火成岩岩性的正确识别为储量参数计算打下牢固的基。
The correct recognition of the lithology provides a foundation for the calculation of reserve parameters.
利用储量参数的随机网格模型直接进行储量计算,解决了传统容积法计算复杂油藏储量时储量参数难以取准的问题。
The method can be used to deal with the issues that the reserve parameters are difficult to correctly acquire when estimating complex reservoir's reserves in terms of traditional volume method.
含油饱和度是计算油田储量、编制油田开发方案、评价水淹层的基本参数之一。
Oil saturation is one of the main reservoir parameters in calculating petroleum reserve, planning oilfield development program and evaluating flooded zones.
油藏润湿性是评估油藏可采储量,控制油藏流体流动行为的一个重要参数。
Reservoir wettability is an important parameter for evaluating recoverable reserves and controlling fluid flow of a oil reservoir.
储量计算的一个重要参数是矿石的品位。
The grade of ores is one important parameter for reserve calculation.
孔隙度是描述储层品质的一个重要参数,对生产开发和储量估计具有重要的意义。
Porosity is one of the important parameters for describing reservoir quality and is of great significance to production, development and reserves estimation.
论述了蒙特卡洛方法的数学原理,并结合实例阐述了在天然气储量计算过程中各计算参数实际分布产生随机变量抽样方法。
This paper expounds the mathematical theory of Monte Carlo method, and the random variable sample method of parameters in the calculation process of gas reserves in conjunction with examples.
气层“两度”是指有效孔隙度与原始含气饱和度,它是计算天然气储量的重要参数。
The effective porosity and original gas saturation of gas reservoir are the important parameters in calculating gas reserves.
经济参数的变化对储量评价结果的影响,主要改变了税前净现金流为零的时间,即改变了经济开采年限。
The influence of economic parameters on the results in reserve estimate is mainly the change of time in zero of pretax net cash flow, that is, the change of economic life.
在油田勘探开发过程中,不论是油藏描述、储量评价,还是产量预测、开发方案的编制,始终都离不开渗透率参数。
During oilfield exploration and development, permeability is necessary to not only reservoir description and reserve estimation also production prediction and working out development plan.
仪器数据存储量大,含量分析结果和标定工作曲线参数随时可查。
Of instrument data storage, content analysis and calibration curve parameters readily available.
容积法计算石油与天然气储量,在我国长期来使用参数平均值进行手工计算。
The calculation of oil and gas reserves by volume method has long been made manually by average parameters in our country.
建立油藏网格模型,通过油藏地质储量和生产历史拟合,修正地质模型和物性参数,得到了目前油藏的剩余油分布。
The reserves and production history matching have been studied. By correcting the geological model and fluid physical parameters, the remaining oil distribution was determined.
缝洞型潜山油藏具有特殊的储集类型和特征,其饱和度参数解释、有效厚度划分、储层平面分布的确定是储量计算中的难题。
The interpretation of fracture and vuggy saturation, the determination of effective thickness and the distribution of reservoir are the main problems in reserve calculation.
电阻率测井曲线是确定岩性,划分油、气、水层的依据,是计算地质储量的主要参数。
Resistivity log is the basis for the determination of lithological character and vapor oil water level and a major parameter for the calculation of geologic reserve.
在地层评价中,束缚水饱和度是体积法计算储量时的重要参数之一。
In reservoir assessment, the irreducible water saturation is one of the important parameters of estimating reserves by volumetric method.
在储量计算的有关参数中,有效储层下限的确定直接影响有效储层厚度、孔隙度和含气饱和度三个参数。
The corroboration of effective reservoir lower limit in reserves calculation respects parameters influence effective reservoir thickness, porosity and gas saturation directly.
储层孔隙度是容积法储量计算的基本参数,而准确确定地层条件下的孔隙度值是提高储量计算精度的基础。
Since porosity is a basic parameter for the calculation of gas reservoir reserves, determining the porosity under the reservoir condition is the only way to enhance the precision of the calculation.
采用BP神经网络技术计算煤层气储层物性参数和含气量,较好的满足了煤层气储量计算及开发部署对解释精度的要求。
Using BP neural network computing CBM reservoir parameters, gas content, it's better to meet the calculation of CBM reservoir and interpretation accuracy for development.
储量、区块及单井累积产油量、含水等参数计算的相对误差均小于2.0%,拟合精度高。
The computed parameters such as reserves, cumulative oil production of single well and area, water cut have small relative error of less than 2%, the matching accuracy degree is high.
成像测井不但可以提供油气工业中所需要的油气储量和产量的参数外,更重要的是还可以通过图像处理技术得到井壁和井眼周围的三维图像。
It cannot provide the parameters of the resources and yields the number of oil and gas, but give the 3-d images on the wall and the mouth of the well by image manipulation.
用传统容积法计算储量时,由于对储层参数采用的是平均值而忽略了储层的非均质因素,影响了储量计算的准确性。
When we calculate reserves with traditional cubature, parameters of reservoir bed we use are average values. This ignores anisotropic factors of reservoirs, so that affects accuracy of calculate.
地层的孔隙度、渗透率以及饱和度是评价油气层、计算地质储量的重要参数。
The porosity, permeability and saturation are important parameters which are used to evaluate hydrocarbon reservoir and calculate reserves.
通过人机对话设定初始参数,进行多路数据采集和处理,存储量大。
The system can be set parameters, and collects and manages multiplex data.
采用直线回归的试算法确定气藏合理地质参数的范围,介绍了非线性最优化天然气储量的计算方法。
Trial-and-error method of the linear regression is introduced to determine the reasonable range of geological parameters. And the nonlinear least square method to calculate OGIP.
采用直线回归的试算法确定气藏合理地质参数的范围,介绍了非线性最优化天然气储量的计算方法。
Trial-and-error method of the linear regression is introduced to determine the reasonable range of geological parameters. And the nonlinear least square method to calculate OGIP.
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