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01 September 1989, Volume 10 Issue 3 Previous Issue    Next Issue

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THE ANALYSIS OF OIL AND GAS PROSPECT IN JUNGGAR BASIN FROM GEOLOGICAL DEVELOPMENTAL HISTORY Tian Zaiyi 1989, 10 (3):  3-14.  Abstract ( 143 )   PDF (885KB) ( 282 )   Save Junggar Basin, a part of T ianshan - Xingmong Hercynian gcosycline fold system, possesses a Presinian mid - massif. It was surrounded by circumferential geosydines from Devonian to Carboniferous Period. And because of transgression the original marine formation which is the source rock in deep was disposted on it. The basin rose and became continent since Permian Period. In early Perm ian Epoch ii became a multi - downfalling and uprising fault - subsided basin and posse-ssed alternating sequences of marine and nonmarine formations. From late Permian Epoch to Tertiary Period it became a large united continental depression basin. This paper discussed that Junggar Basin is a best one of petroliferous basins in china owing to following four aspects: (1) multicycle sedimentation was good to the com bination of source rock, reservoir and cap rock; (2) that basin continued to submerge steadily for longtime was profitable to the generation and transdirection of hydrocarbon; (3) the paleouplifts were the direction of hydrocarbon migration; (4) regional structures controlled the structura models of oil gas traps. References | Related Articles | Metrics

OPEN UP A NEW FIELD FOR OIL DETECTION OF JUNGGAR BASIN Fan Chenglong 1989, 10 (3):  15-22.  Abstract ( 83 )   PDF (745KB) ( 169 )   Save Related Articles | Metrics

ETROLEUM GEOLOGICAL CHARACTERS AND HYDROCARBON EXPLORATION IN JUNGGAR BASIN Tong Chongguang 1989, 10 (3):  23-33.  Abstract ( 122 )   PDF (1385KB) ( 382 )   Save In Carboniferous and Permain Period, Junggar Basin was growing a rift depositional basin under the structural mechanism of outside compression and inside tension The Permian System possessed good hydrocarbonforming conditions, and that Mesozoic anci Cenozoic strata overlapped on this strata turned the original fault belts in the basin margin into hidden paleothrust fault belts. It is possible that Karamay-Wuerhe fault belt converged in deep and Dalbute deep fault composed a y-like structure. Along the fault belt, there were magmatic intrusion and extrusion. A lot of unconformities, diluvial sandstonecongomeratic bodies, stratigraphic denuding and overlapping belts, bedrock fault blocks and volcanic rocks occurred in the Permian, Triassic and Jurassic System in the fault belt formed many strati graphical and structural traps, which provided good passages and Location for the hydrocarbon migrating and gathering, and formed a large hidden thrust fault hydrocarbon accumulating zone. The purpose of this paper was that new hydrocarbon bearing areas should be developed according to this idea. References | Related Articles | Metrics

SUGGESTIONS ON KARAMAY OILFIELD DEVELOPMENT Qin Tongluo 1989, 10 (3):  34-40.  Abstract ( 90 )   PDF (593KB) ( 224 )   Save References | Related Articles | Metrics

APPLICATION OF TONG'S WATER DRIVE PERFORMANCE CURVE ANALYSIS METHOD TO ANALYZING SOME RESERVOIR PERFORMANCE PROBLEMS IN THE WORLD Tong Xianzhang 1989, 10 (3):  41-49.  Abstract ( 133 )   PDF (702KB) ( 447 )   Save The water drive performance curves of the first and second types can be drawn after the natural or artificial water drive mechanism prevails in an oil field. The time when the straight line starts, the tortuosity and correlativity for the straight line are different tor various fields. The straight line and its changes, as well as type curves, can be used to consider the accuracy of geological reserves in place estimated with volumetrical method and some important performance terms, can be used to identify the state of water drive and the result of treatment, and to predict the ultimate re-ccneiy. They can aLso be used to guide the development for the same type of fie Ids. A computer program of the Tong's analysis method of water drive performance curve was written on a TX microcom puter soft ware. The required wnter drive curves and the resultnni performance indices can be obtained with the orogram when the relevant data are input into the computer. In this paper water drive curve analyses were performed for the L-5 field in Caidamu Basin, Karamay field anJ some large oil iieids in L'SSR. The result were compaicd and discussed in detail. References | Related Articles | Metrics

A NEW METHOD FOR PREDICTING PRODUCTIVITY OF OIL WELL Chen Yuanqian 1989, 10 (3):  50-58.  Abstract ( 98 )   PDF (490KB) ( 215 )   Save When bottom hole flow ing pressure (BHFP) is higher than saturation pressure, oil flows in single phase in the reservoir. When it is lower than saturation pressure, free gas flow oc cures near the wellbore. The well productivity equations for previous two cases are different. When BH FP is lower than the saturation pressure, oil productivity indices at different BHFPs can be determined through Equation (9) in this paper, using the observed production and oil productivity indices at BHFPs above the saturation pressure estimated from Equation (13). The paper also presents pertinent correlations for particular cases, such as undam aged new wells and zero bottom bole flowing pressure. Two examples show that the correlaions given in the paper are effective in predicting and determining productivities in exploring and producing wells. References | Related Articles | Metrics

AN APPROACH TO ENHANCE OIL RECOVERY IN WATER-WET AND SAIT-RICH RESERVOIRS Yang Shoushan 1989, 10 (3):  59-66.  Abstract ( 88 )   PDF (671KB) ( 278 )   Save Related Articles | Metrics

GEOTHERMAL CHARACTERISTICS OF THE JUNGGAR BASIN AND ITS SIGNIFICANCE TO OIL SEARCHING Zhou Zhongyi, Pan Changchun, Fan Shanfa, Han Ling 1989, 10 (3):  67-74.  Abstract ( 151 )   PDF (596KB) ( 268 )   Save References | Related Articles | Metrics

THE CHARACTERISTICS OF DELTA RESERVOIR IN DAMOGUAIHE GROUP IN WUERSHEN DEPRESSION Zhang Jingliang, Shen Feng 1989, 10 (3):  75-83.  Abstract ( 67 )   PDF (900KB) ( 226 )   Save wuershen depression, a fault-subsided basin formed on the premesozoic fold basement, is about 2350km2. Deltaic deposit, mainly developed in the middle and upper parts of Da moguai he group, could be dividede into two kinds: river dominated del la and wave dominated delta. We studied the depositional characteristics of delta reservoir from the shapes of sandbodies, sedimentary succession, component, structure and size distribution. The delta reservoir underwent a complicated diagenetic history. The compaction resulted in a decrease in original porosity. The authigenic cements filled the intergranular space. The dissolution made secondary porosity. The reservoir properties were the function of diagenetic strength. According to the major diagenetic events or diagenetic facies which affected the reservoir proporties the deltaic sandbodies were divided into three kinds of reservoir: (1) carbonate cemention type, (2) compaction-filling type, (3) unsteady elastics dissolution type. The reservoir characteristics of deltaic sandbodies were controlled by both the microfacies and di a genesis of the sandbodies. Related Articles | Metrics

REINFORCING BASIC STUDY, INCREASING PREDICTION LEVEL FOR HYDROCARBON EXPLORATION Yang Wenkuan 1989, 10 (3):  84-87.  Abstract ( 69 )   PDF (358KB) ( 132 )   Save Jn order to increase predication level for hydrocarbon exploration in Tarim Basin, it is very important to evaluate the hydrocarbon bearing formations. From the analysis of avai - lible materials, it is undoubted that some groups of the Carboniferous, Permain, Triassic and Jurassic System could generate hydrocarbon. But the convincing judgement on the potentiality of the marine carbonate rock should be obtained after further study. T hernia I- alteration index is a belter way which was suggested that the recovering evolution history of kerogen. In most areas, it is neccessary to consider the possibility of mixture accumulation of poJysource hydrocarbon, then we could avoid prefering some bed of interesi to else drilled reservoirs during drillhole exploration. The study of paleosttess fields is helpful to the analysis of formation mechanism and distribution regularity of traps and to the correct interpretation of other structure appearances; which adds to surface chemical exploration would be good to choosing the traps provided for drill hole exploration. Related Articles | Metrics

SCIENTIFIC BASIS OF NONSEISMIC PROSPECTING AND ITS STATUS IN COMPREHENSIVE EXPLORATION Liu Zhenwu 1989, 10 (3):  88-99.  Abstract ( 90 )   PDF (911KB) ( 174 )   Save Micro—petroleum seepage and associated surface abnormal physical and/ or chemical fields are the targets that the non—seismic exploratory work, except for high accurate gravity—magnetic measurement, strives to detect .Oil and gas seeps are of obvious significance to exploration. The concept of m icro—seepage, however, differs subsiantia- 11 y from that of well accepted micro —seepage on aspects such as migration mechanism, distribution» phase and componenis etc. Surface oil expecting technique as whole is based on the theory of vertical migration (or micro—seepage ).This theory has nature of hypothesis and guess to some extent. There exist problems such as migration mechanism, migration passage, phase, driving force and interpretation model which need to solve, although some field work has provided supporting evidence. Therefore, the theory requires urgent study and practice—examination. Employing concept of information net value, this paper applys method of decision tree to determine the maximum expected net value of information, exploring whether or not investment and how much investment should be spent on gathering non—seismic exploratory information in oil exploration. Then, the paper discusses the role that non—seismic work as a supplement and assistant tool can play in conventional exploration technique, suggesting its tasks in the exploration. References | Related Articles | Metrics

RESOURCES EVALUATION BY MATHEMATICAL SIMULATION IN THE REGION OF MAFU DEPRESSION, JUNGGAR BASIN Wang Guolin, Wang Gang, Zhu Aiguo 1989, 10 (3):  100-112.  Abstract ( 92 )   PDF (843KB) ( 271 )   Save This paper introduced in detarl the method and principle of calculating hydrocarbon- forming quantity and hydrocarbon -excluding quantity by method of basin simulation and its softwares structure, and described preparations of parameters in basin simulation and results gained by simulation,which regarded dividing structural developmental history of Junggar Basin into three stages as correct, determined the thermal evolution stages of a" the source rocks and showed that the main source rocks are Fengcheng and low Wuerhe groups. The simulation solved the unbalanced problem presented for longtime between hydrocarbon- forming quantity in Mahu Depression and geological reserves,hydrocarbon- vanishing quantity in it and its circumference. And displayed the distribution of resources in simulated region. And provided scientific bases for exploration arrangement, References | Related Articles | Metrics