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1.
多点地质统计学建模是近年来储层建模技术的研究热点,其实用性受到训练图像的限制。训练图像的质量决定了多点地质统计学建模的精度和可靠程度,是多点地质统计学建模成功的关键因素。文章阐述了训练图像的特征和意义,从方法的定义、使用情况、实例等方面系统介绍了训练图像建立的方法,包括手工绘制、基于目标模拟、三维地震信息提取或转化、基于原型模型、基于过程模拟和二维图像方法,综合对比了不同训练图像建立方法的数据来源、优势与不足,探讨了多点地质统计学建模依赖训练图像存在的问题。结合文献调研和多点地质统计学建模实践,指出了训练图像及其建立方法的发展方向,为多点地质统计学建模研究者和使用者提供借鉴,为完善多点地质统计学建模方法提供思考。 相似文献
2.
多点地质统计学建模的发展趋势 总被引:2,自引:0,他引:2
从算法研究、训练图像处理和实际应用三个方面详细解剖了国内外多点地质统计学的发展历程,在此基础上,分析了多点地质统计学主流的几种算法的核心原理、适用范围及优缺点,以此来对储层建模的发展趋势作出展望。目前,多点地质统计学虽是随机建模的一种前沿研究热点,但由于其尚未成熟,仍需对建模算法进行研究。为此,在前人研究的基础上,重点分析了多点地质统计学的发展趋势:合理处理训练图像;合理利用软信息;选择合适的相似性方法;选择合适的标准化方法;合理利用平稳性;算法间的耦合;选择合适的过滤器;拓展缝洞型碳酸盐岩模拟。最后,提出多点地质统计学在储层建模方面,应从增加储层的模拟区域、提高模拟精度、扩大储层相的模拟范围和提高计算机模拟效率等方面进行改进。 相似文献
3.
多点地质统计学研究进展与展望 总被引:5,自引:1,他引:4
在简要回顾多点地质统计学起源后,介绍了多点地质统计学的3种方法,并总结了多点地质统计
学的研究进展。在应用领域,已经从河流相建模发展到扇环境建模,从储集层结构建模发展到储集层物性分布
模拟,从宏观地质体预测发展到微观孔喉分布建模,从地质研究发展到地质统计反演。在整合信息建模方面,
给出了3种综合地震属性的方法;在算法方面,提出了PRTT实时处理方法,完善了多点地质统计学建模,并开
发了新的多点统计生长算法(Growthsim)。对多点地质统计学未来发展进行了展望,指出在训练图像、数据综合
以及建模方法耦合方面还需要进一步深入研究。 相似文献
4.
多点地质统计学在河流相储层建模中的应用 总被引:6,自引:1,他引:5
多点地质统计学综合了基于象元方法以及基于目标方法两者的优点,对于河流相等具有复杂地质形态的储层精确建模具有较强的优势.在对传统建模方法综合分析的基础上,介绍了多点地质统计学的基本理论及SNESIM算法,并应用该技术对大牛地气田某开发井区的辫状分流河道相进行了实际建模.研究结果表明,在河流相储层建模中,该方法比传统的建模方法更具优越性.最后,进一步综合讨论了多点地质统计学目前面临的主要问题(包括训练图像、目标体连续性、数据样板选择、综合地震信息等方面)的改进方法. 相似文献
5.
缝洞型碳酸盐岩储层空间分布复杂、非均质性强,建立准确可靠的三维地质模型,是该类油藏高效开发的基础和前提。总结了缝洞型碳酸盐岩储层建模技术方法的发展历程,可分为3个阶段:第1阶段提出了“分区分带”和“岩溶相控”等储集体建模方法,以基于变差函数的两点统计学为主要模拟算法;第2阶段提出了溶洞内部结构建模方法,划分了溶洞类型,总结出不同类型溶洞组合方式,通过成因约束构建不同的岩溶相控模式,建模算法以基于目标与多点地质统计学为主;第3阶段进一步细化储集体成因,针对地下暗河等特定成因的溶洞储集体,通过野外露头与溶洞数据构建训练图像,将先验地质成因模式和后验地震响应相整合,构建综合约束概率体,建立的模型更加精细,能表征出暗河储集体的内部结构要素。对未来缝洞型碳酸盐岩储层地质建模的技术发展进行展望,指出断控岩溶储层建模方法亟需进一步研究,基于深度学习的人工智能地质建模方法是未来的主攻方向。 相似文献
6.
从精细油藏描述中地质建模的意义和现状入手,介绍了多点地质统计学建模研究现状及其与传统地质建模方法的差
异。以辽河盆地西部凹陷某蒸汽驱试验区为例,分析了多点地质统计学建模中建模的基础、训练图像的建立、多点地质统计学
建模与传统地质建模相比所具有的优势等内容。指出多点地质统计学在井间预测方面具有明显优于其他传统建模方法的特
点。在文献调研基础上,结合自身工作实践,探讨了多点地质统计学建模目前存在的问题和未来的发展方向。指出未来多点
地质统计学建模的发展方向主要包括多信息综合地质成因分析基础上的训练图像获取、多点地质统计学算法进行改进和完善
和多点地质统计学建模方法应用领域的扩大等。 相似文献
7.
《地质科技情报》2020,(4)
开展三维地质建模的目标,不应当只是实现地质体框架的可视化表达,而应当同时实现地质大数据的聚合、管理、挖掘、分析和共享。然而,传统的方法和技术难以实现顾及地质语义的结构-属性一体化三维地质建模与耦合表达。多点地质统计学方法虽然便于多源数据、地质先验知识、结构-属性的融合建模,却仍然受到数据结构表达能力不足、三维训练图像难以获取和非平稳现象的限制。面向地质大数据集成与管理的要求,详细讨论了三维地质建模中的空间数据模型、基于多点地质统计学的结构-属性一体化集成建模方法、以及基于三维地质模型的地质大数据集成与管理的框架与模式。发展新型的面向地质结构-属性耦合表达的统一空间数据模型,以及知识驱动与数据驱动协同的三维地质结构-属性一体化集成建模技术体系,着力构建出地质大数据的聚合、集成、管理、挖掘和分析的可视化环境与操作平台,是未来三维地质建模领域的研究热点和前沿方向。 相似文献
8.
9.
冲积扇储层具有典型的非平稳分布特征,传统的基于平稳假设的地质统计建模方法无法准确模拟其沉积微相。在充 分分析其沉积微相分布特征的基础上,以克拉玛依油田三叠系克下组冲积扇储层为例,综合现代沉积、密井网、露头等信 息,应用基于地质矢量信息的多点地质统计学方法建立了精细、合理的储层沉积微相三维模型。首先,综合现代沉积特征 与地下储层沉积微相解剖成果,应用“模式指导、规模约束”的方法,建立符合研究区沉积模式和定量规模的训练图像和 基于冲积扇沉积体系的矢量坐标系统,表征了训练图像的地质矢量信息,提出基于预模拟实现的模拟域地质矢量信息表征 方法,建立了待模拟地质体的三维矢量信息模型;最后,采用基于矢量信息的多点地质统计方法建立了冲积扇储层沉积微 相模型,并采用多种标准对模拟实现进行可靠性分析。模拟结果表明冲积扇相带分布符合地质认识,沉积微相的形态、展 布特征、组合样式、规模与训练图像、地下沉积微相解剖认识相符。 相似文献
10.
多点地质统计学的理论、方法、应用及发展现状 总被引:2,自引:0,他引:2
《地质科技情报》2019,(6)
基于变差函数建模方法的两点地质统计学在表达和揭示复杂空间结构特征以及重建复杂地质体几何形态等方面存在不足,多点地质统计学,也称之为多点模拟(multiple-points simulations,简称MPS)应用训练图像代替变差函数来表征多点之间的空间关系及分布模式,因而可弥补传统两点地质统计方法的固有缺陷。自MPS理论与方法提出以来,它经历了近二十年的发展与完善,至今已形成了基于迭代和非迭代算法的2类MPS方法,前者主要有Simpat、Dispat、DS-MPS等算法,在研究初期应用较为广泛,但存在收敛条件难以满足、计算速度过于缓慢而难以应用于实际的不足。后者则克服了这些不足,发展较快,逐步取代了前者,是目前主要的MPS方法,具体包括Enisem、Snesim、Growthsim等算法。MPS发展初期主要应用于储层建模,之后逐渐被广泛地应用于解决裂缝模拟、数字岩心重构、地球物理约束反演等其他相关地学难题以及土壤学、计量经济学等诸多学科领域。近年来MPS方法是地质统计学中的热门与前沿研究方向之一,针对算法优化及其应用拓展的研究较多,但是目前仍然存在一些问题,如难以获取适当的训练图像、模拟地质体的连续性受限、与其他建模方法耦合时数据标准不一致等。 相似文献
11.
多点地质统计学是一种建立地质模型的统计学方法,该方法比传统的两点地质统计学更适合河流相沉积体系。本文综合地震、测井、录井及生产资料,绘制了长庆油田苏里格气田苏48区块盒8下段辫状河训练图像,并在此基础上利用多点地质统计学方法,加入三维地震资料作为约束,以水平井整体开发为研究对象,建立了该区的地质模型,优化了水平井整体部署,指导水平井导向。利用多口水平井实钻效果验证了地质模型的精度,以苏19-62井为例得到:录井显示气层钻遇率为78.3%,测井显示气层钻遇率为69%。这与地震反演剖面预测相似,且与实钻效果有很好的对应性。 相似文献
12.
Conditional Simulation of Complex Geological Structures Using Multiple-Point Statistics 总被引:68,自引:0,他引:68
Sebastien Strebelle 《Mathematical Geology》2002,34(1):1-21
In many earth sciences applications, the geological objects or structures to be reproduced are curvilinear, e.g., sand channels in a clastic reservoir. Their modeling requires multiple-point statistics involving jointly three or more points at a time, much beyond the traditional two-point variogram statistics. Actual data from the field being modeled, particularly if it is subsurface, are rarely enough to allow inference of such multiple-point statistics. The approach proposed in this paper consists of borrowing the required multiple-point statistics from training images depicting the expected patterns of geological heterogeneities. Several training images can be used, reflecting different scales of variability and styles of heterogeneities. The multiple-point statistics inferred from these training image(s) are exported to the geostatistical numerical model where they are anchored to the actual data, both hard and soft, in a sequential simulation mode. The algorithm and code developed are tested for the simulation of a fluvial hydrocarbon reservoir with meandering channels. The methodology proposed appears to be simple (multiple-point statistics are scanned directly from training images), general (any type of random geometry can be considered), and fast enough to handle large 3D simulation grids. 相似文献
13.
L. Y. Hu Y. Liu C. Scheepens A. W. Shultz R. D. Thompson 《Mathematical Geosciences》2014,46(2):227-240
The multiple-point simulation (MPS) method has been increasingly used to describe the complex geologic features of petroleum reservoirs. The MPS method is based on multiple-point statistics from training images that represent geologic patterns of the reservoir heterogeneity. The traditional MPS algorithm, however, requires the training images to be stationary in space, although the spatial distribution of geologic patterns/features is usually nonstationary. Building geologically realistic but statistically stationary training images is somehow contradictory for reservoir modelers. In recent research on MPS, the concept of a training image has been widely extended. The MPS approach is no longer restricted by the size or the stationarity of training images; a training image can be a small geometrical element or a full-field reservoir model. In this paper, the different types of training images and their corresponding MPS algorithms are first reviewed. Then focus is placed on a case where a reservoir model exists, but needs to be conditioned to well data. The existing model can be built by process-based, object-based, or any other type of reservoir modeling approach. In general, the geologic patterns in a reservoir model are constrained by depositional environment, seismic data, or other trend maps. Thus, they are nonstationary, in the sense that they are location dependent. A new MPS algorithm is proposed that can use any existing model as training image and condition it to well data. In particular, this algorithm is a practical solution for conditioning geologic-process-based reservoir models to well data. 相似文献
14.
本文系统地介绍了多点地质统计学的基本原理及方法,并以我国渤海湾盆地某区块新近系明化镇组河流相储层为例,进行了多点统计学随机建模的实例分析。多点地质统计学为储层随机建模的国际前沿研究方向,该方法综合了基于象元的方法易忠实条件数据以及基于目标的方法易再现目标几何形态的优点,同时克服了传统基于变差函数的二点统计学不能表达复杂空间结构和再现目标几何形态的不足。通过理论与实例研究,分析了目前多点统计学尚存在的问题(包括训练图像平稳性问题、目标连续性问题以及综合软信息的问题等)及未来发展的方向。 相似文献
15.
Application of multiple-point geostatistics on modelling groundwater flow and transport in a cross-bedded aquifer (Belgium) 总被引:3,自引:1,他引:2
Sedimentological processes often result in complex three-dimensional subsurface heterogeneity of hydrogeological parameter values. Variogram-based stochastic approaches are often not able to describe heterogeneity in such complex geological environments. This work shows how multiple-point geostatistics can be applied in a realistic hydrogeological application to determine the impact of complex geological heterogeneity on groundwater flow and transport. The approach is applied to a real aquifer in Belgium that exhibits a complex sedimentary heterogeneity and anisotropy. A training image is constructed based on geological and hydrogeological field data. Multiple-point statistics are borrowed from this training image to simulate hydrofacies occurrence, while intrafacies permeability variability is simulated using conventional variogram-based geostatistical methods. The simulated hydraulic conductivity realizations are used as input to a groundwater flow and transport model to investigate the effect of small-scale sedimentary heterogeneity on contaminant plume migration. Results show that small-scale sedimentary heterogeneity has a significant effect on contaminant transport in the studied aquifer. The uncertainty on the spatial facies distribution and intrafacies hydraulic conductivity distribution results in a significant uncertainty on the calculated concentration distribution. Comparison with standard variogram-based techniques shows that multiple-point geostatistics allow better reproduction of irregularly shaped low-permeability clay drapes that influence solute transport. 相似文献
16.
The reproduction of the non-stationary distribution and detailed characteristics of geological bodies is the main difficulty of reservoir modeling. Recently developed multiple-point geostatistics can represent a stationary geological body more effectively than traditional methods. When restricted to a stationary hypothesis, multiple-point geostatistical methods cannot simulate a non-stationary geological body effectively, especially when using non-stationary training images (TIs). According to geologic principles, the non-stationary distribution of geological bodies is controlled by a sedimentary model. Therefore, in this paper, we propose auxiliary variables based on the sedimentary model, namely geological vector information (GVI). GVI can characterize the non-stationary distribution of TIs and simulation domains before sequential simulation, and the precision of data event statistics will be enhanced by the sequential simulation’s data event search area limitations under the guidance of GVI. Consequently, the reproduction of non-stationary geological bodies will be improved. The key features of this method are as follows: (1) obtain TIs and geological vector information for simulated areas restricted by sedimentary models; (2) truncate TIs into a number of sub-TIs using a set of cut-off values such that each sub-TI is stationary and the adjacent sub-TIs have a certain similarity; (3) truncate the simulation domain into a number of sub-regions with the same cut-off values used in TI truncation, so that each sub-region corresponds to a number of sub-TIs; (4) use an improved method to scan the TI or TIs and construct a single search tree to restore replicates of data events located in different sub-TIs; and (5) use an improved conditional probability distribution function to perform sequential simulation. A FORTRAN program is implemented based on the SNESIM. 相似文献
17.
利用三维地质模拟技术重构地质现象的三维空间分布,是实现自然资源管理和风险评估的重要基础和前提。多点统计学方法通过探寻多点间的空间结构关系,结合随机模拟方法生成具有差异性的模拟结果,较好地再现了复杂的地质现象。然而,如何构建合适、有效的训练图像一直是基于多点统计学三维地质模拟的核心问题。本文提出了一种改进的多点统计学算法。本方法结合了序贯模拟和迭代的方法,将二维剖面扩展为三维训练图像,再结合EM-Like算法,实现了三维地质结构的优化模拟。建模实例结果表明,本方法能确保训练图像对内部模拟网格的约束,准确模拟研究区的地层层序,并很好地再现二维地质剖面所反映的地层结构关系。 相似文献
18.
The advent of multiple-point geostatistics (MPS) gave rise to the integration of complex subsurface geological structures
and features into the model by the concept of training images. Initial algorithms generate geologically realistic realizations
by using these training images to obtain conditional probabilities needed in a stochastic simulation framework. More recent
pattern-based geostatistical algorithms attempt to improve the accuracy of the training image pattern reproduction. In these
approaches, the training image is used to construct a pattern database. Consequently, sequential simulation will be carried
out by selecting a pattern from the database and pasting it onto the simulation grid. One of the shortcomings of the present
algorithms is the lack of a unifying framework for classifying and modeling the patterns from the training image. In this
paper, an entirely different approach will be taken toward geostatistical modeling. A novel, principled and unified technique
for pattern analysis and generation that ensures computational efficiency and enables a straightforward incorporation of domain
knowledge will be presented. 相似文献