heteropolyacid as an intial stage in the isobutane alkylation with butenes was postulated, which is in agreement with the experimental results.
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In amphioxus embryos, the nascent and early mesoderm (including chorda-mesoderm) was visualized by expression of a Brachyury gene (AmBra-2). A band of mesoderm is first detected encircling the earliest (vegetal plate stage) gastrula sub-equatorially. Soon thereafter, the vegetal plate invaginates. resulting in a cap-shaped gastrula with the mesoderm localized at the blastoporal lip and completely encircling the blastopore. As the gastrula stage progresses, DiI (a vital dye) labeling demonstrates that the entire mesoderm is internalized by a slight involution of the epiblast into the hypoblast all around the perimeter of the blastopore. Subsequently. during the early neurula stage, the internalized mesoderm undergoes anterior extension mid-dorsally (as notochord) and dorsolaterally (in paraxial regions when segments will later form). By the late neurula stage, AmBra-2 is no longer transcribed throughout the mesoderm as a whole; instead. expression is detectable only in the posterior mesoderm and in the notochord, but not in par axial mesoderm where definitive somites have formed.
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The effective property has been investigated theoretically in graded elliptical cylindrical composite's consisting of inhomogeneous graded elliptical cylinders and an isotropic matrix under external uniform electric field. As a theoretical model, the dielectric gradient profile in the elliptical cylinder is modeled by a power-law function of short semi-axis variable parameter (xi(2) - 1) in the elliptical cylindrical coordinates, namely epsilon(i)(xi) = c(k) (xi(2) - 1)(k), where c(k) and k are the parameters, and xi is the long semi-axis space variable in an elliptical cylindrical inclusion region. In the dilute limit, the local analytical potentials in inclusion and matrix regions are derived exactly by means of the hyper-geometric function, and the formulas are given for estimating the effective dielectric responses under the external lfield along (x) over cap- and (y) over cap -directions, respectively. Furthermore, we have demonstrated that our effective response formulas can be reduced to the well-known results of homogeneous isotropic elliptical cylindrical composites if we take the limit k -> 0 in graded elliptical cylindrical composites. (c) 2006 Elsevier B.V. All rights reserved.
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研究区位于郯庐断裂中段与济阳坳陷的构造结合部,区内走滑构造广泛发育,主要的走滑断裂有7条,分别是郯庐断裂带的东西两支、垦东断层、孤东断层、长堤断层、埕东断层和发育于垦东凸起中部的浅层走滑构造带。走滑构造带与油气富集带有着明显的对应关系。 通过对研究区内二维、三维地震测线和平面构造图的精细解释和分析,分别揭示了各走滑断裂在平面、剖面和三维空间上的构造形态。根据走滑断裂及其伴生构造的平面和剖面上的几何学特征,将研究区内的走滑断裂划分为三种类型:成熟型走滑断裂、隐伏型走滑断裂、不连续型的走滑断裂。 从理论模式研究入手,推导了拉分盆地中盆地的走滑速率与沉降速率之间的关系,证实了走滑速率同盆地的几何形状参数、最大沉降深度和盆地的沉降速率存在着稳定的数值关系。通过对莱州湾地区潍北凹陷基底沉降历史的分析,建立了潍北凹陷沉降速率与郯庐断裂中段走滑速率之间的经验关系式,进而求出郯庐断裂中段新生代右行走滑位移量的大小为40km。 运用2DMove软件,对研究区内四条典型剖面进行构造复原,计算出了各条剖面每个时期的伸展参数,对研究区构造活动强度进行了定量分析,揭示了研究区的构造演化规律。通过运用Ansys软件进行有限元模拟,恢复了晚白垩世晚期-古近纪早期研究区内的构造应力场和应变场,揭示了扭张作用是研究区内走滑断层开始走滑的主要原因。 通过上述分析,结合对究区内近几年勘探开发成功和失败的实例分析,全面探讨了走滑活动对于油气成藏“生”、“储”、“盖”、“圈”、“运”、“保”各因素的影响。
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栉孔扇贝是我国传统的海水养殖品种,但自1997 年以来,养殖扇贝陆续爆发的大规模死亡,不但造成了巨大的经济损失,而且严重影响了该产业的健康发展。目前,虽然针对扇贝养殖环境、病原以及养殖技术等方面开展了大量的研究工作,提出了许多防病治病的措施,并取得了一定的成效。但由于引起养殖扇贝病害的病原和发病原因的多样性,大量使用抗菌素和农药后造成病原微生物抗药性的提高以及对环境造成的严重破坏,贝类养殖业要摆脱病害的困扰,必须开辟新的疾病防治途径。 从扇贝自身的免疫防御因子入手,筛选和克隆参与免疫防御的功能基因,尤其是一些新颖的具有抗菌活性的分子,对于深入探讨扇贝的免疫防御机制,指导扇贝的遗传改良和抗病品系的培育具有重要的意义;另一方面,可对抗菌效应物实现重组表达,开发新型的病害预防治疗制剂,取代目前普遍使用的抗生素和化学药物。抗菌效应物是机体在免疫应答过程中产生的多肽类物质,对侵入生物体内的细菌、病毒具有很强的免疫杀灭作用,对抗菌效应物的研究有助于深入了解机体先天性免疫防御的机制。 本研究在同源克隆策略的基础上,从利用构建的Genome Walking 文库中克隆到了栉孔扇贝核心组蛋白群的全长序列,该串联重复序列全长5671bp,包括各一个拷贝的组蛋白H4, H2B, H2A 和 H3。所有的核心组蛋白在3’侧翼序列均具有与其在细胞周期进化模式相关的特征结构,即两个不同的终止信号:发卡结构和至少一个多聚腺苷酸信号序列(AATAAA)。在5’区域的起始密码子上游37–45 bp处的保守的CAP位点(5’-PyCATTCPu-3’)存在于除H2B外的每一个基因中;规则的TATA 和CAAT元件也在核心组蛋白群中的个别的基因中找到。在H2B 和H2A基因的启动子区域,对于定位转录起始位点非常重要的元件(5’-GATCC-3’)也相对保守; 在H2B启动子区域存在着与其特征序列(5’-GGAATAAACGTATTC-3’)相似性很高的序列结构5’-GGATCGAAACGTTC-3’。增强子序列只发现存在于H4 和 H3基因中,其序列结构与组蛋白增强子序列(5’-TGATATATG-3’)基本匹配。在组蛋白基因群中存在着一些保守的序列和重复结构表明组蛋白基因的进化是采取“生与死的进化模 式”并伴随着强的纯化选择压力,使得该基因群变异较少以保持其基本功能。同时,利用18S rRNA做参照,探讨了H2A 和H2B作为分子系统进化分析的潜在分子标记,表明组蛋白H2A 和H2B可以作为分子系统进化分析得候选分子,它们在区分近缘种的分辨率上表现出了更高的灵敏度。该研究结果为进一步定性软体动物组蛋白重复单位提供了基础。 在脊椎动物中,组蛋白H2A通过特异性剪切其N末端产生新颖的抗菌肽的形式来参与宿主的免疫应答反应,在软体动物中是否存在同样的机制还未有研究报道。本研究利用上述克隆的H2A基因研究了其在病原胁迫下的表达变化规律并对其N末端39aa进行了重组表达和抗菌活性分析,以期为开发和利用软体动物的新颖的抗菌肽提供理论依据。半定量RT-PCR发现血细胞中H2A 的mRNA 在微生物感染前后的表达量没有任何显著的变化,表明H2A本身并不直接参与对病原的清除过程或者说病原微生物并不能诱导H2A的表达。因此,我们推测该基因可能象脊椎动物一样以前体形式存在,经剪切后参与宿主的免疫应答过程,为此我们研究了H2A的N末端的抗菌活性。通过将与脊椎动物buforin I同源的H2A的N末端39aa克隆到毕赤酵母表达载体pPIC9K实现了该基因N末端的重组表达。抑菌实验表明,重组产物具有广谱的抗菌活性,其对供试的革兰氏阳性菌藤黄微球菌表现出显著的抗菌活性,而对革兰氏阴性菌(鳗弧菌、亮弧菌)的抑菌活性则相对较弱;此外,重组产物对毕赤酵母GS115也表现出一定的杀菌活性,证明其具有抗真菌活性。上述研究结果证明组蛋白H2A的N末端是一种潜在的抗菌肽,但该抗菌肽是否参与机体的免疫应答过程需要进一步的深入研究。
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无线通信技术在工业网络化控制系统中的应用已成为当今工业领域中的研究热点。然而无线通信技术在恶劣的工业环境中通信质量严重下降,使得现有无线通信技术在工业网络化控制系统中的应用受阻。为此在不断提高和改进无线信号传输性能的同时,更要在控制系统级层面上充分考虑无线通信技术的特点,进行相关系统结构和实时调度机制等方面的改进,以达到使系统产生的通信任务在应用层上得到可靠、实时调度的目的。同时也要从无线网络技术层面上入手,解决上层下达的通信任务在数据链路层中的实时调度问题。要设计适合工业无线网络化控制系统应用特点的MAC协议来有效调度网络所有节点的信息收发,减少高层下达的通信任务在网络中的平均时延,提高吞吐量,进而保证工业无线网络化控制系统的实时性。 因此,本文从工业无线网络化控制系统中的通信任务在数据链路层和应用层上的调度角度出发,以解决、改善工业无线网络化控制系统的实时性和可靠性等性能指标为目的。对工业无线网络化控制系统的结构、应用层调度策略和优化以及数据链路层中的MAC协议进行了系统的研究。主要工作和贡献有以下几点: (1)对工业网络化控制系统的基本问题和引入无线通信技术后产生的问题进行了探讨。在定性分析了工业环境对无线通信的影响及要求的同时,又推导出了无线通信的链路预算模型,并利用Matlab对该预算模型进行了建模,计算出了在工业级噪声指数和工业要求的误码率下,IEEE802.11b和IEEE802.15.4两大主流无线通信技术的链路预算情况及具体的量化数据。 (2)提出了工业无线网络化控制系统的双频二级拓扑结构和多路径传输机制。利用了无线信道特点和路径冗余优势,在系统级上改进了目前无线通信技术在工业网络化控制系统中的应用模式,部分缓解了无线通信技术在工业恶劣环境中的实时性和可靠性问题。为工业无线网络化控制系统结构的设计做了有益的尝试。同时,首次将DS-UWB技术应用于工业网络化控制系统中,设计出了基于该结构的UWB和FF及PROFIBUS的集成方案,为该结构的快速应用提供了有效的途径。 (3)提出了极大容忍无线通信时延的调度算法(GTD)。有效解决了工业无线网络化控制系统中周期性通信任务的实时性问题,部分弥补了因无线网络时延而导致周期性通信任务超时的缺陷。并针对GTD调度算法产生的通信窗口碎片问题进行了优化处理,又提出了面向非周期信息吞吐量最大化的优化调度算法,该算法提高了非周期性通信任务的吞吐量。同时,给出了基于这两种调度算法的非线性规划模型的调度时间表求解方法。 (4)提出了根据通信任务调度时间表进行分配无竞争期的混合CAP和CFP的MAC协议(HAF-MAC)。解决了工业无线网络化控制系统上层下达的周期性通信任务和非周期性通信任务在数据链路层中的实时调度问题,并有效解决了本文提出的应用层调度算法生成的预留时间可能存在浪费的问题。同时,在理论分析了HAF-MAC协议时隙利用率的基础上,提出了基于时隙的HAF-MAC(TSHAF-MAC)协议。TSHAF-MAC协议比HAF-MAC协议提高了时隙利用率,使吞吐量和平均延时得到了进一步改善,进而提高了非周期性通信任务的实时性。最后,对这两个协议进行了仿真建模与验证,进而较系统地解决了工业无线网络化控制系统中的通信任务的实时调度问题。 (5)分别将论文中的第三章和第四章的部分研究成果,在本人博士研究阶段研发的无线智能照明控制系统这一物理实验平台上进行了一定的验证。
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本文介绍了一种用于大型汽车覆盖件冲压生产的柔性自动化生产线,系统由6台压机、12台上下料机械手、1台翻转传输装置、4台穿梭传输装置及1台磁力分层装置构成.给出了生产线的主要性能指标、机械手结构简图及单元控制系统框图,简要介绍了系统的工作原理。
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Proven by the petroleum exploration activities, the karsts-fissure reservoir in carbonate rocks is significant to find out the large scale oil & gas field. They are made up of the four reservoir types: karsts-cave, karsts-crack, crack-cave and fracture-pore-cave. Each reservoir space and each reservoir bed has different features of reservoir heterogeneity and small scale of pore-crack-cave. The fracture-cave reservoir in carbonate rocks is characteristic by multi-types and long oiliness well. The reservoir shape is controlled by the irregular pore-crack-cave. The development level of fracture and karst-cave is the key element of hydrocarbon enriching, high productivity and stable production. However, most of Carbonate formation are buried deeply and the signal-ration-noise of seismic reflection are very low. It is reason why the fracture-cave reservoir are difficult to be predicted effectively. In terms of surveyed and studied lots of the former research outcome, The author applied the methods of synthetical reservoir geophysical prediction from two ways including macrosopic and microcomic technics in terms of the reservoir-cap condition, geophysics and geology feature and difficulty of prediction in carbonate rocks. It is guiden by the new ideas of stratigraphy, sedimentology, sedimentography, reservoir geology and karst geology. The geophysics technology is key technics. In aspects of macroscopic studies, starting off the three efficiencies of controlling the reservoir distribution including sedimental facies, karst and fracture, by means of comprehensive utilization of geology, geophysics, boring well and well log, the study of reservoir features and karst inside story are developed in terms of data of individual well and multiple well. Through establishing the carbonate deposition model, karstic model and fracture model, the macro-distribution laws of carbonatite are carried out by the study of coherence analysis, seismic reflection feature analysis and palaeotectonics analysis. In aspects of microcosmic studies, starting off analysis in reservoir geophysical response feature of fracture and karst-cave model according to guidance of the macroscopic geological model in carbonate reservoir, the methods of the carbonate reservoir prediction are developed by comprehensively utilization of seismic multi-attribution intersection analysis, seismic inversion restricted by log, seismic discontinuity analysis, seimic spectrum attenuation gradient, moniliform reflection feature analysis and multiparameter karst reservoir appraisement.Through application of carbonate reservoir synthetical geophysics prediction, the author r successfully develops the beneficial reservoir distribution province in Ordovician of Katake block 1in middle Tarim basin. The fracture-cave reservoir distributions are delineated. The prospect direction and favorable aims are demonstrated. There are a set of carbonate reservoir prediction methods in middle Tarim basin. It is the favorable basic technique in predicting reservoir of the Ordovician carbonate in middle Tarim. Proven by exploration drilling, the favorable region of moniliform reflection fracture and pore-cave and cave-fracture in lower-middle Ordovician are coincidence with the region of hydrocarbon show. It’s indicated that the reservoir prediction methods described in the study of Ordovician carbonate formation are feasible practicably.
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The oil and gas potential of Northeast Asia is enormous, but the degree of exploration is very low in Northeast Asia (the degree is below 3%-10%).The reasons are as follows: First, it is relatively difficult to study the oil and gas bearing basins(OGB), which are of multiple types, in different tectonic settings, with complex geologic frameworks and with long-term geologic evolution. Secondly, because of the non-equilibrium in development of economy and regional market, application of theories and techniques and the research levels in different countries, the conclusions are not conformable, and even contradictory. Thirdly, most of the former researches were limited to one territory or one basin, and lack of systematical and in-depth study on geotectonic evolution, classification of basins, and the evaluation of hydrocarbon resources. In this thesis, integrated study of the regional tectonic feature and basin features of Northeast Asia was done, to understand the basin evolution history and the controlling action on oil and gas. Then, new conclusions are and exploration proposals are as following: 1. Geotectonic evolution in Northeast Asia: The main structural motion system in Paleozoic Era was longitudinal, and in Meso-cenozoic was latitudinal with the Pacific Ocean. The whole evolution history was just the one of pulling-apart, cutting-out, underthrusting and collision of the Central Asia- Mongolia Ocean and the Pacific Ocean. 2. The evolution characteristics of basins in Northeast Asia: mainly developed from longitudinal paste-up, collision and relaxation rifting motion in Paleozoic-Early Mesozoic Era and from underthrust, accretion, and receding of subducted zone of the Pacific Ocean in Late Mesozoic Era-Cenozoic Era. 3. The research in basin classification of Northeast Asia: According to geotectonic system, the basins can be classified into three types: intracratonic, pericratonic and active zone basin. And they can be further classified into 18 different types according to genetic mechanism and dynamic features. 4. The master control factors of oil and gas accumulation in Northeast Asia: high quality cap-rock for craton and pericrationic basin, the effective source rock and high quality cap-rock for Mesozoic rifted basins, intra-arc, fore-arc and back-arc basins. Graded exploration potential of oil and gas for basin in Northeast Asia according to 7 factor, hereby, divided the oil and gas potential of basins into 5 levels. 5. Evaluation of hydrocarbon resources: The difference of resource potential among these basins is huge in Northeast Asia. The evaluation of Mesozoic rifted basin and Pacific Ocean basin showed that the large scale rifted basin and retroarc basin(including backarc marginal sea basin) have great resource potential. 6. The writer believes that the next step should pay more attention to the evaluation of petroleum resource in Far East part of Russia and trace them. On the other hand, according to integrated analysis of oil/gas resource potential and the operation difficulty in this area, suggests that East-Siberia basin, East-Gobi-Tamchag basin, Sakhalin basin, North-Okhotck basin, West-Kamchatka basin could be as cooperation priority basins in future.
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After the half century exploration, previous scholar evaluating thought that there were poor Petro-Geological conditions in Chepaizi area of Zhungar basin. Recently, with the great discovery in the Well Pai2,the study on the subtle reservoir in Chepaizi area are gained great attentions by the scholars all over the world day by day. Chepaizi uplift is a inherited palaeohigh, and its structural traps are undeveloped. The sedimentary faces of Shawan Formation of Neogene have apron type of alluvial fan, alluvial plain, alluvial fan delta, salt lake, shore and shallow lake and so on. The sedimentary faces of Shawan Formation of Well Pai2 is alluvial fan delta and shore and shallow lake, the first part of Shawan Formation(N1s1) is the main target for exploration. Using the seismic forward, property analysis, spectral factorization, logging restrain inversion and so on, The spatial distribution of the sand reservoir and its hydrocarbon, predicted and 20 lithology traps in 5 substratums were carried out. The traps have a total areal of 107.13 Km2, and the geological reserves in it can reach 8703.7×104t. After comprehensive research on the trap,reservoir, cap and the condition of the hydrocarbon accumulation, it is considered that the elements of hydrocarbon in Chepaizi area are various. Because it can’t generate hydrocarbon, the oil and gas conducting and accumulation are the most important factors in this area, and the validity of the lithology traps in monoclinal is another important factor. Research indicates that the master control factor of the subtle reservoir in Chepaizi area is fault and sand. The sand of beach and sandbar provide the space for the hydrocarbon accumulation, the fault provides the migration channel for the hydrocarbon. Most faults have a characteristics of up seal and the down open, which not only can conduct hydrocarbon, but also can prevent hydrocarbon overtopping, therefore the effect trap is results of good match of fault and sand.
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The problem of oil and gas migration and accumulation have been investigated for many years in petroleum geology field. However, it is still the most weak link. It is a challenge task to research the question about the dynamics of hydrocarbon migration and accumulation. The research area of this article,Chengbei step-fault zone is the important exploration area of Dagang oil field.The oil distribution is complicated in this area because of abundant faults and rock-reservoir-cap assemblage.In recent years, oil shows is often discovered, but no large-scale pool is found. The most important problem influencing exolore decision is lake of kowning about accumulation process of oil and resources potential. According to the geology characteristic and exolore difficult, the analysis principles of dynamics is used in this paper. The course from source to reservoir is considered as main research line, and relation of valid source rcok, migration dynamic and heterogeneous distribution of carrier is discussed especially in key time. By use of numerial model the couling of migration and passage is realized and dynamic process of oil migration is analysed quantitatively. On the basis of other research about structure and sendiment, basin model is built and parameters are choiced. The author has reconstructed characteristic and distribution of fluid dynamical in main pool-forming time by numerical model. The systems of oil migration and acuumulaiton are divided according to distribution of fluid potential. Furthermore, the scope of valid sourece rock and scale of discharging hydrocarbon is studied in geology history by the method of producting hydrocarbon poential. In carrier research, it is outstanding to analyse the function that fault controls the oil-gas migration and accumulation. According to the mechanism of fault sealing, the paper author puts forward a new quantitative method evaluating fault opening and sealing properties-fault connective probability by using the oil and gas shows in footwall and hangwall reservoir as the index of identifying fault sealing or non-sealing. In this method, many influencing factors are considered synthetically. Then the faut sealing propery of different position in third deimention of faults controlling hydrocarbon acummulation are quantitative evaluated, and it laies a foundation for building compex carrier systems. Ten models of carrier and dynamical are establishe by analysis of matching relation of all kinds of carriers in main pool-forming period. The forming process and distribution of main pathway has been studied quantitatively by Buoyancy-Percolation mode, which can conbine valid source rock, migration dynamical and carrier. On the basis of oil-gas migration and accumulation model, the author computes the loss of hydrocarbon in secondary migration, ahead of cap formation, and the quantity of valueless accumulation according to the stage of migration and accumulation and the losing mechamism. At the same time, resource potential is evaluated in every migration and accumulation system. It shows that the quanlity of middle systems arrive to 5.67×108t, which has a huge explore potential prospect. Finally, according to the result of quantitve analysis above mentioned, the favorable explore aims are forcasted by the way of overlapping migration pathway and valid trap and considering factors of pool-forming. The drilling of actual wells proved that the study result is credible. It would offer strong support to optimize explore project in Chengbei step-fault zone.
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The Ordos Basin is a large-scale craton superimposed basin locating on the west of the North China platform, which was the hotspot of interior basin exploration and development. Qiaozhen oil field located in the Ganquan region of south-central of Ordos Basin. The paper is based on the existing research data, combined with the new theory and progress of the sedimentology, sequence stratigraphy, reservoir sedimentology, petroleum geology, etc, and analyzes systematically the sedimentary and reservoir characteristics in the chang2 and chang1 oil-bearing strata group of Yanchang formation On the basis of stratigraphic classification and comparison study, the strata chang2 and chang1 were divided into five intervals. Appling the method of cartography with single factor and dominance aspect, we have drawn contour line map of sand thickness, contour line map of ratio between sand thickness and stratum thickness. We discussed distribution characteristics of reservoir sand body and evolution of sedimentary facies and microfacies. And combining the field type section , lithologic characteristics, sedimentary structures, the sedimentary facies of single oil well and particle size analysis and according to the features of different sequence, the study area was divided into one sedimentary facies、three parfacies and ten microfacies. The author chew over the characteristics of every facies, parfacies and microfacies and spatial and temporal distribution. Comprehensive research on petrologic characteristics of reservoir , diagenesis types, pore types, distribution of sand bodies, physical properties, oiliness, reservoir heterogeneities, characteristics of interlayer, eventually research on synthetic classifying evaluation of reservoir.The reservoir is classified four types: Ⅰ、Ⅱ、Ⅲ、Ⅳ and pore type, fracture-porosity type. Take reservoir's average thickness, porosity, permeability, oil saturation and shale content as parameters, by using clustering analysis and discriminant analysis, the reservoir is classified three groups. Based on the evaluation, synthetizing the reservoir quality, the sealing ability of cap rock, trap types, reservoir-forming model ,in order to analyze the disciplinarian of accumulation oil&gas. Ultimately, many favorable zones were examined for chang23,chang223,chang222,chang221,chang212,chang12,chang11 intervals. There are twenty two favorable zones in the research area. Meanwhile deploy the next disposition scheme.
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Complex fault block reservoir is very important type in chinese oilfield.The reservoir have for many years and it has been the important issue of oil-gas exploration and development in china that how to increase reserves and production. Therefore,taking the Pucheng-oil field as an example, the article intensive study the geologic feature of oil pool, correctly recognize the rule of oil-gas accumulation and based on the fine representation of the characteristic of reservoir, research the remaining oil in high developed area,which is important for progressive exploratioon and development and taping the remaining oil. The article multipurpose uses the data of geology,drilling,wellloging, analysis and assay and so on, under the guidance multi-disciplinary theory, intensify the comprehension of the geologic feature of oil pool in high developed oil field. Based on the high-resolution sequence stratigraphic framework ,the article points out that Es_2 upper 2+3 reservoir in the south area of Pucheng oilfield is in the depositional environment of Terminal Fan, which has constant supply of sedimentary source ,and build the sedimentation model. Studies have shown that the major reservoir in work area is the distributary channel sandbody in central Sub-facies of Terminal Fan,secondary is both lateral accretion sandbodies of channel sands,nearby and far away from the channel overflowing sandbodies in front of the fan. The article analyze the effect of depth of burial of the reservoir, sandstone structure, strata pressure and bioturbate structure on control action of physical property for reservoir and indicate that deposition and diagenesis are major controlling factors.By building the model of reservoir heterogeneity, the article show the magnitude of reservoir heterogeneity ,the genesis and identification mark of Interlayer and build the the model of interlayer. in this area the vertical distribution of interlayer is complicated,but the intraed interlayer distribute steady. Thick interlayer is steady and the thin is relatively spreaded. By building models of fault sealing,stress field and fluid potential field of the south of the pucheng oil field, the regular pattern of fluid migration and accumulation runs out. By researching the elements of oil accumulation, migration pathway and accumulation period with quantification and semiquantitative methods,we bulit the oil-gas reservoir-forming mode of the south of the pucheng oil field,which will be the foundation of the rolling exploratory development in the future. We promulgated the master control element and the rule of distribution of the remaining oil with the upside 2+3 oil layer in shaer in the south of the pucheng oil field as an example.In this area, the formation and the distribution of the remaining oil is controled by the sedimentary microfacies, reservoir heterogeneity,fault and reservoir engineering. The remaining oil is concentrated in the vicinity of the gas cap, updip of the fault block and the area with incomplete flooding. Remaining oil saturation in some area can get 50%, so there are many places in which we can enhance oil recovery.