本毕业设计的主要目的是通过开发测井信息计算机处理软件来评价储集层的基本特性。
The main aim of this design is evaluate the fundamental characteristics of reservoir, through developing software of computer processing for well logging.
最后通过测井信息的处理,给出相应的储集层评价成果数据和成果图。
And finally, after the process of well-logging information, some outcome data and outcome figures for evaluation of reservoir will be show.
本设计使用Windows应用程序开发软件VisualBasic6.0来开发测井信息处理软件,从而最终形成储集层评价系统。
This design uses Windows application program development software-Visual Basic6.0. And ultimately form an evaluating system for reservoir.
本文利用测井资料,依据测井地质评价油气储层的分析准则,提出灰色理论精细评价油气储层的处理方法和解释系统。
On the basis of log geology evaluation and norm, combining with the log data, the method to evaluate oil gas reservoirs exactly is presented by using grey system theory.
通过多元线性回归分析,建立了用多种测井信息划分、评价储层的数学模型。
By using multivariate linear regression analysis, the mathematical model to classify and evaluate reservoir with well logging data was established.
成像测井对于评价碳酸盐岩储层地质特征有很好的效果,但成本较高。
Imaging logs have good effect in evaluating the geological characteristics of subsurface carbonate reservoirs, but their cost is high.
双侧向测井被认为是目前常规测井中进行储集层裂缝识别和评价的最有效的测井方法之一。
Among the conventional well loggings, the dual laterolog is considered as one of the most effective methods of the identification and evaluation of fractures.
通过对火山岩储层的系统研究,初步建立火山岩的评价方法,建立火山岩的测井、地震等解释模型。
Through the study of igneous rock reservoir, this paper founded the methods of evaluation and interpretation model specially for igneous reservoir.
以气藏的地质特征为基础,结合测井、试井、岩心资料对储层进行分析和评价。
Basing on the geological characteristic of gas reservoir and combining with logging; well testing and core data to analyze and comment layer reservoir.
随着吐哈盆地勘探的进一步深入,低孔、低渗储层是测井解释和储层评价的一个难题。
With the further exploration of Tuha basin, one difficult problem is logging interpretation and reservoir evaluation for low porosity and low permeability reservoir.
用地震资料和少量测井资料预测储层参数的横向变化,是储层评价和油气勘探开发的重要研究课题。
It is an important problem in reservoir estimation and oil gas exploration and development to predict lateral variation of reservoir parameters from seismic data and well log.
油气储集层是测井解释与评价中的主要研究对象。
Oil and gas reservoir is the major research target in log interpretation and evaluation.
针对火山岩储层的地质和地球物理特征,提出了用常规测井方法评价火山岩储层的理论和方法。
According to geological and geophysical characteristics of volcanic reservoir, a new evaluation method for the special reservoir using well logging data is put forward.
通过成像测井资料并结合地质资料和常规测井资料分析,对16井区火山岩裂缝性储层有效性和渗透性进行了评价研究。
Based on the EMI data, geologic information and conventional logging data, the validity and permeability of the fractured reservoirs in the volcanic rocks of the area of Gu-16 well are evaluated.
库车地区砂岩储层以高压低孔隙度低渗透率为显著特征,且储层结构复杂,给储层测井评价带来很大困难。
In Kuche area, the sandstone reservoir is characterized by low porosity, low permeability and high pressure, and pore texture is complex, so, it is very difficult for reservoir log evaluation.
结果表明,用测井数据可以进行油、水相对渗透率的计算,并且完全满足评价储集层的产液情况。
It is showed that well logging data can be used to calculate oil and water relative permeability that can satisfy produced fluid types of evaluating reservoir.
表明开展低孔隙度低渗透率储层的岩石物理实验,对于建立测井解释模型,进而评价该类储层,具有重要的研究价值。
It indicates that core experiments of petrophysical parameters for low porosity and permeability reservoir are important in establishing logging interpretation models and formation evaluation.
针对川西储层的特点和预测难点建立形成了一套适合于川西致密碎屑岩储层的测井评价技术方法系列。
According to features of this area and reservoir predicting difficult points, established is a set of logging evaluation methods suitable for the compact clastic reservoir in West Sichuan.
本文在常规测井定性、定量识别的基础上,运用MDT测井技术对储层的有效性进行评价。
In the paper, MDT logging technology is used to evaluate the reservoir validity on the basis of qualitative and quantitative identification with conventional logs.
研究表明,利用测井资料评价岩石物理相是储集层评价的重要手段之一。
Study shows that using well log data for appraisal of petrophysical facies is one of an important tool to evaluate reservoir quality.
NLT A中子寿命测井仪是用于储集层评价、油层动态监测等生产测井领域的新型测井仪器。
NLT-A Neutron Lifetime logging tool is a new logging tool which is used to evaluate the reservoir and monitor the reservoir behavior.
实际上,在任何一个地区无论纵向上还是横向上,岩石矿物成分总要发生变化,因此确定岩石矿物成分是测井评价储集层过程中的一项重要工作。
In fact, in any area, the rock mineralogical composition always varies vertically and lateral - ly, hence, the identification of it is a important part of work in reservoir logging evaluation.
断块油藏测井解释模型的建立、资料的处理及储层评价应始终考虑地质因素的影响。
The influence of geological factors should always be taken into account in establishing well log interpretation model, log data processing and reservoir evaluation.
本文利用常规及成像测井资料,对碳酸盐岩缝洞型储层的识别与评价方法进行研究。
Methods of well logging evaluation and identification for carbonate reservoirs with fracture and vug are researched in this paper by using conventional logs and imaging logs.
柳东地区低矿化度地层水储层的含油性评价是测井解释的一大难题。
Oil bearing evaluation of low salinity water shaly sand reservoirs in the Liudong area is a difficult problem in log interpretation.
东营凹陷北部陡坡带砂砾岩体广泛发育,该类地层的岩性识别、储层划分、地质参数计算等一直是测井评价所面临的难题。
Such problems as lithological discrimination, reservoir zonation and geological parameter calculation have been faced with a difficult problem on log evaluation of the glutinite formation.
最后,在岩心分析资料和测井解释结果的基础上,结合有关储层成因机制的研究成果,对研究区内各种储层类型分别进行储层发育分布规律研究和质量评价研究。
Finally, combined core analysis data with log interpretation data, the rules for reservoir develop distribution and quality is worked over on the basic of fruit of reservoir origin mechanism.
目前,对于岩性单一、中高孔隙度的常规储层形成了较为成熟的测井解释和评价方法。
Nowdays, for the unitary lithology and moderate, high porosity conventional reservoir, the log interpretation and evaluation method is built.
利用该评价标准进行油气层评价,并与气测、综合、测井解释以及试采结果对比进行实际应用效果分析,指出了应用酸解烃气评价砂岩油气储层的局限性。
Also, by comparing with mud gas logging, comprehensive logging interpretation and production, actual applied effectiveness is analyzed. Last, the limitation of this evaluation method is put forward.
利用该评价标准进行油气层评价,并与气测、综合、测井解释以及试采结果对比进行实际应用效果分析,指出了应用酸解烃气评价砂岩油气储层的局限性。
Also, by comparing with mud gas logging, comprehensive logging interpretation and production, actual applied effectiveness is analyzed. Last, the limitation of this evaluation method is put forward.
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