The method, based on nonlinear integral equation, is used to solve for the formation conductivity profile by using regularization.
该方法基于非线性积分方程,用正则化方法求出电导率分布。
The effect of saturation exponent on the curves between formation conductivity and total water saturation increases as total water saturation increases.
饱和度指数对地层电导率与总含水饱和度关系曲线的影响随总含水饱和度的增大而减小。
A technique of variable-error iterative searching solution for equivalent formation conductivity is developed. The accuracy and stability of borehole correction are improved.
通过优选建立了等效地层电导率变误差迭代搜索方法,提高了井眼环境校正的精度和稳定性。
Based on the numerical results, the effects of formation conductivity on the oil sand temperature and the effects of electrical power on the cumulative oil production are also discussed.
由数值计算结果,讨论了油藏电导率对温度分布的影响,以及加热功率和加热方式对原油累积产量的影响。
On the basis of the deliverability evaluation, formation conductivity and reserve coefficients are confirmed to be the main factors of the deliverability combined with the data of log interpretation.
结合测井解释资料,在产能评价的基础上确定出该区气井产能的主控因素为地层系数和储能系数。
Percolation Theory can explain the formation of conductive passages under the dependence of the conductivity and graphite content in ecac .
导电沥青混凝土中导电率与石墨掺量依赖性可用渗流理论解释其导电通路的形成。
The method converges faster than conventional successive approximation method (SAM) and can be applied to high conductivity contrast formation.
与传统的逐次逼近解法(SAM)相比,该方法收敛性强,应用范围广,可适用于高电导率对比地层。
The influence of conductivity of homogeneous formation on the calibrating value of the tool factor in half space is discussed.
讨论了半空间中均质地层电导率对仪器常数刻度值的影响。
The pressing formation process greatly affects the density and the microstructure of calcium silicate insulation material, and, also affects its thermal conductivity.
压滤成型工艺对最终材料的密度和显微结构有很大的影响,从而影响材料的导热系数。
Percolation Theory can explain the formation of conductive passages under the dependence of the conductivity and graphite content in ECAC.
导电沥青混凝土中导电率与石墨掺量依赖性可用渗流理论解释其导电通路的形成。
The integral equations were computed by modified successive approximation method (MSAM). The method needs less computer memory requirements and is suitable for high-conductivity-contrast formation.
采用改进型逐次逼近解法(MSAM)计算了积分方程,该方法所需内存量小,且可适用于高电导率对比度地层。
The integral equations were computed by modified successive approximation method (MSAM). The method needs less computer memory requirements and is suitable for high-conductivity-contrast formation.
采用改进型逐次逼近解法(MSAM)计算了积分方程,该方法所需内存量小,且可适用于高电导率对比度地层。
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