论文信息 - Some results comparing Monte Carlo simulation and first order Taylor series approximation for steady groundwater flow

Some results comparing Monte Carlo simulation and first order Taylor series approximation for steady groundwater flow

The expected head and standard deviation of the head from the first order Taylor series approximation is compared to Monte Carlo simulation, for steady flow in a confined aquifer with transmissivity as a random variable. Emphasis is on the effect of changes in the covariance structure of the transmissivity, and pumping rates, on the errors in the first order Taylor series approximation. The accuracy of the first order Taylor series approximation is found to be particularly sensitive to pumping rates. With significant pumping the approximation is found to under estimate both the expected drawdown and head variance, and the error increases as the pumping rate increases. This can lead to large errors in probability constraints based on moments from the first order Taylor series approximation.

L. Jones | L. Jones

[1] L. Townley,et al. Computationally Efficient Algorithms for Parameter Estimation and Uncertainty Propagation in Numerical Models of Groundwater Flow , 1985 .

[2] Peter K. Kitanidis,et al. Analysis of the Spatial Structure of Properties of Selected Aquifers , 1985 .

[3] R. Freeze. A stochastic‐conceptual analysis of one‐dimensional groundwater flow in nonuniform homogeneous media , 1975 .

[4] E. G. Vomvoris,et al. A geostatistical approach to the inverse problem in groundwater modeling (steady state) and one‐dimensional simulations , 1983 .

[5] S. Gorelick,et al. Optimal groundwater quality management under parameter uncertainty , 1987 .

[6] Yeou-Koung Tung,et al. Groundwater Management by Chance‐Constrained Model , 1986 .

[7] L. Townley. Second Order Effects of Uncertain Transmissivities on Predictions of Piezometric Heads , 1984 .

[8] N. Matalas. Mathematical assessment of synthetic hydrology , 1967 .

[9] Lynn W. Gelhar,et al. Stochastic subsurface hydrology from theory to applications , 1986 .

[10] Michael D. Dettinger,et al. First order analysis of uncertainty in numerical models of groundwater flow part: 1. Mathematical development , 1981 .

[11] R. Allan Freeze,et al. Stochastic analysis of steady state groundwater flow in a bounded domain: 2. Two‐dimensional simulations , 1979 .