jacob_lohman_F_calculate_parameters: jacob_lohman_F_calculate_parameters
In khaors/pumpingtest: R Package for the analysis and evaluation of pumping tests
Description
Usage
Arguments
Value
Author(s)
References
See Also
Examples
View source: R/jacob_lohman_utilities.R
Description
Calculate hydraulic parameters of the Jacob-Lohman Solution
Usage
1
jacob_lohman_F_calculate_parameters(ptest, par, hydraulic = TRUE)
Arguments
ptest
A pumping_test object
par
A list with the Slope (a) and the Intercept (t0) of the straight line fitted to
the drawdown data using the Cooper-Jacob approach
hydraulic
Logical flag to indicate if hydraulic parameters are calculated. If False,
the the statistcal parameter (a and t0) are calculated.
Value
A list with
Tr: Transmisivity.
Ss: The Storage coefficient
radius_influence
Author(s)
Oscar Garcia-Cabrejo khaors@gmail.com
References
Jacob, C. E. & Lohman, S. W. Nonsteady Flow to a Well Of Constant Drawdown. American
Geophysical Union, 1952, 33, 10.
See Also
Other jacob_lohman functions: jacob_lohman_F_solution_initial,
jacob_lohman_F_solution,
jacob_lohman_F_well_function,
jacob_lohman_G_WF_LT,
jacob_lohman_G_calculate_parameters,
jacob_lohman_G_solution_initial,
jacob_lohman_G_solution,
jacob_lohman_G_well_function,
jacob_lohman_WF_F_LT
Examples
1
2
3
4
5
6
7
8
data(jacob_lohman)
s <- vector("numeric", length(jacob_lohman$t))
s[1:length(jacob_lohman$t)] <- 0
ptest <- pumping_test("Well1", Q = jacob_lohman$q, r = 0.84, t = jacob_lohman$t, s = s)
ptest$additional_parameters <- list(rw = 0.084, s0 = 28.142)
sol0 <- jacob_lohman_F_solution_initial(ptest)
jl.par <- jacob_lohman_F_calculate_parameters(ptest, sol0)
print(jl.par)
khaors/pumpingtest documentation built on Nov. 15, 2019, 8:10 p.m.
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Description Usage Arguments Value Author(s) References See Also Examples
View source: R/jacob_lohman_utilities.R
Description
Calculate hydraulic parameters of the Jacob-Lohman Solution
Usage
1 | jacob_lohman_F_calculate_parameters(ptest, par, hydraulic = TRUE)
|
Arguments
ptest |
A pumping_test object |
par |
A list with the Slope (a) and the Intercept (t0) of the straight line fitted to the drawdown data using the Cooper-Jacob approach |
hydraulic |
Logical flag to indicate if hydraulic parameters are calculated. If False, the the statistcal parameter (a and t0) are calculated. |
Value
A list with
Tr: Transmisivity.
Ss: The Storage coefficient
radius_influence
Author(s)
Oscar Garcia-Cabrejo khaors@gmail.com
References
Jacob, C. E. & Lohman, S. W. Nonsteady Flow to a Well Of Constant Drawdown. American Geophysical Union, 1952, 33, 10.
See Also
Other jacob_lohman functions: jacob_lohman_F_solution_initial,
jacob_lohman_F_solution,
jacob_lohman_F_well_function,
jacob_lohman_G_WF_LT,
jacob_lohman_G_calculate_parameters,
jacob_lohman_G_solution_initial,
jacob_lohman_G_solution,
jacob_lohman_G_well_function,
jacob_lohman_WF_F_LT
Examples
1 2 3 4 5 6 7 8 | data(jacob_lohman)
s <- vector("numeric", length(jacob_lohman$t))
s[1:length(jacob_lohman$t)] <- 0
ptest <- pumping_test("Well1", Q = jacob_lohman$q, r = 0.84, t = jacob_lohman$t, s = s)
ptest$additional_parameters <- list(rw = 0.084, s0 = 28.142)
sol0 <- jacob_lohman_F_solution_initial(ptest)
jl.par <- jacob_lohman_F_calculate_parameters(ptest, sol0)
print(jl.par)
|
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