裂縫識別測井 的英文怎麼說
中文拼音 [lièféngzhìbiécèjǐng]
裂縫識別測井
英文
fracture identification log- 裂 : 裂動詞[方言] (東西的兩部分向兩旁分開) open
- 縫 : 縫名詞1. (接合處) seam 2. (縫隙) crack; crevice; fissure; slit
- 識 : 識Ⅰ動詞[書面語] (記) remember; commit to memory Ⅱ名詞1. [書面語] (記號) mark; sign 2. (姓氏) a surname
- 別 : 別動詞[方言] (改變) change (sb. 's opinion)
- 測 : 動詞1. (測量) survey; fathom; measure 2. (測度; 推測) conjecture; infer
- 井 : Ⅰ名詞1 (從地面往下鑿成的能取水的深洞) well 2 (形狀像井的東西) sth in the shape of a well 3 (...
- 裂縫 : 1. (裂開的縫兒) rent; rip; hiatus; tear; rift; crevice; crack; fissure 2. [地質學] fracture; rupture
- 識別 : 1 (辯別; 辯認) discriminate; distinguish; discern; tell the difference; spot 2 [計算機] identif...
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For this purpos, from the point of the log geology, aimed at the actuality of the current fractured reservoir log geology interpretation and evaluation, based on synthetical analysis of the current domestic and foreign fruit of fractal dimension investigation of reservoir fracture, using the method and technique of fractal dimension, through the further discussion of the fractal dimension characteristics of m index and n index in the log interpretation archie model in a sample way and through the theoretic reasoning to the fractal dimension dfa and m index of fractured reservoir interval ' s log curve, according to the geophysical signification of the fractal dimension dfa of fractured reservoir interval ' s log curve shape : the more complicated the change of the curve shape is, the larger the its dfa value is, then the more complicated space structure of fracture and pore, then the higher value of m index of space structure of fracture and pore, and so on, the text propounds an improved method, based on box dimension, of covering log curve with scale grid, and by programming computes the dfa and its m index value of fractured reservoir interval ' s log curve, for instance, ac and rt curve, ect, then further puts this technique into application investigation, and makes analysis of application effects in the reservoirs located in l area of qx oil field from three aspects : 1. the dfa and its m index value of fractured reservoir interval ' s log curve, for instance, ac and rt curve, ect, which are derived from computing, is used to identify reservoir type by crossplotting m index with the product df _ acrt of fractal dimension of acoustical wave log curve and restivity log curve and by experiential discriminance plate of reservoir type in l area of qx oil field
因此,對該區裂縫性儲集層的類型識別、孔滲特徵的測井地質解釋以及儲層裂縫的發育和分佈規律進行深入的研究便成為本文研究的出發點。為此,本文從測井地質的角度,針對當前裂縫性儲層測井地質解釋與評價的現狀,在綜合分析當前國內外儲層裂縫的分形分維研究成果的基礎上,利用分形分維方法和技術,通過對archie測井解釋模型中的m指數、 n指數的分形分維特性的深入淺出的論述以及裂縫性儲層段測井曲線分維d _ ( fa )與m指數的理論推導,根據裂縫性儲層測井曲線形態分維值的地球物理意義? ?曲線變化越復雜,則其分維值d _ ( fa )越大、裂縫孔隙空間結構越復雜、裂縫孔隙空間結構指數m值越高等特徵,提出了改進的基於盒維數的測井曲線網格覆蓋法,編程計算了裂縫性儲層段常規測井曲線(如聲波和電阻率曲線)上分形分維值及其m指數值,進而從以下三個方面對qx油田l區塊的裂縫油藏進行應用研究,效果十分理想: 1將計算得到的可變的m指數與聲波和電阻率分維之積df _ acrt進行交繪,採用儲層分維值分類技術統計分析這些參數變化的規律,並結合qx油田l區塊儲層類型經驗判別圖版,從而實現qx油田l區塊下白堊統的裂縫性儲層的類型識別。2, the applications of exceptional well data : the response characteristic of the imaging logging data and acoustic wave train logging in lian - 150 well are analyzed to identify the interval that fracture growing and the fracture occurrence in these intervals
2 、特殊測井資料的應用:深入分析了成象測井資料,聲波全波列測井資料在聯150井上的響應特徵,分析出裂縫較發育和裂縫發育層段,並對有裂縫發育的層段進行了裂縫產狀的識別。Since there is few core data and logging data in this area, the lian - 150 well is selected as the standard well that has imaging logging data which is combined with few core data to establish the fracture identified mode with bp neural network and gray system theory. it makes the satisfied effect of the muti - well interpretation and solves the problem of the absence of the exceptional well data and the difficulty of fracture identification
本論文在該地區巖心資料少,測井資料不全的情況下,選取有成象測井資料的聯150井作為標準井,運用成象測井資料結合少量的巖心資料建立起該地區bp神經網路和灰色系統理論裂縫的識別與評價模型,用於該地區的多井解釋取得了滿意的效果,解決了該地區特殊測井資料缺乏、裂縫測井識別較難的現狀。Take the glutenite reservoir in south slope of chenjiazhuang rize as a case, introduced are the applications of natural gamma ray spectrometry logging data, such as zonation of reservoir, unpermeable layer and fracture discrimination, analysis of formation sensitivity as well as recognition of oil layer, etc
以陳家莊凸起南斜坡帶砂礫巖油藏為例,介紹了自然伽馬能譜測井在儲層劃分、隔層和裂縫的識別、儲層敏感性分析以及油層識別等方面的應用。Based on the field geologic survey, core observation and well logging fractural identification, it is shown that in the tight reservoir in wubaiti gas pool of eastern sichuan developed structural fractures controlled by local structure
摘要根據野外地面裂縫調查、巖心裂縫觀察描述及測井裂縫識別,指出川東五百梯氣田緻密儲集層主要是受局部構造控制的構造縫。The integrated identification of fractures with the bpo interpretation of logs and the 3d seismic fracture interpretation technology were used to predict the development and distribution rules of fractures in ve rtical and plane directions of mesozoic reservoirs of baigezhuang region. the plane distribution of the stress fields of different major oil reservoirs determined with finite element numerical simulation provides a theoretical foundation for the research of the plane distribution of the fracture. thus, the quantitative prediction of the tectonic fractures is possible
本文應用測井參數的bp神經網路裂縫綜合識別方法、三維地震裂縫檢測技術,預測了柏各莊地區中生界儲層平面或縱向上裂縫的發育分佈及規律;並用有限元法數值模擬技術展示出不同主力油層的平面古應力狀態,為研究裂縫的平面分佈規律提供了理論依據;在此基礎上,依據巖石破裂準則進行了構造裂縫定量預測。5 centered about the principal factors which control the forming of the gas pools, analysed of trap " s effectivity, combined with the distribution of advantaged reservoirs and fractures, the author predicted effective reservoirs and the rich zones of gas, well site and the area of the future exploration are pointed out
5 、圍繞氣藏成藏主控因素,根據圈閉有效性分析、有利儲層分佈預測、裂縫發育帶預測結果,結合地震、測井油氣綜合識別成果,預測有效儲層及天然氣富集區,提出的勘探部署建議井位和下一步勘探方向。The fracture belts in drilling cross section are identified with the porosity logging and the dual - laterolog method
主要利用測井系列中的孔隙度測井及雙側向測井在鉆井剖面上識別裂縫發育段。For the first time, the special integrated applications of multi - disciplines and new technologies are used to study the structure fracture of jurassic sandstone of baigezhuang region in the dissertation. on the basis of abundant fine descriptions of core, the imaging and dip data, the identification informations of fracture with conventional logs, the parameters of seismic attribute, the detected data of fracture with correlative analyses of 3d and the prediction data of the finite element numerical simulation of fracture are inter - testified to qualitatively and quantitatively determine the structure fracture of this area
本文首次在柏各莊地區採用具有特色的多學科新技術綜合應用分析的方法,在大量巖芯裂縫精細描述基礎上,結合成像測井和地層傾角測井新技術,以及利用常規測井技術提供的裂縫識別資料,地震屬性參數、三維數據相干分析檢測裂縫的資料和有限元數值模擬裂縫預測的資料,相互佐證,對柏各莊地區侏羅系砂巖構造裂縫進行了定性、定量研究。4 on the basis of identifying favorable logging faces to recognize effective reservoirs and studying the reservoirs " charateristics in logging and seismic data ; the model of the reservoirs " seismic response is established. according to the research, the pointed geophysics methods to detect gas in tight reservoir with fracture are made out
4 、運用測井聚類分析技術進行測井相分類,識別有效儲層;研究儲層含氣測井、地震響應特徵,建立儲層含氣地震響應模式,提出了針對性較強的緻密裂縫性砂巖儲層地震含氣性檢測方法。3 after analysed the deformation of the structures and fractures, predicted 2 - d fractural degree through the study of natural fracture net, indentified and evaluated fracture though logging data, analysed 3 - d seismic coherence data > counted the dip angle " s of strata etc, the distribution of fracture is pointed out, the prediction methods which combined with geological and geophysical technologies of the fractural zones in the tight sandstone is also presented
3通過構造及斷裂形變分析、天然裂縫網路二維裂縫度預測、測井裂縫識別與評價、地震三維相干分析、地層傾角計算等預測裂縫分佈區,提出地質裂縫預測技術和地球物理裂縫預測技術相結合的緻密砂巖儲層裂縫發育帶預測方法。The method is good at recognizing the grades of the fractures. however, to determine the grades of the fractures it is need to set suitable thresholds based on the drilling and well logging
此方法對裂縫發育程度有較好的識別效果,但要得到裂縫發育級別,需要結合鉆探、測井等資料選取閥值。Buried hill high pour - point oil reservoirs are deeply buried, fracture distribution needs to be studied by comprehensively using core observation, logging identification and interpretation, seismic attribute and coherent volume analysis, finite element analysis, and tectonic stress analysis
摘要潛山高凝油油藏埋藏深,其裂縫分佈規律需要綜合應用巖心觀察、測井識別與解釋、地震屬性與相干體分析、有限元分析、構造應力分析等方法進行研究。分享友人