Input Data Options tomographic data (1) segmented data (2) burn data (3) medial axis data (4) throat data (5) pore-throat network data (6) fluid data (7) lattice Boltzmann simulation (8) Enter choice: 7 Data Processing Options histogram pore space (1) fluid segmentation (2) fluid sat distribution (3) fluid sat transition matrix (4) fluid blob distribution (5) saturation gradients (6) subvolume fluid saturation (7) fluids visualization/interface area computation (8) comparative rasterplot (9) fluid blob pore/throat span (10) fluid blob surfaces (11) clean up fluid seg data (12) (residual) fluid local depth distribution (13) Enter choice: 5 Enter number of fluid phases within pores(2(dflt),3): 2 Enter basename for pore segmented volume file(s): ../../sw/c_seg/sw Are file(s) compressed? [y,n]: y Enter first and last slice of data to use: 1 256 Slice size of data, (nx,ny): 256 256 Fiducial polygon generation methods NONE (N) MANUAL (M) AUTOMATIC (A) Enter method: N Enter basename for water segmented volume file(s): ../fld_seg/h2o/sor Are file(s) compressed? [y,n]: y Enter basename for oil segmented volume file(s): ../fld_seg/oil/sor Are file(s) compressed? [y,n]: y Ignore blobs that touch the exterior? (y,n(dflt)): n Enter voxel length in physical units: 4.93 Enter basename for fluid blob plot file(s): ../results/fld_blob Enter title for plot: berea sample Produce rasterplot of fluids? (y,n(dlft)): n Pore size distribution can be added for comparison. That would require pore-throat network data. Add pore size distribution?: n Dependable on the rock, one of the fluid phases is wetting and the other(s) are nonwetting. Wetting fluid is assumed 26-connected and non-wetting fluid is 6-connected. Fluid options are 1) water 2) oil Enter wetting fluid: 1