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产品展厅>>产品销售>>辰工生产数据分析系列软件>>辰工生产数据分析软件 V1.0

辰工生产数据分析软件,可实现油气井变流量及压力下的数据分析,通过分析可获得地层渗透率、储量等参数,利用这些参数可预测未来油气井产能。软件可广泛应用于油气井勘探开发中的工作制度优化、开发方案制定,尤其适用于致密油气开发中无法测量井底压力数据的分析。 

提供传统的生产数据分析方法(Arps、Fetkovich、Blasingame、Agarwal-Gardner、NPI及Transient分析方法)。 

采用组合图版分析方法(单位流量下压差双对数分析及单位压差下流量双对数分析方法),获得地层渗透率、平均地层压力等关键参数。

分别提供实际时间、物质平衡时间及基于累积量时间为横轴;提供实际压差、流量、单位流量下压差及单位压差下流量为纵轴;提供各种坐标组合图形的直线段分析法(直角、线性流、双线性流、半对数等)。

针对致密气、页岩气及煤层气,考虑气体吸附、应力敏感及气体滑脱效应等影响,并提供水平井多段压裂模型。

提出等效虚拟时间概念,实现了生产中关井、改变工作制度(油嘴及气嘴)下的压力、流量及累积量的历史拟合难题。

提出油水两相、油气两相及气水两相生产数据分析方法,并提出多相流体的产能预测和累积量预测。

提供井筒气液两相流态计算:针对气液两相流体,提供考虑各种井口到井底的压力折算方法(单相液体、单相气体、气液均匀流动、Hagedorn-Brown、Harsan-Kabir、Begges-Brill、Dons-Ros、Orkiszewski、Aziz、Mukherjee-Brill),同时提供不同深度下压力变化等计算模块。 

提供强大的产能预测功能(瞬态产能、定井底压力下的流量变化,油气藏参数对产能影响分析等)。

提供可视显示功能:根据生产数据分析或试井分析的参数,计算变产量下不同时刻的地层压力分布,并以三维图进行动画显示。

图1  Blasingame拟合图 图2  流量及累积量拟合图 图3   气井流入及流出曲线

Products>>Products on Sale>>Chengong Production Data Analysis Software>>Chengong Production Data Analysis Software V1.0

Chengong production data analysis software can realize the data analysis under variable flow rate and pressure of oil and gas wells. Through the analysis, the formation permeability, reserves and other parameters can be obtained, and these parameters can be used to predict the productivity of oil and gas wells in the future. The software can be widely used in the optimization of working system and the formulation of exploration scheme in oil and gas well  exploration and development, especially for the analysis of bottom hole pressure data which can not be measured in dense oil and gas development.

Provide traditional methods of production data analysis (Arps, Fetkovich, Blasingame, Agarwal-Gardner, NPI, and Transient analysis methods).

The key parameters such as formation permeability, average formation pressure and others are obtained by using the combined graph analysis method (the differential pressure double-log analysis under the unit flow and the flow double-log analysis method under the unit pressure difference).

The actual time, the material balance time and the cumulative  amount time are respectively provided as the horizontal axis; the actual pressure difference, the flow rate, the pressure difference under the unit flow and the flow rate under the unit pressure difference are provided as the vertical axis; the straight line segment analysis method of the various coordinate combinations figures is provided (right-angle, linear flow, bilinear flow, Semi-log, etc.).

Considering the influence of gas adsorption, stress sensitivity and gas slip-off effect on the dense gas, the shale gas and the coal-bed gas, the multi-section fracturing model of the horizontal well is provided.

The concept of equivalent virtual time is put forward, and the historical simulation problem of pressure, flowrate and accumulated flowrate under the change of working system (oil nozzle and gas nozzle) and shut-in in production are realized.

The data analysis methods of oil-water two-phase and oil-gas  two-phase and gas-water two-phase production are proposed, and the prediction of the  production capacity and the accumulation amount of the multi-phase fluid are put forward.

Provide gas-liquid two-phase flow regime calculation: For gas-liquid two-phase fluid, pressure conversion methods (single-phase liquid, single-phase gas, gas-liquid uniform flow, Hagedorn-Brown, Harsan-Kabir, Begges-Brill, Dons-Ros, Orkiszewski, Aziz, Mukherjee-Brill) considering various wellhead-to-bottom hole conditions are provided. And at the same time, calculation modules such as a pressure change under  different depths and so on are provided.

Provide powerful productivity prediction function (transient productivity, flow change at fixed bottom hole pressure, analysis of oil and gas reservoir parameters influences to productivity, etc.).

Provide visual display function: According to the parameters of production data analysis or well testing analysis, calculate the formation pressure distribution at different times under the variable output and display the animation in three-dimensional graph.

Figure1: Blasingame simulation chart Figure2:   Flowrate and cumulative flowrate simulation chart Figure3: Gas well inflow and outflow curves