User's guide of Proceessing Modflow 5.0

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294 Processing Modflow Table 6.7 (continued) \PM5\...\TRANSPORT7\ This model is described in section 7.10 of the manual of MT3DMS. This example illustrates the application of MT3D/MT3DMS to an actual field problem involving evaluation of the effectiveness of proposed groundwater remediation schemes. \PM5\...\TRANSPORT8\ This model is described in the section MODEL TESTING AND EVALUATION - One- Dimensional Steady Flow of the user’s guide of MOC3D. A numerical model consisting of 122 columns, 1 rows and 1 layer is used to simulate one-dimensional transport having a third-type source boundary condition in a steady-state flow field; numerical results were compared with the analytical solution of Wexler (1992). \PM5\...\TRANSPORT9\ This model is described in the section MODEL TESTING AND EVALUATION - Three- Dimensional Steady Flow of the user’s guide of MOC3D. A numerical model consisting of 12 columns, 32 rows and 40 layers is used to simulate three-dimensional transport having a permanent point source in a steady-state flow field; numerical results were compared with the analytical solution of Wexler (1992). \PM5\...\TRANSPORT10\ This model is described in the section MODEL TESTING AND EVALUATION - Two- Dimensional Radial Flow and Dispersion of the user’s guide of MOC3D. A numerical model consisting of 30 columns, 30 rows and 1 layer is used to simulate twodimensional transport having a permanent point source in a steady-state radial flow field; numerical results were compared with the analytical solution of given by Hsieh (1986). \PM5\...\TRANSPORT11\ This model is described in the section MODEL TESTING AND EVALUATION - Point Initial Condition in Uniform Flow of the user’s guide of MOC3D. A numerical model consisting of 26 columns, 26 rows and 26 layer is used to simulate three-dimensional transport having an initial point source in a parallel steady-state flow at 45 degrees to the x-direction; numerical results were compared with the analytical solution of given by Wexler (1992). The point source was simulated at column 4, row 4 and layer 12. 6.6.3 Benchmark Problems and Application Examples from Literatures
Processing Modflow 295 6.7 Miscellaneous Topics 6.7.1 Using the Field Interpolator Folder: \pm5\examples\misc\misc1\ Overview of the Problem This example illustrates the use of the Field Interpolator. Fig. 6.63 shows the plan view of the model area, the model grid and the locations of measurement points. The model grid consists of 70 rows and 60 columns and one layer. The measured hydraulic heads and the coordinates of the measurement points are saved in the file \pm5\examples\misc\misc1\measure.dat. To obtain the starting head of a flow simulation, the measured hydraulic heads should be interpolated to each model cell. Modeling Approach and Simulation Results The starting heads are interpolated to model cells using the four interpolation methods provided by the Field Interpolator. The interpolation results are shown in the form of contours in Fig. 6.64 - 6.67. The octant search method with Data Per Sector = 1 is used by all gridding methods. A weighting exponent of F = 2 is used by Shepard's inverse distance method. The Kriging method uses the linear variogram model with c = 0 and " = 1. There is no significant difference 0 observed in these figures when sufficient data points are available. The major difference is observed in the southern part of the model area, where only one measurement point is found and the system is not well conditioned. 6.7.1 Using the Field Interpolator
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Processing Modflow A Simulation Sys
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3.6.6 UCODE (Inverse Modeling) . ..
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Preface Welcome to Processing Modfl
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Processing Modflow 1 1. Introductio
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Processing Modflow 3 the three-dime
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Processing Modflow 5 Online Help Th
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Processing Modflow 7 capture zone o
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Processing Modflow 9 The first and
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Processing Modflow 11 Now, you must
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Processing Modflow 13 2. Repeat the
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Processing Modflow 15 2. Choose Lea
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Processing Modflow 17 simulation is
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Processing Modflow 19 steps 3 to 5
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Processing Modflow 21 Table 2.4 Out
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Processing Modflow 23 results and u
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Processing Modflow 25 Fig. 2.12 The
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Processing Modflow 27 fields in the
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Processing Modflow 31 2.2 Simulatio
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Processing Modflow 33 2. Click OK t
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Processing Modflow 37 Fig. 2.27 Sim
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Processing Modflow 39 < To assign t
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Processing Modflow 43 Fig. 2.35 Con
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Processing Modflow 47 Note that PMW
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Processing Modflow 49 the model dat
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Processing Modflow 51 PMWIN will cr
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Processing Modflow 53 Table 3.1 An
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Processing Modflow 55 data and clic
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Processing Modflow 61 3.2.2 The Zon
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Processing Modflow 67 - Print: Prin
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Processing Modflow 69 principal axe
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Processing Modflow 71 Calculated, P
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Processing Modflow 73 3.5 The Param
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Processing Modflow 75 steady state
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Processing Modflow 77 Vertical Hydr
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Processing Modflow 79 3.6 The Model
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Processing Modflow 81 RET ' RETM h>
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Processing Modflow 83 boundaries be
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Processing Modflow 85 For a confine
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Processing Modflow 87 1. Recharge i
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Processing Modflow 89 Leakage betwe
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Processing Modflow 91 For the case
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Processing Modflow 93 < Parameter N
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Processing Modflow 95 MODFLOW < Tim
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Processing Modflow 97 MODFLOW < Wet
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Processing Modflow 99 well cell etc
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Processing Modflow 101 MODFLOW < So
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Processing Modflow 103 < Max. band
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Processing Modflow 105 < Allowed It
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Processing Modflow 107 MODFLOW < Ru
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Processing Modflow 109 Table 3.4 Ve
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Processing Modflow 111 MOC3D < Init
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Processing Modflow 113 MOC3D < Disp
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Processing Modflow 115 MOC3D < Stro
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Processing Modflow 117 Table 3.6 Na
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Processing Modflow 119 Fig. 3.40 Th
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Processing Modflow 121 higher numbe
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Processing Modflow 123 )t # Fixed p
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Processing Modflow 125 MT3D < Chemi
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Processing Modflow 127 beginning of
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Processing Modflow 129 < Misc.: - C
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Processing Modflow 131 3.6.4 MT3DMS
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Processing Modflow 133 < Weighting
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Processing Modflow 135 is infinite
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Processing Modflow 137 (ITER1): The
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Processing Modflow 139 3.6.5 PEST (
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Processing Modflow 141 define the e
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Processing Modflow 143 while s and
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Processing Modflow 145 - DERINCMUL:
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Processing Modflow 147 where N is t
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Processing Modflow 149 course of an
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Processing Modflow 151 PEST (Invers
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Processing Modflow 153 3.6.6 UCODE
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Processing Modflow 155 To define a
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Processing Modflow 157 < Options -
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Processing Modflow 159 Fig. 3.57 Th
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Processing Modflow 161 < To load an
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Processing Modflow 163 Use the Sear
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Processing Modflow 165 < Appearance
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Processing Modflow 167 - Ignore ina
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Processing Modflow 169 Maps... Fig.
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Processing Modflow 171 < Raster Gra
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Processing Modflow 173 4. The Advec
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Processing Modflow 175 where z 3 -1
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Processing Modflow 177 all velocity
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Processing Modflow 179 the cell ind
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Processing Modflow 181 Tool bar The
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Processing Modflow 183 The retardat
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Processing Modflow 185 small. Click
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Processing Modflow 187 < Contours:
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Processing Modflow 189 Particle Tra
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Processing Modflow 191 < Pathline C
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Processing Modflow 193 4.4 PMPATH O
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Processing Modflow 195 Particles To
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Processing Modflow 197 < To assign
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Processing Modflow 199 Where N is t
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Processing Modflow 201 EPA, and bey
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Processing Modflow 203 Fig. 5.5 Sea
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Processing Modflow 205 5.4 The Resu
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Processing Modflow 207 5.5 The Wate
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Processing Modflow 209 color of eac
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Processing Modflow 211 6. Examples
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Processing Modflow 213 Step1: Creat
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Processing Modflow 215 depth). Upon
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Processing Modflow 217 < To sepecif
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Processing Modflow 219 clicking wit
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Processing Modflow 221 5. In the Sa
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Processing Modflow 223 in this case
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Processing Modflow 225 Run transien
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Processing Modflow 227 6.1.2 Tutori
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Processing Modflow 229 3. Leave the
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Processing Modflow 231 < To specify
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Processing Modflow 233 Effective Po
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Processing Modflow 235 Step 6: Extr
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Processing Modflow 237 maximum numb
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Processing Modflow 239 distance fro
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Processing Modflow 241 6.2.2 Use of
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Page 323 and 324: Processing Modflow 317 Table 7.2 IU
Page 325 and 326: Processing Modflow 319 8. Reference
Page 327 and 328: Processing Modflow 321 Franke, R. (
Page 329 and 330: Processing Modflow 323 Leake, S.A.
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