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flopy/examples/Notebooks/flopy3_MT3D-USGS_example.ipynb

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{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# FloPy\n",
"\n",
"### MT3D-USGS Example\n",
"\n",
"Demonstrates functionality of the flopy MT3D-USGS module using the 'Crank-Nicolson' example distributed with MT3D-USGS. \n",
"\n",
"#### Problem description:\n",
"\n",
"* Grid dimensions: 1 Layer, 3 Rows, 650 Columns\n",
"* Stress periods: 3\n",
"* Units are in seconds and meters\n",
"* Flow package: UPW\n",
"* Stress packages: SFR, GHB\n",
"* Solvers: NWT, GCG"
]
},
{
"cell_type": "code",
"execution_count": 1,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"3.8.6 | packaged by conda-forge | (default, Oct 7 2020, 18:42:56) \n",
"[Clang 10.0.1 ]\n",
"numpy version: 1.18.5\n",
"matplotlib version: 3.2.2\n",
"flopy version: 3.3.3\n"
]
}
],
"source": [
"import sys\n",
"import os\n",
"import platform\n",
"import string\n",
"from io import StringIO, BytesIO\n",
"import math\n",
"import numpy as np\n",
"import matplotlib as mpl\n",
"import matplotlib.pyplot as plt\n",
"\n",
"# run installed version of flopy or add local path\n",
"try:\n",
" import flopy\n",
"except:\n",
" fpth = os.path.abspath(os.path.join('..', '..'))\n",
" sys.path.append(fpth)\n",
" import flopy\n",
"\n",
"print(sys.version)\n",
"print('numpy version: {}'.format(np.__version__))\n",
"print('matplotlib version: {}'.format(mpl.__version__))\n",
"print('flopy version: {}'.format(flopy.__version__))"
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {},
"outputs": [],
"source": [
"modelpth = os.path.join('data')\n",
"modelname = 'CrnkNic'\n",
"mfexe = 'mfnwt'\n",
"mtexe = 'mt3dusgs'\n",
"if platform.system() == 'Windows':\n",
" mfexe += '.exe'\n",
" mtexe += '.exe'\n",
"\n",
"# Make sure modelpth directory exists\n",
"if not os.path.exists(modelpth):\n",
" os.mkdir(modelpth)\n",
"\n",
"# Instantiate MODFLOW object in flopy\n",
"mf = flopy.modflow.Modflow(modelname=modelname, exe_name=mfexe, model_ws=modelpth, version='mfnwt')"
]
},
{
"cell_type": "markdown",
"metadata": {
"collapsed": true
},
"source": [
"Set up model discretization"
]
},
{
"cell_type": "code",
"execution_count": 3,
"metadata": {},
"outputs": [],
"source": [
"Lx = 650.0 \n",
"Ly = 15\n",
"nrow = 3\n",
"ncol = 650\n",
"nlay = 1\n",
"\n",
"delr = Lx / ncol\n",
"delc = Ly / nrow\n",
"\n",
"xmax = ncol * delr\n",
"ymax = nrow * delc\n",
"\n",
"X, Y = np.meshgrid(np.linspace(delr / 2, xmax - delr / 2, ncol), \n",
" np.linspace(ymax - delc / 2, 0 + delc / 2, nrow))\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate output control (oc) package for MODFLOW-NWT"
]
},
{
"cell_type": "code",
"execution_count": 4,
"metadata": {},
"outputs": [],
"source": [
"# Output Control: Create a flopy output control object\n",
"oc = flopy.modflow.ModflowOc(mf) "
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate solver package for MODFLOW-NWT"
]
},
{
"cell_type": "code",
"execution_count": 5,
"metadata": {},
"outputs": [],
"source": [
"# Newton-Raphson Solver: Create a flopy nwt package object\n",
"\n",
"headtol = 1.0E-4 \n",
"fluxtol = 5 \n",
"maxiterout = 5000\n",
"thickfact = 1E-06\n",
"linmeth = 2 \n",
"iprnwt = 1 \n",
"ibotav = 1 \n",
"\n",
"nwt = flopy.modflow.ModflowNwt(mf, headtol=headtol, fluxtol=fluxtol, maxiterout=maxiterout, \n",
" thickfact=thickfact, linmeth=linmeth, iprnwt=iprnwt, ibotav=ibotav,\n",
" options='SIMPLE') \n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate discretization (DIS) package for MODFLOW-NWT"
]
},
{
"cell_type": "code",
"execution_count": 6,
"metadata": {},
"outputs": [],
"source": [
"# The equations for calculating the ground elevation in the 1 Layer CrnkNic model. \n",
"# Although Y isn't used, keeping it here for symetry\n",
"\n",
"def topElev(X, Y):\n",
" return 100. - (np.ceil(X)-1) * 0.03\n",
"\n",
"grndElev = topElev(X, Y)\n",
"bedRockElev = grndElev - 3.\n",
"\n",
"Steady = [False, False, False] \n",
"nstp = [1, 1, 1] \n",
"tsmult = [1., 1., 1.]\n",
"\n",
"# Stress periods extend from (12AM-8:29:59AM); (8:30AM-11:30:59AM); (11:31AM-23:59:59PM)\n",
"perlen = [30600, 10800, 45000] \n",
" \n",
"# Create the discretization object\n",
"# itmuni = 1 (seconds); lenuni = 2 (meters)\n",
"dis = flopy.modflow.ModflowDis(mf, nlay, nrow, ncol, nper=3, delr=delr, delc=delc, \n",
" top=grndElev, botm=bedRockElev, laycbd=0, itmuni=1, lenuni=2,\n",
" steady=Steady, nstp=nstp, tsmult=tsmult, perlen=perlen) \n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate upstream weighting (UPW) flow package for MODFLOW-NWT"
]
},
{
"cell_type": "code",
"execution_count": 7,
"metadata": {},
"outputs": [],
"source": [
"# UPW parameters \n",
"# UPW must be instantiated after DIS. Otherwise, during the mf.write_input() procedures, \n",
"# flopy will crash.\n",
"\n",
"\n",
"laytyp = 1 \n",
"layavg = 2 \n",
"chani = 1.0 \n",
"layvka = 1\n",
"iphdry = 0\n",
"hk = 0.1\n",
"hani = 1\n",
"vka = 1.\n",
"ss = 0.000001\n",
"sy = 0.20\n",
"hdry = -888\n",
"\n",
"upw = flopy.modflow.ModflowUpw(mf, laytyp=laytyp, layavg=layavg, chani=chani, layvka=layvka,\n",
" ipakcb=53, hdry=hdry, iphdry=iphdry, hk=hk, hani=hani,\n",
" vka=vka, ss=ss, sy=sy)\n",
" \n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate basic (BAS or BA6) package for MODFLOW-NWT"
]
},
{
"cell_type": "code",
"execution_count": 8,
"metadata": {},
"outputs": [],
"source": [
"# Create a flopy basic package object \n",
"def calc_strtElev(X, Y): \n",
" return 99.5 - (np.ceil(X)-1) * 0.0001\n",
"\n",
"ibound = np.ones((nlay, nrow, ncol))\n",
"ibound[:,0,:] *= -1\n",
"ibound[:,2,:] *= -1\n",
"\n",
"strtElev = calc_strtElev(X, Y)\n",
"\n",
"bas = flopy.modflow.ModflowBas(mf, ibound=ibound, hnoflo=hdry, strt=strtElev)\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate streamflow routing (SFR2) package for MODFLOW-NWT"
]
},
{
"cell_type": "code",
"execution_count": 9,
"metadata": {},
"outputs": [],
"source": [
"# Streamflow Routing Package: Try and set up with minimal options in use\n",
"# 9 11 IFACE # Data Set 1: ISTCB1 ISTCB2\n",
"\n",
"nstrm = ncol \n",
"nss = 6 \n",
"const = 1.0 \n",
"dleak = 0.0001\n",
"istcb1 = -10 \n",
"istcb2 = 11 \n",
"isfropt = 1 \n",
"\n",
"segment_data = None\n",
"channel_geometry_data = None\n",
"channel_flow_data = None\n",
"dataset_5 = None\n",
"reachinput = True\n",
"\n",
"\n",
"# The next couple of lines set up the reach_data for the 30x100 hypothetical model.\n",
"# Will need to adjust the row based on which grid discretization we're doing.\n",
"# Ensure that the stream goes down one of the middle rows of the model.\n",
"\n",
"strmBed_Elev = 98.75 - (np.ceil(X[1,:])-1) * 0.0001\n",
"\n",
"s1 = 'k,i,j,iseg,ireach,rchlen,strtop,slope,strthick,strhc1\\n'\n",
"iseg = 0\n",
"irch = 0\n",
"\n",
"for y in range(ncol):\n",
" if y <= 37:\n",
" if iseg == 0:\n",
" irch = 1\n",
" else:\n",
" irch += 1\n",
" iseg = 1\n",
" strhc1 = 1.0e-10\n",
" elif y <= 104:\n",
" if iseg == 1:\n",
" irch = 1\n",
" else:\n",
" irch += 1\n",
" iseg = 2\n",
" strhc1 = 1.0e-10\n",
" elif y <= 280:\n",
" if iseg == 2:\n",
" irch = 1\n",
" else:\n",
" irch += 1\n",
" iseg = 3\n",
" strhc1 = 2.946219199e-6\n",
" elif y <= 432:\n",
" if iseg == 3:\n",
" irch = 1\n",
" else:\n",
" irch += 1\n",
" iseg = 4\n",
" strhc1 = 1.375079882e-6\n",
" elif y <= 618:\n",
" if iseg == 4:\n",
" irch = 1\n",
" else:\n",
" irch += 1\n",
" iseg = 5\n",
" strhc1 = 1.764700062e-6\n",
" else:\n",
" if iseg == 5:\n",
" irch = 1\n",
" else:\n",
" irch += 1\n",
" iseg = 6\n",
" strhc1 = 1e-10\n",
" \n",
" # remember that lay, row, col need to be zero-based and are adjusted accordingly by flopy\n",
" # layer + row + col + iseg + irch + rchlen + strtop + slope + strthick + strmbed K\n",
" s1 += '0,{}'.format(1)\n",
" s1 += ',{}'.format(y)\n",
" s1 += ',{}'.format(iseg)\n",
" s1 += ',{}'.format(irch)\n",
" s1 += ',{}'.format(delr)\n",
" s1 += ',{}'.format(strmBed_Elev[y])\n",
" s1 += ',{}'.format(0.0001)\n",
" s1 += ',{}'.format(0.50)\n",
" s1 += ',{}\\n'.format(strhc1)\n",
"\n",
"\n",
"if not os.path.exists('data'):\n",
" os.mkdir('data')\n",
"\n",
"fpth = os.path.join('data', 's1.csv')\n",
"f = open(fpth, 'w')\n",
"f.write(s1)\n",
"f.close()\n",
"\n",
"dtype = [('k', '<i4'), ('i', '<i4'), ('j', '<i4'), ('iseg', '<i4'), \n",
" ('ireach', '<f8'), ('rchlen', '<f8'), ('strtop', '<f8'), \n",
" ('slope', '<f8'), ('strthick', '<f8'), ('strhc1', '<f8')]\n",
"\n",
"if (sys.version_info > (3, 0)):\n",
" f = open(fpth, 'rb')\n",
"else:\n",
" f = open(fpth, 'r')\n",
"\n",
"reach_data = np.genfromtxt(f, delimiter=',', names=True, dtype=dtype)\n",
"f.close()\n",
"\n",
"s2 = \"nseg,icalc,outseg,iupseg,nstrpts, flow,runoff,etsw,pptsw, roughch, roughbk,cdpth,fdpth,awdth,bwdth,width1,width2\\n \\\n",
" 1, 1, 2, 0, 0, 0.0125, 0.0, 0.0, 0.0, 0.082078856000, 0.082078856000, 0.0, 0.0, 0.0, 0.0, 1.5, 1.5\\n \\\n",
" 2, 1, 3, 0, 0, 0.0, 0.0, 0.0, 0.0, 0.143806300000, 0.143806300000, 0.0, 0.0, 0.0, 0.0, 1.5, 1.5\\n \\\n",
" 3, 1, 4, 0, 0, 0.0, 0.0, 0.0, 0.0, 0.104569661821, 0.104569661821, 0.0, 0.0, 0.0, 0.0, 1.5, 1.5\\n \\\n",
" 4, 1, 5, 0, 0, 0.0, 0.0, 0.0, 0.0, 0.126990045841, 0.126990045841, 0.0, 0.0, 0.0, 0.0, 1.5, 1.5\\n \\\n",
" 5, 1, 6, 0, 0, 0.0, 0.0, 0.0, 0.0, 0.183322283828, 0.183322283828, 0.0, 0.0, 0.0, 0.0, 1.5, 1.5\\n \\\n",
" 6, 1, 0, 0, 0, 0.0, 0.0, 0.0, 0.0, 0.183322283828, 0.183322283828, 0.0, 0.0, 0.0, 0.0, 1.5, 1.5\"\n",
"\n",
"fpth = os.path.join('data', 's2.csv')\n",
"f = open(fpth, 'w')\n",
"f.write(s2)\n",
"f.close()\n",
"\n",
"if (sys.version_info > (3, 0)):\n",
" f = open(fpth, 'rb')\n",
"else:\n",
" f = open(fpth, 'r')\n",
"\n",
"segment_data = np.genfromtxt(f, delimiter=',',names=True)\n",
"f.close()\n",
"\n",
"# Be sure to convert segment_data to a dictionary keyed on stress period.\n",
"segment_data = np.atleast_1d(segment_data) \n",
"segment_data = {0: segment_data, \n",
" 1: segment_data,\n",
" 2: segment_data}\n",
" \n",
"# There are 3 stress periods\n",
"dataset_5 = {0: [nss, 0, 0],\n",
" 1: [nss, 0, 0],\n",
" 2: [nss, 0, 0]}\n",
" \n",
"sfr = flopy.modflow.ModflowSfr2(mf, nstrm=nstrm, nss=nss, const=const, dleak=dleak, isfropt=isfropt, istcb2=0,\n",
" reachinput=True, reach_data=reach_data, dataset_5=dataset_5,\n",
" segment_data=segment_data, channel_geometry_data=channel_geometry_data)\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate gage package for use with MODFLOW-NWT package"
]
},
{
"cell_type": "code",
"execution_count": 10,
"metadata": {},
"outputs": [],
"source": [
"gages = [[1,38,61,1],[2,67,62,1], [3,176,63,1], [4,152,64,1], [5,186,65,1], [6,31,66,1]]\n",
"files = ['CrnkNic.gage','CrnkNic.gag1','CrnkNic.gag2','CrnkNic.gag3','CrnkNic.gag4','CrnkNic.gag5',\n",
" 'CrnkNic.gag6']\n",
"gage = flopy.modflow.ModflowGage(mf, numgage=6, gage_data=gages, filenames = files)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate linkage with mass transport routing (LMT) package for MODFLOW-NWT (generates linker file)"
]
},
{
"cell_type": "code",
"execution_count": 11,
"metadata": {},
"outputs": [],
"source": [
"lmt = flopy.modflow.ModflowLmt(mf, output_file_name='CrnkNic.ftl', output_file_header='extended',\n",
" output_file_format='formatted', package_flows = ['sfr'])"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Write the MODFLOW input files"
]
},
{
"cell_type": "code",
"execution_count": 12,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"/Users/jdhughes/Documents/Development/flopy_git/flopy_fork/examples/Notebooks\n",
"FloPy is using the following executable to run the model: /Users/jdhughes/.local/bin/mfnwt\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"\n",
" MODFLOW-NWT-SWR1 \n",
" U.S. GEOLOGICAL SURVEY MODULAR FINITE-DIFFERENCE GROUNDWATER-FLOW MODEL\n",
" WITH NEWTON FORMULATION\n",
" Version 1.2.0 03/01/2020 \n",
" BASED ON MODFLOW-2005 Version 1.12.0 02/03/2017 \n",
"\n",
" SWR1 Version 1.04.0 09/15/2016 \n",
"\n",
" Using NAME file: CrnkNic.nam \n",
" Run start date and time (yyyy/mm/dd hh:mm:ss): 2021/02/18 11:26:13\n",
"\n",
" Solving: Stress period: 1 Time step: 1 Groundwater-Flow Eqn.\n",
" Solving: Stress period: 2 Time step: 1 Groundwater-Flow Eqn.\n",
" Solving: Stress period: 3 Time step: 1 Groundwater-Flow Eqn.\n",
" Run end date and time (yyyy/mm/dd hh:mm:ss): 2021/02/18 11:26:13\n",
" Elapsed run time: 0.093 Seconds\n",
"\n",
" Normal termination of simulation\n"
]
},
{
"data": {
"text/plain": [
"(True, [])"
]
},
"execution_count": 12,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"pth = os.getcwd()\n",
"print(pth)\n",
"\n",
"mf.write_input()\n",
"\n",
"# run the model\n",
"mf.run_model()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Now draft up MT3D-USGS input files. "
]
},
{
"cell_type": "code",
"execution_count": 13,
"metadata": {},
"outputs": [],
"source": [
"# Instantiate MT3D-USGS object in flopy\n",
"mt = flopy.mt3d.Mt3dms(modflowmodel=mf, modelname=modelname, model_ws=modelpth,\n",
" version='mt3d-usgs', namefile_ext='mtnam', exe_name=mtexe,\n",
" ftlfilename='CrnkNic.ftl', ftlfree=True)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate basic transport (BTN) package for MT3D-USGS"
]
},
{
"cell_type": "code",
"execution_count": 14,
"metadata": {},
"outputs": [],
"source": [
"btn = flopy.mt3d.Mt3dBtn(mt, sconc=3.7, ncomp=1, prsity=0.2, cinact=-1.0, \n",
" thkmin=0.001, nprs=-1, nprobs=10, chkmas=True, \n",
" nprmas=10, dt0=180, mxstrn=2500)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate advection (ADV) package for MT3D-USGS"
]
},
{
"cell_type": "code",
"execution_count": 15,
"metadata": {},
"outputs": [],
"source": [
"adv = flopy.mt3d.Mt3dAdv(mt, mixelm=0, percel=1.00, mxpart=5000, nadvfd=1)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instatiate generalized conjugate gradient solver (GCG) package for MT3D-USGS"
]
},
{
"cell_type": "code",
"execution_count": 16,
"metadata": {},
"outputs": [],
"source": [
"rct = flopy.mt3d.Mt3dRct(mt,isothm=0,ireact=100,igetsc=0,rc1=0.01)"
]
},
{
"cell_type": "code",
"execution_count": 17,
"metadata": {},
"outputs": [],
"source": [
"gcg = flopy.mt3d.Mt3dGcg(mt, mxiter=10, iter1=50, isolve=3, ncrs=0,\n",
" accl=1, cclose=1e-6, iprgcg=1)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate source-sink mixing (SSM) package for MT3D-USGS"
]
},
{
"cell_type": "code",
"execution_count": 18,
"metadata": {},
"outputs": [],
"source": [
"# For SSM, need to set the constant head boundary conditions to the ambient concentration\n",
"# for all 1,300 constant head boundary cells.\n",
"\n",
"itype = flopy.mt3d.Mt3dSsm.itype_dict()\n",
"ssm_data = {}\n",
"ssm_data[0] = [(0, 0, 0, 3.7, itype['CHD'])]\n",
"ssm_data[0].append((0, 2, 0, 3.7, itype['CHD']))\n",
"for i in [0,2]:\n",
" for j in range(1, ncol):\n",
" ssm_data[0].append((0, i, j, 3.7, itype['CHD']))\n",
"\n",
"ssm = flopy.mt3d.Mt3dSsm(mt, stress_period_data=ssm_data)\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Instantiate streamflow transport (SFT) package for MT3D-USGS"
]
},
{
"cell_type": "code",
"execution_count": 19,
"metadata": {},
"outputs": [],
"source": [
"dispsf = []\n",
"for y in range(ncol):\n",
" if y <= 37:\n",
" dispsf.append(0.12)\n",
" elif y <= 104:\n",
" dispsf.append(0.15)\n",
" elif y <= 280:\n",
" dispsf.append(0.24)\n",
" elif y <= 432:\n",
" dispsf.append(0.31)\n",
" elif y <= 618:\n",
" dispsf.append(0.40)\n",
" else:\n",
" dispsf.append(0.40)\n",
"\n",
"# Enter a list of the observation points\n",
"# Each observation is taken as the last reach within the first 5 segments\n",
"\n",
"seg_len = np.unique(reach_data['iseg'], return_counts=True)\n",
"obs_sf = np.cumsum(seg_len[1])\n",
"obs_sf = obs_sf.tolist()\n",
"\n",
"# The last reach is not an observation point, therefore drop\n",
"obs_sf.pop(-1)\n",
"\n",
"# In the first and last stress periods, concentration at the headwater is 3.7\n",
"sf_stress_period_data = {0: [0, 0, 3.7],\n",
" 1: [0, 0, 11.4],\n",
" 2: [0, 0, 3.7]}\n",
"\n",
"gage_output = [None, None, 'CrnkNic.sftobs']\n",
"\n",
"sft = flopy.mt3d.Mt3dSft(mt, nsfinit=650, mxsfbc=650, icbcsf=81, ioutobs=82,\n",
" isfsolv=1, cclosesf=1.0E-6, mxitersf=10, crntsf=1.0, iprtxmd=0,\n",
" coldsf=3.7, dispsf=dispsf, nobssf=5, obs_sf=obs_sf,\n",
" sf_stress_period_data = sf_stress_period_data,\n",
" filenames=gage_output)\n",
"\n",
"sft.dispsf[0].format.fortran = \"(10E15.6)\""
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Write the MT3D-USGS input files"
]
},
{
"cell_type": "code",
"execution_count": 20,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"FloPy is using the following executable to run the model: /Users/jdhughes/.local/bin/mt3dusgs\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"\n",
" MT3D-USGS - Modular 3D Multi-Species Transport Model [Ver 1.1.0] \n",
" and based on MT3DMS. MT3D-USGS developed in cooperation by \n",
" S.S. Papadopulos & Associates and the U.S. Geological Survey\n",
"\n",
" Using NAME File: CrnkNic.mtnam\n",
"\n",
" STRESS PERIOD NO. 1\n",
"\n",
" TIME STEP NO. 1\n",
" FROM TIME = 0.0000 TO 30600. \n",
"\n",
" Transport Step: 1 Step Size: 180.0 Total Elapsed Time: 180.00 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.4865 [K,I,J] 1 2 289\n",
" Outer Iter. 1 Inner Iter. 2: Max. DC = 0.5960E-07 [K,I,J] 1 1 36\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 2 Step Size: 180.0 Total Elapsed Time: 360.00 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.9385 [K,I,J] 1 2 394\n",
" Outer Iter. 1 Inner Iter. 2: Max. DC = 0.1788E-06 [K,I,J] 1 2 294\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.3934E-05 [K,I,J] 1 2 294\n",
" Outer Iter. 2 Inner Iter. 2: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 3 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 3 Step Size: 180.0 Total Elapsed Time: 540.00 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.7602 [K,I,J] 1 1 1\n",
" Outer Iter. 1 Inner Iter. 2: Max. DC = 0.1788E-06 [K,I,J] 1 2 2\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.8884E-06 [K,I,J] 1 1 642\n",
" Transport Step: 4 Step Size: 180.0 Total Elapsed Time: 720.00 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.3366E-03 [K,I,J] 1 2 1\n",
" Outer Iter. 1 Inner Iter. 2: Max. DC = 0.4657E-09 [K,I,J] 1 2 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 5 Step Size: 180.0 Total Elapsed Time: 900.00 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 6 Step Size: 180.0 Total Elapsed Time: 1080.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 7 Step Size: 180.0 Total Elapsed Time: 1260.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 8 Step Size: 180.0 Total Elapsed Time: 1440.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 9 Step Size: 180.0 Total Elapsed Time: 1620.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 10 Step Size: 180.0 Total Elapsed Time: 1800.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 11 Step Size: 180.0 Total Elapsed Time: 1980.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 12 Step Size: 180.0 Total Elapsed Time: 2160.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 13 Step Size: 180.0 Total Elapsed Time: 2340.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 14 Step Size: 180.0 Total Elapsed Time: 2520.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 15 Step Size: 180.0 Total Elapsed Time: 2700.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 16 Step Size: 180.0 Total Elapsed Time: 2880.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 17 Step Size: 180.0 Total Elapsed Time: 3060.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 18 Step Size: 180.0 Total Elapsed Time: 3240.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 19 Step Size: 180.0 Total Elapsed Time: 3420.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 20 Step Size: 180.0 Total Elapsed Time: 3600.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 21 Step Size: 180.0 Total Elapsed Time: 3780.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 22 Step Size: 180.0 Total Elapsed Time: 3960.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 23 Step Size: 180.0 Total Elapsed Time: 4140.0 \n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 24 Step Size: 180.0 Total Elapsed Time: 4320.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 25 Step Size: 180.0 Total Elapsed Time: 4500.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 26 Step Size: 180.0 Total Elapsed Time: 4680.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 27 Step Size: 180.0 Total Elapsed Time: 4860.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 28 Step Size: 180.0 Total Elapsed Time: 5040.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 29 Step Size: 180.0 Total Elapsed Time: 5220.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 30 Step Size: 180.0 Total Elapsed Time: 5400.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 31 Step Size: 180.0 Total Elapsed Time: 5580.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 32 Step Size: 180.0 Total Elapsed Time: 5760.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 33 Step Size: 180.0 Total Elapsed Time: 5940.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 34 Step Size: 180.0 Total Elapsed Time: 6120.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 35 Step Size: 180.0 Total Elapsed Time: 6300.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 36 Step Size: 180.0 Total Elapsed Time: 6480.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 37 Step Size: 180.0 Total Elapsed Time: 6660.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 38 Step Size: 180.0 Total Elapsed Time: 6840.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 39 Step Size: 180.0 Total Elapsed Time: 7020.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 40 Step Size: 180.0 Total Elapsed Time: 7200.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 41 Step Size: 180.0 Total Elapsed Time: 7380.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 42 Step Size: 180.0 Total Elapsed Time: 7560.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 43 Step Size: 180.0 Total Elapsed Time: 7740.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 44 Step Size: 180.0 Total Elapsed Time: 7920.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 45 Step Size: 180.0 Total Elapsed Time: 8100.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 46 Step Size: 180.0 Total Elapsed Time: 8280.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 47 Step Size: 180.0 Total Elapsed Time: 8460.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 48 Step Size: 180.0 Total Elapsed Time: 8640.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 49 Step Size: 180.0 Total Elapsed Time: 8820.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 50 Step Size: 180.0 Total Elapsed Time: 9000.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 51 Step Size: 180.0 Total Elapsed Time: 9180.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 52 Step Size: 180.0 Total Elapsed Time: 9360.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 53 Step Size: 180.0 Total Elapsed Time: 9540.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 54 Step Size: 180.0 Total Elapsed Time: 9720.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 55 Step Size: 180.0 Total Elapsed Time: 9900.0 \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 56 Step Size: 180.0 Total Elapsed Time: 10080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 57 Step Size: 180.0 Total Elapsed Time: 10260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 58 Step Size: 180.0 Total Elapsed Time: 10440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 59 Step Size: 180.0 Total Elapsed Time: 10620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 60 Step Size: 180.0 Total Elapsed Time: 10800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 61 Step Size: 180.0 Total Elapsed Time: 10980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 62 Step Size: 180.0 Total Elapsed Time: 11160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 63 Step Size: 180.0 Total Elapsed Time: 11340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 64 Step Size: 180.0 Total Elapsed Time: 11520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 65 Step Size: 180.0 Total Elapsed Time: 11700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 66 Step Size: 180.0 Total Elapsed Time: 11880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 67 Step Size: 180.0 Total Elapsed Time: 12060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 68 Step Size: 180.0 Total Elapsed Time: 12240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 69 Step Size: 180.0 Total Elapsed Time: 12420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 70 Step Size: 180.0 Total Elapsed Time: 12600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 71 Step Size: 180.0 Total Elapsed Time: 12780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 72 Step Size: 180.0 Total Elapsed Time: 12960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 73 Step Size: 180.0 Total Elapsed Time: 13140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 74 Step Size: 180.0 Total Elapsed Time: 13320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 75 Step Size: 180.0 Total Elapsed Time: 13500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 76 Step Size: 180.0 Total Elapsed Time: 13680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 77 Step Size: 180.0 Total Elapsed Time: 13860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 78 Step Size: 180.0 Total Elapsed Time: 14040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 79 Step Size: 180.0 Total Elapsed Time: 14220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 80 Step Size: 180.0 Total Elapsed Time: 14400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 81 Step Size: 180.0 Total Elapsed Time: 14580. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 82 Step Size: 180.0 Total Elapsed Time: 14760. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 83 Step Size: 180.0 Total Elapsed Time: 14940. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 84 Step Size: 180.0 Total Elapsed Time: 15120. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 85 Step Size: 180.0 Total Elapsed Time: 15300. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 86 Step Size: 180.0 Total Elapsed Time: 15480. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 87 Step Size: 180.0 Total Elapsed Time: 15660. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 88 Step Size: 180.0 Total Elapsed Time: 15840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 89 Step Size: 180.0 Total Elapsed Time: 16020. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 90 Step Size: 180.0 Total Elapsed Time: 16200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 91 Step Size: 180.0 Total Elapsed Time: 16380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 92 Step Size: 180.0 Total Elapsed Time: 16560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 93 Step Size: 180.0 Total Elapsed Time: 16740. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 94 Step Size: 180.0 Total Elapsed Time: 16920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 95 Step Size: 180.0 Total Elapsed Time: 17100. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 96 Step Size: 180.0 Total Elapsed Time: 17280. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 97 Step Size: 180.0 Total Elapsed Time: 17460. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 98 Step Size: 180.0 Total Elapsed Time: 17640. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 99 Step Size: 180.0 Total Elapsed Time: 17820. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 100 Step Size: 180.0 Total Elapsed Time: 18000. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 101 Step Size: 180.0 Total Elapsed Time: 18180. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 102 Step Size: 180.0 Total Elapsed Time: 18360. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 103 Step Size: 180.0 Total Elapsed Time: 18540. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 104 Step Size: 180.0 Total Elapsed Time: 18720. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 105 Step Size: 180.0 Total Elapsed Time: 18900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 106 Step Size: 180.0 Total Elapsed Time: 19080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 107 Step Size: 180.0 Total Elapsed Time: 19260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 108 Step Size: 180.0 Total Elapsed Time: 19440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 109 Step Size: 180.0 Total Elapsed Time: 19620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 110 Step Size: 180.0 Total Elapsed Time: 19800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 111 Step Size: 180.0 Total Elapsed Time: 19980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 112 Step Size: 180.0 Total Elapsed Time: 20160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 113 Step Size: 180.0 Total Elapsed Time: 20340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 114 Step Size: 180.0 Total Elapsed Time: 20520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 115 Step Size: 180.0 Total Elapsed Time: 20700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 116 Step Size: 180.0 Total Elapsed Time: 20880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 117 Step Size: 180.0 Total Elapsed Time: 21060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 118 Step Size: 180.0 Total Elapsed Time: 21240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 119 Step Size: 180.0 Total Elapsed Time: 21420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 120 Step Size: 180.0 Total Elapsed Time: 21600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 121 Step Size: 180.0 Total Elapsed Time: 21780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 122 Step Size: 180.0 Total Elapsed Time: 21960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 123 Step Size: 180.0 Total Elapsed Time: 22140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 124 Step Size: 180.0 Total Elapsed Time: 22320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 125 Step Size: 180.0 Total Elapsed Time: 22500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 126 Step Size: 180.0 Total Elapsed Time: 22680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 127 Step Size: 180.0 Total Elapsed Time: 22860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 128 Step Size: 180.0 Total Elapsed Time: 23040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 129 Step Size: 180.0 Total Elapsed Time: 23220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 130 Step Size: 180.0 Total Elapsed Time: 23400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 131 Step Size: 180.0 Total Elapsed Time: 23580. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 132 Step Size: 180.0 Total Elapsed Time: 23760. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 133 Step Size: 180.0 Total Elapsed Time: 23940. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 134 Step Size: 180.0 Total Elapsed Time: 24120. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 135 Step Size: 180.0 Total Elapsed Time: 24300. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 136 Step Size: 180.0 Total Elapsed Time: 24480. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 137 Step Size: 180.0 Total Elapsed Time: 24660. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 138 Step Size: 180.0 Total Elapsed Time: 24840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 139 Step Size: 180.0 Total Elapsed Time: 25020. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 140 Step Size: 180.0 Total Elapsed Time: 25200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 141 Step Size: 180.0 Total Elapsed Time: 25380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 142 Step Size: 180.0 Total Elapsed Time: 25560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 143 Step Size: 180.0 Total Elapsed Time: 25740. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 144 Step Size: 180.0 Total Elapsed Time: 25920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 145 Step Size: 180.0 Total Elapsed Time: 26100. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 146 Step Size: 180.0 Total Elapsed Time: 26280. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 147 Step Size: 180.0 Total Elapsed Time: 26460. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 148 Step Size: 180.0 Total Elapsed Time: 26640. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 149 Step Size: 180.0 Total Elapsed Time: 26820. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 150 Step Size: 180.0 Total Elapsed Time: 27000. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 151 Step Size: 180.0 Total Elapsed Time: 27180. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 152 Step Size: 180.0 Total Elapsed Time: 27360. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 153 Step Size: 180.0 Total Elapsed Time: 27540. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 154 Step Size: 180.0 Total Elapsed Time: 27720. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 155 Step Size: 180.0 Total Elapsed Time: 27900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 156 Step Size: 180.0 Total Elapsed Time: 28080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 157 Step Size: 180.0 Total Elapsed Time: 28260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 158 Step Size: 180.0 Total Elapsed Time: 28440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 159 Step Size: 180.0 Total Elapsed Time: 28620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 160 Step Size: 180.0 Total Elapsed Time: 28800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 161 Step Size: 180.0 Total Elapsed Time: 28980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 162 Step Size: 180.0 Total Elapsed Time: 29160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 163 Step Size: 180.0 Total Elapsed Time: 29340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 164 Step Size: 180.0 Total Elapsed Time: 29520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 165 Step Size: 180.0 Total Elapsed Time: 29700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 166 Step Size: 180.0 Total Elapsed Time: 29880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 167 Step Size: 180.0 Total Elapsed Time: 30060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 168 Step Size: 180.0 Total Elapsed Time: 30240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 169 Step Size: 180.0 Total Elapsed Time: 30420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 170 Step Size: 180.0 Total Elapsed Time: 30600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
"\n",
" STRESS PERIOD NO. 2\n",
"\n",
" TIME STEP NO. 1\n",
" FROM TIME = 30600. TO 41400. \n",
"\n",
" Transport Step: 1 Step Size: 180.0 Total Elapsed Time: 30780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.2062E-04 [K,I,J] 1 1 1\n",
" Outer Iter. 1 Inner Iter. 2: Max. DC = 0.6548E-10 [K,I,J] 1 2 3\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 2 Step Size: 180.0 Total Elapsed Time: 30960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 3 Step Size: 180.0 Total Elapsed Time: 31140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 4 Step Size: 180.0 Total Elapsed Time: 31320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 5 Step Size: 180.0 Total Elapsed Time: 31500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 6 Step Size: 180.0 Total Elapsed Time: 31680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 7 Step Size: 180.0 Total Elapsed Time: 31860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 8 Step Size: 180.0 Total Elapsed Time: 32040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 9 Step Size: 180.0 Total Elapsed Time: 32220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 10 Step Size: 180.0 Total Elapsed Time: 32400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 11 Step Size: 180.0 Total Elapsed Time: 32580. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 12 Step Size: 180.0 Total Elapsed Time: 32760. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 13 Step Size: 180.0 Total Elapsed Time: 32940. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 14 Step Size: 180.0 Total Elapsed Time: 33120. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 15 Step Size: 180.0 Total Elapsed Time: 33300. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 16 Step Size: 180.0 Total Elapsed Time: 33480. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 17 Step Size: 180.0 Total Elapsed Time: 33660. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 18 Step Size: 180.0 Total Elapsed Time: 33840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 19 Step Size: 180.0 Total Elapsed Time: 34020. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 20 Step Size: 180.0 Total Elapsed Time: 34200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 21 Step Size: 180.0 Total Elapsed Time: 34380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 22 Step Size: 180.0 Total Elapsed Time: 34560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 23 Step Size: 180.0 Total Elapsed Time: 34740. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 24 Step Size: 180.0 Total Elapsed Time: 34920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 25 Step Size: 180.0 Total Elapsed Time: 35100. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 26 Step Size: 180.0 Total Elapsed Time: 35280. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 27 Step Size: 180.0 Total Elapsed Time: 35460. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 28 Step Size: 180.0 Total Elapsed Time: 35640. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 29 Step Size: 180.0 Total Elapsed Time: 35820. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 30 Step Size: 180.0 Total Elapsed Time: 36000. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 31 Step Size: 180.0 Total Elapsed Time: 36180. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 32 Step Size: 180.0 Total Elapsed Time: 36360. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 33 Step Size: 180.0 Total Elapsed Time: 36540. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 34 Step Size: 180.0 Total Elapsed Time: 36720. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 35 Step Size: 180.0 Total Elapsed Time: 36900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 36 Step Size: 180.0 Total Elapsed Time: 37080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 37 Step Size: 180.0 Total Elapsed Time: 37260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 38 Step Size: 180.0 Total Elapsed Time: 37440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 39 Step Size: 180.0 Total Elapsed Time: 37620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 40 Step Size: 180.0 Total Elapsed Time: 37800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 41 Step Size: 180.0 Total Elapsed Time: 37980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 42 Step Size: 180.0 Total Elapsed Time: 38160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 43 Step Size: 180.0 Total Elapsed Time: 38340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 44 Step Size: 180.0 Total Elapsed Time: 38520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 45 Step Size: 180.0 Total Elapsed Time: 38700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 46 Step Size: 180.0 Total Elapsed Time: 38880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 47 Step Size: 180.0 Total Elapsed Time: 39060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 48 Step Size: 180.0 Total Elapsed Time: 39240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 49 Step Size: 180.0 Total Elapsed Time: 39420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 50 Step Size: 180.0 Total Elapsed Time: 39600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 51 Step Size: 180.0 Total Elapsed Time: 39780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 52 Step Size: 180.0 Total Elapsed Time: 39960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 53 Step Size: 180.0 Total Elapsed Time: 40140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 54 Step Size: 180.0 Total Elapsed Time: 40320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 55 Step Size: 180.0 Total Elapsed Time: 40500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 56 Step Size: 180.0 Total Elapsed Time: 40680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 57 Step Size: 180.0 Total Elapsed Time: 40860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 58 Step Size: 180.0 Total Elapsed Time: 41040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 59 Step Size: 180.0 Total Elapsed Time: 41220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 60 Step Size: 180.0 Total Elapsed Time: 41400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
"\n",
" STRESS PERIOD NO. 3\n",
"\n",
" TIME STEP NO. 1\n",
" FROM TIME = 41400. TO 86400. \n",
"\n",
" Transport Step: 1 Step Size: 180.0 Total Elapsed Time: 41580. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 2 Step Size: 180.0 Total Elapsed Time: 41760. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 3 Step Size: 180.0 Total Elapsed Time: 41940. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 4 Step Size: 180.0 Total Elapsed Time: 42120. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 5 Step Size: 180.0 Total Elapsed Time: 42300. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Transport Step: 6 Step Size: 180.0 Total Elapsed Time: 42480. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 7 Step Size: 180.0 Total Elapsed Time: 42660. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 8 Step Size: 180.0 Total Elapsed Time: 42840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 9 Step Size: 180.0 Total Elapsed Time: 43020. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 10 Step Size: 180.0 Total Elapsed Time: 43200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 11 Step Size: 180.0 Total Elapsed Time: 43380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 12 Step Size: 180.0 Total Elapsed Time: 43560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 13 Step Size: 180.0 Total Elapsed Time: 43740. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 14 Step Size: 180.0 Total Elapsed Time: 43920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 15 Step Size: 180.0 Total Elapsed Time: 44100. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 16 Step Size: 180.0 Total Elapsed Time: 44280. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 17 Step Size: 180.0 Total Elapsed Time: 44460. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 18 Step Size: 180.0 Total Elapsed Time: 44640. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 19 Step Size: 180.0 Total Elapsed Time: 44820. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 20 Step Size: 180.0 Total Elapsed Time: 45000. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 21 Step Size: 180.0 Total Elapsed Time: 45180. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 22 Step Size: 180.0 Total Elapsed Time: 45360. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 23 Step Size: 180.0 Total Elapsed Time: 45540. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 24 Step Size: 180.0 Total Elapsed Time: 45720. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 25 Step Size: 180.0 Total Elapsed Time: 45900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 26 Step Size: 180.0 Total Elapsed Time: 46080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 27 Step Size: 180.0 Total Elapsed Time: 46260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 28 Step Size: 180.0 Total Elapsed Time: 46440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 29 Step Size: 180.0 Total Elapsed Time: 46620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 30 Step Size: 180.0 Total Elapsed Time: 46800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 31 Step Size: 180.0 Total Elapsed Time: 46980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 32 Step Size: 180.0 Total Elapsed Time: 47160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Transport Step: 33 Step Size: 180.0 Total Elapsed Time: 47340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 34 Step Size: 180.0 Total Elapsed Time: 47520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 35 Step Size: 180.0 Total Elapsed Time: 47700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 36 Step Size: 180.0 Total Elapsed Time: 47880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 37 Step Size: 180.0 Total Elapsed Time: 48060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 38 Step Size: 180.0 Total Elapsed Time: 48240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 39 Step Size: 180.0 Total Elapsed Time: 48420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 40 Step Size: 180.0 Total Elapsed Time: 48600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 41 Step Size: 180.0 Total Elapsed Time: 48780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 42 Step Size: 180.0 Total Elapsed Time: 48960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 43 Step Size: 180.0 Total Elapsed Time: 49140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 44 Step Size: 180.0 Total Elapsed Time: 49320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 45 Step Size: 180.0 Total Elapsed Time: 49500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 46 Step Size: 180.0 Total Elapsed Time: 49680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 47 Step Size: 180.0 Total Elapsed Time: 49860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 48 Step Size: 180.0 Total Elapsed Time: 50040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 49 Step Size: 180.0 Total Elapsed Time: 50220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 50 Step Size: 180.0 Total Elapsed Time: 50400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 51 Step Size: 180.0 Total Elapsed Time: 50580. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 52 Step Size: 180.0 Total Elapsed Time: 50760. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 53 Step Size: 180.0 Total Elapsed Time: 50940. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 54 Step Size: 180.0 Total Elapsed Time: 51120. \n",
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" Transport Step: 55 Step Size: 180.0 Total Elapsed Time: 51300. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 56 Step Size: 180.0 Total Elapsed Time: 51480. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
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" Transport Step: 57 Step Size: 180.0 Total Elapsed Time: 51660. \n",
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" Transport Step: 58 Step Size: 180.0 Total Elapsed Time: 51840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 59 Step Size: 180.0 Total Elapsed Time: 52020. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 60 Step Size: 180.0 Total Elapsed Time: 52200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 61 Step Size: 180.0 Total Elapsed Time: 52380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 62 Step Size: 180.0 Total Elapsed Time: 52560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 63 Step Size: 180.0 Total Elapsed Time: 52740. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 64 Step Size: 180.0 Total Elapsed Time: 52920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
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" Transport Step: 65 Step Size: 180.0 Total Elapsed Time: 53100. \n",
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" Transport Step: 66 Step Size: 180.0 Total Elapsed Time: 53280. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 67 Step Size: 180.0 Total Elapsed Time: 53460. \n",
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" Transport Step: 68 Step Size: 180.0 Total Elapsed Time: 53640. \n",
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" Transport Step: 69 Step Size: 180.0 Total Elapsed Time: 53820. \n",
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" Transport Step: 70 Step Size: 180.0 Total Elapsed Time: 54000. \n",
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" Transport Step: 71 Step Size: 180.0 Total Elapsed Time: 54180. \n",
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" Transport Step: 72 Step Size: 180.0 Total Elapsed Time: 54360. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 73 Step Size: 180.0 Total Elapsed Time: 54540. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 74 Step Size: 180.0 Total Elapsed Time: 54720. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 75 Step Size: 180.0 Total Elapsed Time: 54900. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 76 Step Size: 180.0 Total Elapsed Time: 55080. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 77 Step Size: 180.0 Total Elapsed Time: 55260. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 78 Step Size: 180.0 Total Elapsed Time: 55440. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 79 Step Size: 180.0 Total Elapsed Time: 55620. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 80 Step Size: 180.0 Total Elapsed Time: 55800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 81 Step Size: 180.0 Total Elapsed Time: 55980. \n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 82 Step Size: 180.0 Total Elapsed Time: 56160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 83 Step Size: 180.0 Total Elapsed Time: 56340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 84 Step Size: 180.0 Total Elapsed Time: 56520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 85 Step Size: 180.0 Total Elapsed Time: 56700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 86 Step Size: 180.0 Total Elapsed Time: 56880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 87 Step Size: 180.0 Total Elapsed Time: 57060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 88 Step Size: 180.0 Total Elapsed Time: 57240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 89 Step Size: 180.0 Total Elapsed Time: 57420. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 90 Step Size: 180.0 Total Elapsed Time: 57600. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 91 Step Size: 180.0 Total Elapsed Time: 57780. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 92 Step Size: 180.0 Total Elapsed Time: 57960. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 93 Step Size: 180.0 Total Elapsed Time: 58140. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 94 Step Size: 180.0 Total Elapsed Time: 58320. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 95 Step Size: 180.0 Total Elapsed Time: 58500. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 96 Step Size: 180.0 Total Elapsed Time: 58680. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 97 Step Size: 180.0 Total Elapsed Time: 58860. \n",
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" Transport Step: 98 Step Size: 180.0 Total Elapsed Time: 59040. \n",
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" Transport Step: 99 Step Size: 180.0 Total Elapsed Time: 59220. \n",
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" Transport Step: 100 Step Size: 180.0 Total Elapsed Time: 59400. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 101 Step Size: 180.0 Total Elapsed Time: 59580. \n",
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" Transport Step: 102 Step Size: 180.0 Total Elapsed Time: 59760. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 103 Step Size: 180.0 Total Elapsed Time: 59940. \n",
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" Transport Step: 104 Step Size: 180.0 Total Elapsed Time: 60120. \n",
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" Transport Step: 105 Step Size: 180.0 Total Elapsed Time: 60300. \n",
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" Transport Step: 106 Step Size: 180.0 Total Elapsed Time: 60480. \n",
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" Transport Step: 107 Step Size: 180.0 Total Elapsed Time: 60660. \n",
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" Transport Step: 108 Step Size: 180.0 Total Elapsed Time: 60840. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 109 Step Size: 180.0 Total Elapsed Time: 61020. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 110 Step Size: 180.0 Total Elapsed Time: 61200. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 111 Step Size: 180.0 Total Elapsed Time: 61380. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 112 Step Size: 180.0 Total Elapsed Time: 61560. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 113 Step Size: 180.0 Total Elapsed Time: 61740. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 114 Step Size: 180.0 Total Elapsed Time: 61920. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 115 Step Size: 180.0 Total Elapsed Time: 62100. \n",
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" Transport Step: 116 Step Size: 180.0 Total Elapsed Time: 62280. \n",
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" Transport Step: 117 Step Size: 180.0 Total Elapsed Time: 62460. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 118 Step Size: 180.0 Total Elapsed Time: 62640. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 119 Step Size: 180.0 Total Elapsed Time: 62820. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 120 Step Size: 180.0 Total Elapsed Time: 63000. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 121 Step Size: 180.0 Total Elapsed Time: 63180. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 122 Step Size: 180.0 Total Elapsed Time: 63360. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 123 Step Size: 180.0 Total Elapsed Time: 63540. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 124 Step Size: 180.0 Total Elapsed Time: 63720. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 125 Step Size: 180.0 Total Elapsed Time: 63900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 126 Step Size: 180.0 Total Elapsed Time: 64080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 127 Step Size: 180.0 Total Elapsed Time: 64260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 128 Step Size: 180.0 Total Elapsed Time: 64440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 129 Step Size: 180.0 Total Elapsed Time: 64620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 130 Step Size: 180.0 Total Elapsed Time: 64800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 131 Step Size: 180.0 Total Elapsed Time: 64980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 132 Step Size: 180.0 Total Elapsed Time: 65160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 133 Step Size: 180.0 Total Elapsed Time: 65340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 134 Step Size: 180.0 Total Elapsed Time: 65520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 135 Step Size: 180.0 Total Elapsed Time: 65700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 136 Step Size: 180.0 Total Elapsed Time: 65880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 137 Step Size: 180.0 Total Elapsed Time: 66060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 138 Step Size: 180.0 Total Elapsed Time: 66240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 139 Step Size: 180.0 Total Elapsed Time: 66420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 140 Step Size: 180.0 Total Elapsed Time: 66600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 141 Step Size: 180.0 Total Elapsed Time: 66780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 142 Step Size: 180.0 Total Elapsed Time: 66960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 143 Step Size: 180.0 Total Elapsed Time: 67140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 144 Step Size: 180.0 Total Elapsed Time: 67320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 145 Step Size: 180.0 Total Elapsed Time: 67500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 146 Step Size: 180.0 Total Elapsed Time: 67680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 147 Step Size: 180.0 Total Elapsed Time: 67860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 148 Step Size: 180.0 Total Elapsed Time: 68040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 149 Step Size: 180.0 Total Elapsed Time: 68220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 150 Step Size: 180.0 Total Elapsed Time: 68400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 151 Step Size: 180.0 Total Elapsed Time: 68580. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 152 Step Size: 180.0 Total Elapsed Time: 68760. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 153 Step Size: 180.0 Total Elapsed Time: 68940. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 154 Step Size: 180.0 Total Elapsed Time: 69120. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 155 Step Size: 180.0 Total Elapsed Time: 69300. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 156 Step Size: 180.0 Total Elapsed Time: 69480. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 157 Step Size: 180.0 Total Elapsed Time: 69660. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 158 Step Size: 180.0 Total Elapsed Time: 69840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 159 Step Size: 180.0 Total Elapsed Time: 70020. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 160 Step Size: 180.0 Total Elapsed Time: 70200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 161 Step Size: 180.0 Total Elapsed Time: 70380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 162 Step Size: 180.0 Total Elapsed Time: 70560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 163 Step Size: 180.0 Total Elapsed Time: 70740. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 164 Step Size: 180.0 Total Elapsed Time: 70920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 165 Step Size: 180.0 Total Elapsed Time: 71100. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 166 Step Size: 180.0 Total Elapsed Time: 71280. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 167 Step Size: 180.0 Total Elapsed Time: 71460. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 168 Step Size: 180.0 Total Elapsed Time: 71640. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 169 Step Size: 180.0 Total Elapsed Time: 71820. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 170 Step Size: 180.0 Total Elapsed Time: 72000. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 171 Step Size: 180.0 Total Elapsed Time: 72180. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 172 Step Size: 180.0 Total Elapsed Time: 72360. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 173 Step Size: 180.0 Total Elapsed Time: 72540. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 174 Step Size: 180.0 Total Elapsed Time: 72720. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 175 Step Size: 180.0 Total Elapsed Time: 72900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
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" Transport Step: 176 Step Size: 180.0 Total Elapsed Time: 73080. \n",
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" Transport Step: 177 Step Size: 180.0 Total Elapsed Time: 73260. \n",
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" Transport Step: 178 Step Size: 180.0 Total Elapsed Time: 73440. \n",
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" Transport Step: 179 Step Size: 180.0 Total Elapsed Time: 73620. \n",
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" Transport Step: 180 Step Size: 180.0 Total Elapsed Time: 73800. \n",
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" Transport Step: 181 Step Size: 180.0 Total Elapsed Time: 73980. \n",
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" Transport Step: 182 Step Size: 180.0 Total Elapsed Time: 74160. \n",
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" Transport Step: 183 Step Size: 180.0 Total Elapsed Time: 74340. \n",
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" Transport Step: 184 Step Size: 180.0 Total Elapsed Time: 74520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
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" Transport Step: 185 Step Size: 180.0 Total Elapsed Time: 74700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
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" Transport Step: 186 Step Size: 180.0 Total Elapsed Time: 74880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 187 Step Size: 180.0 Total Elapsed Time: 75060. \n",
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" Transport Step: 188 Step Size: 180.0 Total Elapsed Time: 75240. \n",
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" Transport Step: 189 Step Size: 180.0 Total Elapsed Time: 75420. \n",
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" Transport Step: 190 Step Size: 180.0 Total Elapsed Time: 75600. \n",
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" Transport Step: 191 Step Size: 180.0 Total Elapsed Time: 75780. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 192 Step Size: 180.0 Total Elapsed Time: 75960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 193 Step Size: 180.0 Total Elapsed Time: 76140. \n",
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" Transport Step: 194 Step Size: 180.0 Total Elapsed Time: 76320. \n",
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" Transport Step: 195 Step Size: 180.0 Total Elapsed Time: 76500. \n",
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" Transport Step: 196 Step Size: 180.0 Total Elapsed Time: 76680. \n",
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" Transport Step: 197 Step Size: 180.0 Total Elapsed Time: 76860. \n",
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" Transport Step: 198 Step Size: 180.0 Total Elapsed Time: 77040. \n",
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" Transport Step: 199 Step Size: 180.0 Total Elapsed Time: 77220. \n",
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" Transport Step: 200 Step Size: 180.0 Total Elapsed Time: 77400. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 201 Step Size: 180.0 Total Elapsed Time: 77580. \n",
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" Transport Step: 202 Step Size: 180.0 Total Elapsed Time: 77760. \n",
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" Transport Step: 203 Step Size: 180.0 Total Elapsed Time: 77940. \n",
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" Transport Step: 204 Step Size: 180.0 Total Elapsed Time: 78120. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 205 Step Size: 180.0 Total Elapsed Time: 78300. \n",
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" Transport Step: 206 Step Size: 180.0 Total Elapsed Time: 78480. \n",
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" Transport Step: 207 Step Size: 180.0 Total Elapsed Time: 78660. \n",
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" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
" Transport Step: 208 Step Size: 180.0 Total Elapsed Time: 78840. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 209 Step Size: 180.0 Total Elapsed Time: 79020. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 210 Step Size: 180.0 Total Elapsed Time: 79200. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 211 Step Size: 180.0 Total Elapsed Time: 79380. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 212 Step Size: 180.0 Total Elapsed Time: 79560. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 213 Step Size: 180.0 Total Elapsed Time: 79740. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 214 Step Size: 180.0 Total Elapsed Time: 79920. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 215 Step Size: 180.0 Total Elapsed Time: 80100. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 216 Step Size: 180.0 Total Elapsed Time: 80280. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 217 Step Size: 180.0 Total Elapsed Time: 80460. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 218 Step Size: 180.0 Total Elapsed Time: 80640. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 219 Step Size: 180.0 Total Elapsed Time: 80820. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 220 Step Size: 180.0 Total Elapsed Time: 81000. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 221 Step Size: 180.0 Total Elapsed Time: 81180. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 222 Step Size: 180.0 Total Elapsed Time: 81360. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 223 Step Size: 180.0 Total Elapsed Time: 81540. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 224 Step Size: 180.0 Total Elapsed Time: 81720. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 225 Step Size: 180.0 Total Elapsed Time: 81900. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 226 Step Size: 180.0 Total Elapsed Time: 82080. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 227 Step Size: 180.0 Total Elapsed Time: 82260. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 228 Step Size: 180.0 Total Elapsed Time: 82440. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 229 Step Size: 180.0 Total Elapsed Time: 82620. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 230 Step Size: 180.0 Total Elapsed Time: 82800. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 231 Step Size: 180.0 Total Elapsed Time: 82980. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 232 Step Size: 180.0 Total Elapsed Time: 83160. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 233 Step Size: 180.0 Total Elapsed Time: 83340. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 234 Step Size: 180.0 Total Elapsed Time: 83520. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 235 Step Size: 180.0 Total Elapsed Time: 83700. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 236 Step Size: 180.0 Total Elapsed Time: 83880. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 237 Step Size: 180.0 Total Elapsed Time: 84060. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 238 Step Size: 180.0 Total Elapsed Time: 84240. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 239 Step Size: 180.0 Total Elapsed Time: 84420. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 240 Step Size: 180.0 Total Elapsed Time: 84600. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 241 Step Size: 180.0 Total Elapsed Time: 84780. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 242 Step Size: 180.0 Total Elapsed Time: 84960. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 243 Step Size: 180.0 Total Elapsed Time: 85140. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 244 Step Size: 180.0 Total Elapsed Time: 85320. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 245 Step Size: 180.0 Total Elapsed Time: 85500. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 246 Step Size: 180.0 Total Elapsed Time: 85680. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 247 Step Size: 180.0 Total Elapsed Time: 85860. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 248 Step Size: 180.0 Total Elapsed Time: 86040. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 249 Step Size: 180.0 Total Elapsed Time: 86220. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Transport Step: 250 Step Size: 180.0 Total Elapsed Time: 86400. \n",
" Outer Iter. 1 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
" Outer Iter. 2 Inner Iter. 1: Max. DC = 0.000 [K,I,J] 1 1 1\n",
"\n",
" Program completed. Total CPU time: 000 minutes 0.811 seconds\n"
]
},
{
"data": {
"text/plain": [
"(False, [])"
]
},
"execution_count": 20,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"mt.write_input()\n",
"\n",
"# run the model\n",
"mt.run_model()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# Compare mt3d-usgs results to an analytical solution"
]
},
{
"cell_type": "code",
"execution_count": 21,
"metadata": {},
"outputs": [],
"source": [
"# Define a function to read SFT output file\n",
"def load_ts_from_SFT_output(fname, nd=1):\n",
" f=open(fname, 'r')\n",
" iline=0\n",
" lst = []\n",
" for line in f:\n",
" if line.strip().split()[0].replace(\".\", \"\", 1).isdigit():\n",
" l = line.strip().split()\n",
" t = float(l[0])\n",
" loc = int(l[1])\n",
" conc = float(l[2])\n",
" if(loc == nd):\n",
" lst.append( [t,conc] )\n",
" \n",
" ts = np.array(lst)\n",
" f.close()\n",
" return ts\n",
"\n",
"# Also define a function to read OTIS output file\n",
"def load_ts_from_otis(fname, iobs=1):\n",
" f = open(fname,'r')\n",
" iline = 0\n",
" lst = []\n",
" for line in f:\n",
" l = line.strip().split()\n",
" t = float(l[0])\n",
" val = float(l[iobs])\n",
" lst.append( [t, val] ) \n",
" \n",
" ts = np.array(lst)\n",
" f.close()\n",
" return ts\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Load output from SFT as well as from the OTIS solution"
]
},
{
"cell_type": "code",
"execution_count": 22,
"metadata": {},
"outputs": [],
"source": [
"# Model output\n",
"fname_SFTout = os.path.join('data', 'CrnkNic.sftcobs.out')\n",
"\n",
"# Loading MT3D-USGS output\n",
"ts1_mt3d = load_ts_from_SFT_output(fname_SFTout, nd=38) \n",
"ts2_mt3d = load_ts_from_SFT_output(fname_SFTout, nd=105) \n",
"ts3_mt3d = load_ts_from_SFT_output(fname_SFTout, nd=281)\n",
"ts4_mt3d = load_ts_from_SFT_output(fname_SFTout, nd=433)\n",
"ts5_mt3d = load_ts_from_SFT_output(fname_SFTout, nd=619)\n",
"\n",
"# OTIS results located here\n",
"fname_OTIS = os.path.join('..', 'data', 'mt3d_test', 'mfnwt_mt3dusgs', 'sft_crnkNic', 'OTIS_solution.out')\n",
"\n",
"# Loading OTIS output\n",
"ts1_Otis = load_ts_from_otis(fname_OTIS, 1)\n",
"ts2_Otis = load_ts_from_otis(fname_OTIS, 2)\n",
"ts3_Otis = load_ts_from_otis(fname_OTIS, 3)\n",
"ts4_Otis = load_ts_from_otis(fname_OTIS, 4)\n",
"ts5_Otis = load_ts_from_otis(fname_OTIS, 5)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Set up some plotting functions"
]
},
{
"cell_type": "code",
"execution_count": 23,
"metadata": {},
"outputs": [],
"source": [
"def set_plot_params():\n",
" import matplotlib as mpl\n",
" from matplotlib.font_manager import FontProperties\n",
" mpl.rcParams['font.sans-serif'] = 'Arial'\n",
" mpl.rcParams['font.serif'] = 'Times'\n",
" mpl.rcParams['font.cursive'] = 'Zapf Chancery'\n",
" mpl.rcParams['font.fantasy'] = 'Comic Sans MS'\n",
" mpl.rcParams['font.monospace'] = 'Courier New'\n",
" mpl.rcParams['pdf.compression'] = 0\n",
" mpl.rcParams['pdf.fonttype'] = 42\n",
" \n",
" ticksize = 10\n",
" mpl.rcParams['legend.fontsize'] = 7\n",
" mpl.rcParams['axes.labelsize'] = 12\n",
" mpl.rcParams['xtick.labelsize'] = ticksize\n",
" mpl.rcParams['ytick.labelsize'] = ticksize\n",
" return\n",
"\n",
"def set_sizexaxis(a,fmt,sz):\n",
" success = 0\n",
" x = a.get_xticks()\n",
"# print x\n",
" xc = np.chararray(len(x), itemsize=16)\n",
" for i in range(0,len(x)):\n",
" text = fmt % ( x[i] )\n",
" xc[i] = string.strip(string.ljust(text,16))\n",
"# print xc\n",
" a.set_xticklabels(xc, size=sz)\n",
" success = 1\n",
" return success\n",
"\n",
"def set_sizeyaxis(a,fmt,sz):\n",
" success = 0\n",
" y = a.get_yticks()\n",
"# print y\n",
" yc = np.chararray(len(y), itemsize=16)\n",
" for i in range(0,len(y)):\n",
" text = fmt % ( y[i] )\n",
" yc[i] = string.strip(string.ljust(text,16))\n",
"# print yc\n",
" a.set_yticklabels(yc, size=sz)\n",
" success = 1\n",
" return success\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Compare output:"
]
},
{
"cell_type": "code",
"execution_count": 24,
"metadata": {},
"outputs": [
{
"data": {
"image/png": 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WnXIZIvAL6h1XrlyhT58+FgWAv/6CK1fsn+YB+c7jwoULRPzyCzt37+bIv/+NcvJEvL0hK8vEjosXyw+ABQtkrWlurv0G1ohRKpVs3ryZ/fv3G73Lq44HHniAw4cPk5ubW+0CLYBTp07Rv39/fv75Z9auXVvpvcjISG699VZeeOEFJk6cSMuWLUlPTwdkzx8vLy/CwsLw9vZmzZo1PPfcc2zatIkOHTpw6tQpunfvztatW3FwcOCff/7h2rVrrF69mnfeeYdlFZeSl7Fp0yamTJnCxx9/TLNmzTh58iRQfsHRarWMHz+eDz74wKI7HmsxmupZtWqVyR3nzZtn98EIBCAH/s6dO7N48WKDXYKxABAVBX//LT+3Z5oHoFu3btzatSsDHniACT17MmTJEkC+o0hPlz2BunUDxf3DYNgw0FsQHD4s/1yyBIYOhQED4OBBGGckLSSoRMXV0pbi4OCAQqGgd+/eFBcXV7tNXl4e06ZNQ5IkgoOD2bBhA1OmTEGSJDw8PFi/fj1jx44F5FrD5s2bmTx5MtnZ2SxbtoyOHTsya9YsNm7cSGFhIe+99x6+vr68/PLLFBUVodFoePTRR/H392f58uXs2rWLwsJCFixYwOHDhykqKmLUqFEADB48mOeeew5PT0+USqVhxa+XlxdHjx5l27ZtzJ8/nx07djB69Gjbv0wjGG3EEhQUxPfff8/48eO5cROFQsFnn31m98HciGjE0jSZNm0a9957LzNmzDC77cCBcPp0+Upatdp+4/j0008p/f57esfEMOTCBZTNmgFyjHdygsCDi/mP42qaayyYzd91lzxQQZMkPj6e1NRU7rvvvjo5n7nYaXTGv3XrVq5evcqIESOYMGFCrQxOIKiO7OxsfHx8zG4nSXDhAjzxBHz3HTz9tHwBsJdpmrOjI6MjI+n4xRdQFvQBWrSAj/Z0pjOJYOkq/T//hEWL5LsAQZPD398ff39/8xvWESYTaOvWrSM8PLyuxiIQAJCfn0+zZs0IDQ01KedLSwNnZznog9wZ6/p1+42jy7lzqBUKePTR8hcXL+azP8qCvp6hQ+Wgrv9Z8VGRt98uz/2XIUkSv8T+wrhvxjH488EsCV1CdlG2/T6EoMGRkpJS6+cwKefs3r17lSKIQFDb5Ofns3btWg4dOmRSynnhAtx+Oxw/bt+FW3q6//Yb27t1Y75e4bF4MSxZgv5eRBoyFEkCpSX2wkuWwPr1MGuW4aViTTHT90zndOpp/nPff+jUohNfRH3BsC+GcTjoMC1dqy9SNnYkCWJiyuonFjS1X7x4MZcvX2b79u2ArON/7733+OKLL4iLi6NZs2bceuutTJ8+nZUrV+Lk5ERISAgLFy5EXZYb9PLyYu3atYbiamhoKLGxsUyfPh2QdfybN29m1qxZODo6UlpayurVq1EqlSxYsACNRkNJSQnPP/88Dz74IHPmzKGkpITCwkKWLl1aRc556dIlFi1ahLu7O56enqxcuZJ33nnHUDR+9913q/2s0dHRvPfeewBMnTqVESNG2PIVW6fjX7x4MYtvmLEIBPYmPT2ds2fPcurUKZNa7osXoXt3+P13Ob1jV9O0f/7BMyWF4127lr9WIcBnud+Cz+FQzMaligqf2bPlqvDixai1asbsHEMLlxacnnmaZk5yKulB/weZe2AuE76bwM8Tf64iK2zsaLUwdaq8KnryZMv7HTQVHX92djaffPIJkiTxxhtv2Bz4rZJz7tmzx6aTCATWIEkSjzzyiFkp5z//wK23ygtnFQrbLZir5fPPSXngAQr1VrvDhhnUOpm3D2XG8ATLj6UP/H5+huezf5qNs4MzO8btMAR9kIUTK0asIDE3kQOXD9T4YzQ0srLkoA/yT0tTd01Fxz9kyBDc3d158803mTNnjmVfTjVYFfiNCIAEArtSWFjImjVrzGq5r16FvXtvMEyzB5IEX31F+sMPy6mAxYvLJZpDh/L3+lAyM608ZmAgJCeDQsFfs8dz5MoR/m/c/+GorHrT7ah05L0H3mPhwYXoJPOWBY2JNm1sW4zXVHT8RUVFvPTSS/z73/823GXYglWpHlO3QQKBvcjPz8fT09OsljsxEfSKNbt2wzp/HhwcUN92m+zVUzGHP2wYnp7VN3M3SVgYKBQUvPA8DwTsZe8Te3F3dje6+djuY3nz0JuEXwln8C2DjW7XGCkstD5111R0/O+//z7nz59n2bJlBAYGMqtCzcgqbPF6/u9//2vLblYj/PibHlqtVlIoFJJWqzW7badOkuToKPvvOzracRDvvSdJwcHSsWPHpE1+fuUm/4sWSZIkSbGxkuTvb8NxfXyqHMsUy8KWSdN3T7fhRIL6RlxcnBQeHl5n56sVP/5169bZdpURCMxQWFiIm5ub2aX6Op1s0JadLc8MCwvtOIh9++CRR3B2duYTfX520SJDft7DQ57xS5JcYLY0A/r3i08BcL0wq4qsM1WVyn2b76PlBy0J/CyQtPw0JvaeyPcXvqdILbz9Gzr+/v51tnjLEmwK/JLI9Qtqifz8fJo3b252u4wMeSFV8+Zw6VJ5XrjGXL8O0dEwdCjOzs5suHhRfn3JkiqBf8oU6+oLS72iudLWDW83b8Nr+oDv/5E/J1NOkluSy/Grx/H/yJ+soizuancXP8f+bKcPJ2gI1IWO36bA39QkZoK6o6CgAHd347lvPcnJstOxtcHXLMeOyd46rq60+/RT7tbfSlSY8bu6yncc1qhP4rLj6Lv3FJ3SimQJUtmxFoUu4njycUq0JYZCroREsaaYwZ8NZlCnQfx6+Vc7fLDGS1Py479y5QpPPfUUQUFBXLhwwebvzOg86Ycffqj2dUmS0Fr4F3by5EkWLlxoWAwRFBSEQqGgV69erFu3rkl21xGYRj/jN3jgG/k/kpwsF3IrBl+7FHfDw2HQIABDw+2KQR/kuO3pKTuBWrpwbNXxVXjOfxH+WCVfNRQKUlWpbIvaZtjGw9mDvNfy8HzfE1WpirzSPDad3oRSqUSSpKY14aq4/sECmoqOPy8vj+XLl5Oens6BAwdsVvYYjbxr166t9vHxxx8zYMAAswcOCQlh+vTphgr7vHnzePfddzl69CiSJLF7926bBixo3KhUKtLT0812YEpOhi5dasGHPyxMll4uXozXmjVGN/P0lC2hLakvFJQWsCN6B7MHzQU3N8jI4GzqWQI+CkCjk9cJBHYMJO81WSqU91oegR0DAUjNTyWrMIvL2Zft8OEaCGUrpCveGZmjqej4e/XqRXFxMS+99BKDyiYotmA08B86dMjkwxxdunSpdNdw+vRphg4dCsj/SAcPHrR50ILGy/Hjx8nKyjLbgCU5WV4PVVhox+JuSQmcOSN3bi8LOG1at642+Hh4QHExKJXmF45989c3BHYKpINnB+jdm9Q3XmHI1iEUa4vRSloCOwYSNi2s0j5h08Jo594OCTn9cCC2CS3m0n/fkmRx4G8qOv4LFy7QunVrwsPD2bBhg0XfTXXUWuvFcePGVcptVbxV9fDwINdIY4qNGzeyceNGADKtXiUjaOgEBATQoUMHs6t2k5PljIw+6Nola3j6NNx2mxzVywJORmZmtWkHfYHXEjb9uYnXBr0m/1JYSMjVnaj8AIWc3rkx6OsJ8AogNT8VhULBr5d/5cUBL9r0sRokNxrcmaGp6Pg1Gg2zZ8/G1dWVJ554wpZvVqY2taTx8fHSwIEDJUmSJD8/P8PrP/74o/Tiiy+a3V/o+Jse27Ztk5599lnp0KFDJrX8w4dL0v79knThgiTpdHY6+erVkvTCC+W/g9SsWbNqNx05Uj6/OeKux0mtQlpJpZpSSZIkKeX1l6SWC5FYjBS4JdDs/q/8/IrU4v0Wksd7HhZ9BEH9pFHo+G3hzjvvJLRsBeTPP//M4MFNazWiwDLy8/Px8PBg2LBhJov/KSmy2aVdFT1RUXDHHfLzxYvRvvGGvHK3Gjw8LGvz+O3f3/Jk9ydxcpBvTRa1PEu+C8zsN9PoTL8i4VfDyS3JpaC0gLT8NIs/iqB+Ud90/GZTPTfmWBUKhcHm1NPT0+ITrVy5khkzZlBaWkqPHj3417/+Zf1oBY2egoICi3X8f/0lP7eboicqCv79b0Nx0QF4Hfm2/8aLkKWpnm/++oZlD8k53lRVKtsKj6NRwr5L+ywaUmDHQGKvx+Lp4snJpJOM6T7Gus8kaHCkpKTQvn37Wj2H2cA/d+5coqKi6NmzJw4ODkRHR9OuXTsKCwvZsmULY8YY/4/YuXNnTpw4AcBtt93GYb3RlUBghPz8fLM6fkmS+906OtrRh1+tlg3+e/WCn382nOh9FxdeU6txcXGptLlezmmK+Ox4ruReYWhnWdQQEh4iq3gU4P9XikWSxVMpp8guzqZIXcTBuIMi8FdDU/LjB9morV+/fpw7dw5HG1cumk313HLLLRw8eJCoqCj+/PNPwsPDCQwM5OzZsywRbeQEdsaSGX9+vlzUtauiJyYGOnWC5cvL2yMuXoyzs3O16R4PD8jNNW3ZsP+f/Yy+dbTBgTP8ajhahcTdSRD2SYlFipWwaWG8MvAVHB0c+THmR1s/XYMiVZXKqC9HWZXa0uv4Y2NjK+n4Z86cyX//+18++eQTiouLWb9+PY888kglHf9XX33F0KFD2bt3r8lz6HX8mzZtYt68eaSlpbF06VLmzZvH559/zo4dO5AkyaDj37BhA++99x6pqalVjqXX8W/atImhQ4dWq+OfPXs2s2fPZuvWrZX2/eCDD6pcSKzFbOCPi4urJCcaMGAAly5dokOHDjU6sUBQHZbM+LOyoFUrOfhbIqe0iLNnoW/fKlJCJycnSkpKqrSBdHeHb781XWPYHysHfpCDWUZBBi1dWzIozUk2GrKQUymnyC/NJykviVSV5fs1VELCQ4hIjiAkPMTifZqKjn/Pnj0MGDCANm3aWPzdVIfZwO/k5MSvv5YvGf/1119xdnYmMzPTcJskENgLSwL/tWtgQS9264iKkgM/yL1zy3ByciI4OLjKgjKFAv7+W96mOsuGInURRxKPMDxgOCAHs6S8JHKKc4jo4gpJSRYPTT/rV6DgzUNvWryfJEkkFhfzV0FBg/LX0qe3IpIjLN6nqej49+7dy969ezl+/LhB9m4LZhNE69evZ9y4cSgUCnQ6Ha6urnz33XcsX76cF154weYTCwTVYUmqJyurFgL/33/DzJnlTVcUCli0CEmS+PHHH6u0gfTzkzeRpOprDKEJodzZ9k683LxIVaWyNWpr+WKt8+1g9Wp5hbCFnEo5hYTEsavHLNr+n8JCJl+4QGJJCS4KBa5KJd/07EkfC3yQbjaWqJ1upKno+Ddt2gRAUFAQM2fOtPp7MmCJJlSj0UhnzpyRoqOjJY1GU0OFqeUIHX/TY/jw4dIvv/xicpuvvpKkp56ys4a/Sxf5gJIk++WXERAQII0bN05yc3OTpk6dalhbsGePJD38sCRptZJUWlr1cPMPzJfeDn1bkiRZi+/1gZc095e58psDB1rlyy9JkpSSlyJ1Xt1ZWvjrQrPbXiookHzDwqSPrl6VtDqdpNPppB1paVLrsDApMi/PovMJ7Et90/GbnfGnpaWxdetWrt9wLxsSYnn+TSCwFEtm/JmZckq+Rw/rGnIbpbRUTr0EBMi/V1g16uLiwpIlS5gzZ04l0zgPDygokGsM1S03CE0IZfWo1YBc1M0uzibsStlMdvx4OHnSciN/5FRRZkEmP1z8gQ+Gf2B0O5VGwyPR0bzj78+MCpLAZ3x9cVAoeObvv/mzXz/c7eZjLbAEf39//P39b/YwDJjN8T/++ONEREQgSVKlh0BQG1iS409Kkj34wbqG3Ea5fFlW9Dg7V5FYOjk5odFoqiwoM6XjzynOISYrhrvb3w3IWnwvVy8GdSoz1erQAW6/3aohnko5RYG6gKQ807WBtxISuM/Ts1LQ1/NUmzbc5+nJompsggX1h7rw4zd72S8tLTVq0SwQ2BtL/PiLiuRZtk5nJw1/TIzs0aN3hVyyxGDFbEzOaUrHH3YljIF+A3FxdDHk93OKc8qLlR06yF1krCBsWhiJOYkErAkgLjuOAK+AKttE5eezIz2dv+6+2+hxPggIoOepU8zr2BG/G9YmNFSaktdwmwEAACAASURBVI4/JyeHBx98kN69e/PII48wfvx4m74zszP+fv36cf78eZsOLhBYS35+Pq6urlXkkxXJyoLPPrOzhr9bt2pdIU3p+I3N+EMTQhnWeRggp2gUKJh7z9zyomWHDvJtixV+8wCrT6xGgYK3Dr1V7ftvxcfz+i230KpMGlgdbV1cmN6uHUsTE606d12yIDYWl8OHWRAba/E+TUXHHxERQeuymc4densRGzAb+AMDA7njjjvo2LEjAQEBhodAUBuUlJSwcOFCk378WVng62tHDb8+8EMlKScYD/ymZvzhV8MZ1GmQYbZfRZrYrp1sL2ql5/yplFNoJS2nUk5Vee+MSsUplYoZ7dqZPc78jh3ZkZ5Odj2VY69NTuZAnz6sTU62eJ+mouPv1q0bn332GatXr2bp0qUWfz83YjbwL1++nB07dvDjjz/y7bffGh4CQW1QXFzMrl27TPrx213OeelSeapHL+UsC8ZOTk7Vrldxc5NdHm58q0RTwrn0c9zd/u7qZ/sg1xL0+SkrPOf1en6tTltlVeuyK1dY0LEjbhZUuds4O/Owjw/bynTq9Y1gPz9GnjtHsJ+fxfs0FR1/TEwMhYWFNG/evEYd2czm+Fu2bMlTTz1l8wkEAmvQ6XQ8/fTTJv347R74//kHbr0Vhg2TZ+EVxAvGZvwKhdzovaAAKsaZs2lnudX7Vpo7N6+q5qmInx+YaPNnjJisGK7kXiEkPIRVI1cBkFpSwoHsbD7V37VUoH9kJKfz8wHo5+5OZP/+AMxq355/X7rES35+9a6l44quXVnRtatV+zQVHb+/vz9vvPEGzZs3Z86cObZ8vQAoJDMSnddff52SkhLGjRtXyajqrrvusvmkltK/f38iIyNr/TyC+oNSqaSkpITw8HCjPXc9PODqVUhLkzM0NYpbhYXg7S3/VCqrqHqefPJJJk2aVG36wM9PVmVWdC9Zc3INf2f+zYZHNzD3l7l8EfUFQXcEGYK0gUcegdmz5Z9WcOeGOzmbfrZS1663ExJIKSlhQ4XAvyA2lg+TkrgxUeYAvNKhA8u7dOG2iAh29OjB3Va47ApsIz4+ntTU1DqzZjYXO83O+Hfs2AHA999/b3hNoVAQFxdnh+EJBOVoywxvnJycKt3eVqSkRFb1vPSSLOWssY4/IQFuuaVcjH9D2sXYjB9kv578fNmoTX8BOpF0ghFdRgBmrAd8feUrl5WEPx+OT4gPoUGhAGgliU2pqezr3bvSdqurCfoAWuDDpCRWdO3KhDZt+DojQwT+OqDB6fjj4+OrPETQF9QGarUaJzPV2uxsObVSptyruY4/Ph70Urtqcu2mAn+zZjB/fmWjthNJJxjoN5BUVSruzu6kzk+t3oLA1xfKJlXWkFsstyw9lSwXeA/n5NDKyYm+FSSwC2JjqegZN79DB+ZXuC3RlW3zdOvWfJOZiU6sy2ly1FkHLoHAHJYE/rw88PKS9ftgBx1/QgL4+5dr+G9Q2Rgr7gK4uMD+/fLz7dvhcnI21wqv0a1VN/MOk2fOwB9/WKXqAVkeqtVpWRYuFwy3p6czuYJqZEFsLCuTkrjNzQ2Qg74+Z64P/re5ubEyKYmtaWl4ODhwwtLmwYJGgwj8gnqDJYE/N1de+2Q3L379jL8aDT+YnvF7e5enmBwd4armT/q27Ut6fnr1Ms6KBAVVez5znEo5hVqnJio9iiKtlh+vXeOZCha9q5OSUACXiooMQV+PPvhfKipCiZzyeaJVK/ZmZVl8fkHjQAR+Qb3B0hm/p6cdvfj1M36o5NGjx1Tgb94ctm0rvwCdSTvDXW3vMi7jrIivr2wTYSVh08JYM2oNo7uO5tfsbO50d6ddmehCn+JRIP9hV6eMWdG1Kw6AhJzyiSsu5icR+JscIvAL6g2WzvjtWousOOO3Msfv7g7FxeUXoD9T/+SudndZ5ifftq28GMAGvN28+fqvr/m/qxcY06qV4XX9bF8HzDXRKOmVDh2QgKdateL7zExSS0tJNCKBFDRObAr8jzzyCM888wwREZY3ShAIzGHpjN9KmxvTJCTAd98ZXUXr5ORkVtWj50zaGe5sdyffjv+WkV1G8t1T3xk/r68v2LiA6mDcQbKLs9lzdh1jKixokABHhcLobF+PPuXz3bVraCWJNk5O7BOz/iaFTYH/hRde4Msvv6RZs2b2Ho+gCVPnM/68PHnKrrcYrybf7uzsbLS4q1/ABZBfms+V3Cv0aNXDstaBXl5yfuiNN6we9qWsS+gkHQrVBTqX3TXofW10kmRytq9nRdeuOCoUHOzbl0tFRfxWY4tTQUPCpsD/2GOP4eDgQK9evew9HkETps5n/FeuyHn2sm5b1WGJjh8gOj2aHq164OTgZFmqR6GQZUFLl1qt7Al/PpwWPV4l6MHPgHIlz79atcJBobB41Wvv5s25PyqK25s140huLloh62wymF3AFRMTwwcffMD169cr+fDv2bOnVgcmaHpYGvhbtaq8aMpmkpKgY0f5uZHAay7wZ2bKz89nnKe3b+9K+v227m1Nn/+22+D0aasasoDcuF2V+ittu/QF+rE2OZmnyjT58y2Y7euJLigw7Oft6EhUfj53eXhYNRZBw8TsjH/KlCl4eHjwxBNPMG7cOMNDILA3arXa4FJojOxs2LWr8qIpm0lKKvdbsDHw61M90RnR9G7T27I0j562bWHCBKuH/d/DS9Hlx/JH9GZAnrl/k5lJP3d3qzxugv38+CYzk6datSJHo+FQTo7VYxE0TMwG/oKCAtasWUNQUBBTpkwxPAQCe2PJjP/aNdkfB+ywalcf+I0s3gLTxd3mzctTPeczztOrTS/L0jx6fH3hgQesHvbhqydBk09M1kVAnrkf6tuXaP1VyEJWdO1KP3d3vrl2jc6urhzKzrZ6LIKGidnAf+utt1bbSEAgsDeWBP6SksqLpmq0ardi4Aeri7sVc/z6wG+RokdP27Y2KXtuuWcjb4zdx13t7mJBbCwaSeKhqCirbIz16C8aSSUlhOXmojHS/EbQuDAb+HU6HT179mT48OE8/vjjhodAYG9KS0styvEfPGinVbsVUz02FncLCiA9Px2tpKWdezvrUj02SDoLtFpOq1Tc596MA1KATUXdigT7+fFgVBRaScJRoeDPivpUQaPFbHH3iSee4IknnqiLsQiaOJbKOX185EVT1Tg2W0cNc/zNm8tduPYfj6Nn614oFArrUz1HjxpdPFYd4bm53Onhwf6Yz9C0e4xbtUl8cw2riroVWdG1q6Hj1YNRURzKyWGAcOts9FhU3NVb5KrVagIDA0WOX1ArWGPZYBduTPVUg6kcv5ub3MNl2oh7Sd8eglYrWypIiyTjVg0VadsWIiKsasH4e3Y2D7RsyZm0M5Afxz9KP6uLujei73j1qI+PyPM3EcwG/gMHDtC/f39+/PFH9uzZw913383u3bvrYmyCJkad6vhVKigthY8+Mhl4Tc341eryhuuXDg3kwtVURn05qkpbRKP4+spafrDYrO337Gwe9PIibFoYCo+urPDVWV3UvZEVXbsS7OfHL9ev80dODqUiz9/oMRv433zzTQ4fPsyuXbvYs2cPYWFhLLZisYlAYCnmAr9OJ8dru0jNk5Pl2f6SJfLvRgKvKVvmW24pf+7gqGPLRSvy+1Be3DVSX7iRbLWaS0VF3FN2y9Ot+C/+k6ZjWhsvy85nAn26RyNJRIk8f6PHbOAvLS3l9ttvN/zes2dPQ6ckgcCemAv8BQVy8xObu21VxILCLpgO/O7usrKo/fKOXEy5al1+H+Rbl5ISWLjQos1Dc3K4z9MTZ6WSBbGxxLj2RJmyB7crWy07nwn0q3h9HB05Lvz5Gz1mA7+bm1ul3o2RkZHCo0dQK6jVahwdHQkNDUVXTbrBrj49SUly01wwm+M3FvidnUFyyien9DpuLo6mO25Vh0IBbdpYrOzRp3lAnqF3SFiDtv1jll9oTKCXdeZotRzLza3x8QT1G7OBPyQkhEcffZTBgwczePBgRo8ezbJly+pibIImRklJCceOHWP06NFMnz69SvDXF3YvXrTa5aAqKSnQvr3ZzUwFfoUC3Dpcwr9FV1YcW2FdmkePFVr+33NyeNDLy6DdT/afh0/2UcsvNCbQyzp1ksR+YdjW6DEb+AcPHszff//N//73PxYuXMiFCxcYOnRoXYxN0MS4ePEicXFxREREsHPnTo4cOVLp/evX5ZW7drFrSE2Fdu3MFlRNBX4Ap3YxdHbvZn2aR4+vL3z4odnNUkpKyCgt5Q53d9YmJ/N73744KhQUxayq5KFlKxXdOlVaLSklJTU+pqD+YjTwf/nllwCsWrWKrVu3cuHCBS5dusQXX3zBqlWr6myAgqZDp06d6NatGwMGDGDChAkMGTKk0vvJyXLgBzvYNaSmQliYWSmls7MzJSUlRtNPytYxdHTrZp2MsyLJyfD112blnEdzcxncogVKhcKQj+/u5oxaq+Z8xnnrzmmEYD8/Rp07R4Crq8jzN3KMBv5//vkHgOjo6CqP8+ft8x9NIKiIVqtl9OjR7N+/n82bN6O8YYWWUlnuxllju4bUVHjpJfm5CSmlg4MDSUlJRtNPOq8Y2jl3I1VlpZRTz+jRZscA8sKtwDIdqz4f/1dBITpJx9KjS607pxH0ss7E4mLeT0y0yzEF9ROjgX9Jmcxt7NixfP7555Ue999/f50NUNB00LtzDhs2rErQB9kXZ/JkO9k1pKbKOX4zUsozZ86gUqmMpp/ULWJorbzNOquGivj6Qv/+ZjfTB/6K3jy+ucfRSlrOpJ6x7pwmWJuczPIuXYR1QyPHqGXD3r17UavV/Oc//0Gn0xnyiGq1mkWLFjF58mSrT6ZWq5kyZQoJCQk4ODiwadMmunfvbvvoBY0Kc3LO/Hy5uFtjuwZJsjjHHxgYiJubW7XpJ0mSKGp2CW+pBjn+tm3NNl3P12i4WFhIPw8P7j97lt/79mXkuXMkj32D1z2KcHV0te6cJgj28+O/cXE4ACU6HS419sUQ1EeMBv6zZ8/yxx9/kJGRwZo1a8p3cHRk7ty5Np1s//79aDQajh07xm+//cbrr7/O999/b9OxBI0PtVqNu7u70fcLCmTtfI3JzZW7ozdvbnZTFxcX3N3d+frrrxkyZEilO5EUVQpOkjsUt7BdWePrCxkZJjc5qVJxh7s7LkqlwV5B78QZ4BXA0StHbTu3CbydnPhTpeJeuzY4FtQXjF7O33zzTQ4dOsSyZcs4dOiQ4fHbb78RHBxs08luu+02NBoNOp2OvLw8s8vzBU0Lc+6c+fkWxWrz6Gf7YJGqR6PRVJt+ismKoYWmG1dzUhn86ShSVVbm98EiHX/F/P6NtHBpwZ6YPdbXFoygX8F7Ta0WBd5GjNn7uOnTp7Nr1y62b9/Otm3b+Pzzz3n99ddtOpm7uzsJCQl0796dGTNm8JK+uFaBjRs30r9/f/r370+mvq+doElgSarHLjP+imkeM6oeU3LOmGsx+Oi6s/xYCGHxETz4Voj1ElO9NbOFhV19YF6bnAzAz7E/k1OcY31twQh6Pb8EfJqSYpdjCuofZgP/008/zeLFi5k/fz5fffUVc+fO5a+//rLpZB9++CEjR47k0qVLREVFMWXKFIqLiyttM3PmTCIjI4mMjKR1jWQbgobGTQn8YFJRYzLwZ8Xgre5LhuMpcMvmQl6E9RLTli3lD2bkAqSVJE7k5XGfp2e1TVcuZl1EQuJE0gkrT1w9ej3/F927c6moyC7HFNQ/zAb+s2fPcvr0acaMGcPq1asJDw/nuo0Cai8vL1qUzVy8vb1Rq9XC90dgwBKvHrunesyoeswF/s5enVBuDYPFEo7bwqyXmCoU5SuIq7kAnS8ooK2zM62dnQ0Ltyo2XQmfFk5X7658NuYzK09snGA/P6bHxOCiUJAmFnI1SswG/nbt2uHo6Mhtt93G+fPn6dmzJ7k2ennMnTuXP//8k8GDB/PAAw/w3nvv0dwuf8mCxkCdz/jBbI7f0dERrVZb7erYmGsxeLu1xG/hKJJz02yXmLZpA9OnV/tWxTTPjYVdPX4efkz8YaLd8vx62jk7E6FS2fWYgvqB2cDv7u7Ojh076Nu3L9988w3R0dHk26jxdXd355tvvuHo0aOcPHmSZ5991qbjCBondRr427a1aFOFQoGjo2OVWX+ptpRkVTLn+ZZ0xwhWHA/BZq2Cry+MGVPtWxX1+2uTkwn286vSdCW7KJuL1y7aLc+vryNcLSnhpCjwNkrMBv5169Zx9uxZhg8fjlKpZOjQofznP/+pi7EJmhj6BVzG0Nsy19ikLT1dDvwW9pWoLt2TmJNIB88OJOtOU+pgg36/IiYknREqFfd4elYp6lYkrzSPQnWhXVw6ofzO4vFWrcSMv5FiNvB/9tlnhISEoFAo+Prrr7l+/TovvPBCXYxN0MQwN+NXqeC99+xg0paRAT/8YHHLw+oCf3xOPAFeAay4PYzRETZ49FTEiKQzW60mtaSE7s2aGU3zAKwcsZIx3cbYxaUTyq0bfsrK4khODjo7mMAJ6hdmA/++ffvqYhwCgdnAn5cHe/bIz2tk0lax65UFLQ+r67sblx2Hf0t/SpxSOd7FBo+eivj6QjXtTP/Mz+dODw8c9AZFRgjwCiAuO87281eD/g6jVJK4VGN/DEF9w2zgDwgIYMSIEbz99tusWrXK8BAI7I25wF9cLJuzQQ1M2jQayM6GVq0sbnno7OxcZcYflx1HgFcA36WFkOdhg0dPRcLC4OTJKncfkSoV/cv6TJpK9bg5uvF35t+kqlJtH8MN6O8wurm5cVKkexodRi0b9Hh7ewMQHx9veE1hZgYiENiCJcXd7Gw5z29zmicrC7y85CtHDXL8cdlx9G/fn2/z96F1rmGOf9Ys2LWrSuHitErF4z4+lfT7r+jbRVZgQ+QGdJKOJYeXsOHRDbaPowL6AvLqpCQ+vHqVKRYWwwUNA7OBf+zYsYy5QXGwffv2WhuQoOliKvCr1XKz9ebN5Ymxzd5h6elyTt0KjAX+AK8Afnw8jHvvhbAkG8cDcqqnmtuXSJWKtzt35vmYGIMx242KHoBTKaeQkDh+9XgNBlGVtcnJrO7alZdiY+16XMHNp07dOQUCU5gK/PrFWzW+2UxPlwOtFdwY+CVJ4nL2ZZo5NSPowChU0lagBjNiX98qs/0stZprajW3mSnsAoRNC2PCdxN47LbHbB9DNQT7+TH/8mUcgCKtFje7dLkX1Afq1J1TIDCFKZM2u2n4MzLkQLt4sc2pnuzibBQo2Hh6I2cyIlD1CUGnW8WlS9Ctmw0Xp1atICdHrj+UFTFOq1Tc5e7Oq5cvG9XvV6Q2Crx6vJ2cOJOfz33CqbPRUKfunAKBKUzN+O0W+NPTIS7OYiknVA38+jRPZEok2cXZSH4RTJ5cA5mpg4Ncd9D3laS8sGuqqFsRbzdvNpzeYNfVuxWdOiPEQq5Ghdkc/5QpU/jiiy+4fv16pWXr8+bNq9WBCZoe5gK/Xdw90tPlVbInT1q8CsxY4P/uqe8A2WdtR5mLyfbtsHKlDYoj/V3IBrk4G6lS8VTr1mbTPHpOJJ0goyCDkPAQVo20j+pOf+7hXl5C2dPIsCjwx8fH07t3b4OaR6h6BLWBuRy/3VI93bpZLOWE6gO/f0t/w+8eHvL49Jkam2SmBQXw6afyY9EiIkeOJCQggEgLA25iTiIancZuq3ehXNmzJjkZN9GJq1FhNvBHRUVx4cIFHB3NbioQ1AhTlg12TfW0aQPTplm8y42BPz47njva3kGqKpWpu6fi2morkfva0rt3DWSm99wD8fEgSaSXlqKKiKCLm5sh3WJM0aPnxPQTNH+vOQefO2jjAKpnbXIyv/Tpw4NRUWSWltLahKWGoOFg9jLesWPHuhiHQFB3qZ4aqnricuRUj77BuqpPCCUlssS0RkZtw4cDcmG3n7s7CoXC4lSPg9KBdh7tGL59uF3z/MF+fjx87hydXFyEb08jwuw0vnfv3tx///2MGjUKNzc3w+sixy+wN5bIOS9etFE5o8cOqh59jl/fYN3TO4KCAhvHo8fXF8pm0/rCrilHzurQSTrOpp21a56/4kKudxMTecTHxy7HFdxczM748/Ly6Nq1K7GxsURHRxMdHc358+frYmyCJoapwJ+XB8eP19CgTZLkwL9xo82qHo1OQ1JeEre0vIWwaWFIiyQG/xOGjU7l5VQwajttpaJHT6mmlPzSfLvm+UFO9yzp3FlYNDcizM74P//8cwBycnJo2bJlrQ9I0HQxFfgzMiAmRn5us3ImJwdcXeHdd2HpUptUPVdzr9LWvS1ZhVlM3T2VrWO34u7etuaBX997F3nGv7rMIdOSNI+eeffOIy0/jZUjV9ZwMJUJ9vPj7cREnBUKJEkS4o5GgNkZ/6VLl7j99tvp2bMnKSkp9OjRg4sXL9bF2ARNDFOBv6JNg83KGX2aB6xW9ejdOfVpHn1+PyQ8hObNsU+qJz0d1RtvUKzT0dnV1epDBHgFEJdTO4u4AJyVSmJFH95GgdnAP2fOHD766CPatGlD+/btCQ4OZubMmXUxNkETQpIkNBoNSqWS0NBQdDpdpffz82H5cjnFY7NLcEWfHgvz+1DZnTMuO46AluX5/YjkCNzdsc+MPzYWj6VLyRo8GMWSJVanejxcPDgYd9DuLRj14yjQakW6p5FgNvBnZWUxvExtADB79mzyxD++wM5oNBocHByYMWMGo0ePZvr06ZWCf34+eHrWUDljg6IHKqd64rLj8PfyN+T3w6aF2Sfwt24t+04Dr1++DIsXW53q+fHij+SX5rMsbFkNB1MZ/TgGtWghFnI1EswGfoVCQXFxsSGvl5aWhtZmsbJAUD1qtRoHBwd27txJREQEO3fu5MiRI4b37bKAq2KqxwoqBf4yKWdF7JLqcXWFZs34asYMmxQ9AOfSzwFwLOlYDQdTGX1HruN5eXxnpEWkoGFhNvDPnj2bkSNHkpGRwWuvvcY999zD7Nmz62JsgiaEWq3GxcWFCRMmMGDAACZMmMCQIUMM79tlAZc+1WNFmgcqB/747Hg8XTwZ9WV51y0PD8jNrXkvYMnXl3mTJtmk6AHZpfPu9nfz0aiPbB+EEdYmJ7O7Vy/S1GpKbkjDCRoeZgP/tGnTeOedd5g4cSJqtZrNmzcza9asuhiboAlRWlqKs7MzmzdvZv/+/WzevBllBZsAuyzgSk+HU6esknKCHPhLSkoIDQ3lctZl9l7aayjsghz4f/ml5r2Ak269FXQ6Ori4WJ3m0VNbLp3Bfn6MPX+e1o6ORNU4ryW42ZgN/CqVivDwcJYtW0ZwcDD79u2joMb3tQJBZfR2DUqlkmHDhlUK+mCnGX9GBjz/vPzcgl67ehwdHfn2228ZPXo0ed/mcT79vKGwq0ffoK4mvYAje/akf3Ex/7HQirk62jRvw6LQRXYv8OrTPVkaDa/F1Z5ySFA3mA38QUFBZGVlAdCyZUsUCgUzZsyo9YEJmhbm2i7aJcevT/VYIeUESElJ4dy5c2zbvw1ttJalXZYaCrsAt9xSvpLYZqkpEBkQwIJNm2xK8+i5kHmBK7lXatYD2Ahrk5OZ17EjoTk5dj+2oG4xu4Drn3/+4fvvvwegRYsWfPjhh/Tt27fWByZoWljSb9cuqR69XYMVdOnShdtvv52JD0+k430dK9UeQFYb9e0Lp0/XwKQN6HHoEPf/8APBbdowUqsluFMnq4+Rlp9GqbbU7qt3QU73fJSUhKcwbGzwmJ3xq9XqSvLN/Pz8Sr78AoE9sCTw3yxVj4uLCyNGjGDa8mk88eoTpBekVyruenrKlhI1kZpKksQr+jvp+fPl5iw2sPfZvXTw7GC4G7E3CqBAq+X6DT2IBQ0Ls4H/ueeeY+DAgbz11lssWrSIe++9l6CgoDoYmqApYUmqR2/SZtO8o7BQ7tju4WH1rk5OTmg0GhT+Crr4dKm0ahegRQs58NeExOJinJVK8PevUarHUeFIiiqFuOv2z8Prx6WRJNGRq4FjNvC/9tprLFu2jNzcXPLz8wkJCRHOnAK7Y8qLv7QUdDqYMaMGyhl9mscGnxm9nPNGV059OsXTU5Zz1uRGOFKlor+zM7i52azoAVh5fCUKFLwV+pbtgzGCflz9PTyERXMDx6Jk3ahRoxg8eLAhxXP9+nW8vb1rdWCCpoVezlkd+vz+9u3y7zaZtFVctWuFJTNUDfw3plFcXeXrSUmJ/NwWIlUq+nt5sWDECJsVPQCnUk6hlbREpkTaNhAT6MfzUXIy19Rq3urc2e7nENQNZmf8GzZsoEWLFrRq1YrWrVsbfgoE9sRU4C8okGfV+pqiTcqZioVdW3T86hKu5F6hc8vO1W6jz/PbSqRKRf82bVj78MMciIy0Kc0D8iKu1wa9xrO9n7V9MCZYm5zMjh49iC8uFrW+BozZwL98+XLCw8PRarVotVp0Op2wbBDYndLSUrPdtwoLa2DSlp4ObduWB3srdPxOTk7k6nLxaeZDTnFOpcKunhYt5HSPLUiSxOn8fPp5ehL800+M7N2b4J07rVYf6enm042YrBjbBmOGYD8/Jl24gLtSSVyZt5Cg4WE28Ldt25a77rqrLsYiaMKYS/W4u8uKGZuVM2lpNlkyg+zOmaPIqWLHXBF9nt+W4vPloiI8HBzwdXZmxYkTlIwcyYpPPrE58Ps082HfpX12X8RVkfYuLoTbeqUT3HTMBv4RI0bwySefkJyczPXr1w0PgcCemCru2m3xVtu28nMbvHrylHnVFnb1eHjA//5nW/G5YqtFl6VLWfDhh1aN70Z+uvQTeSV5dnfphHJlz+WiIo6KwN9gMVvc/eCDDygpKeHFF180vKZQKES6R2BXLCnu1oi0NBg2zKZdnZycUDmq8G/pzxdjv6h2Gzc3OHBAfm5t8fl0fj79PTxYkpDAgSNHGDlsGCtsGqlMdEY0AOFXw2twlOrRcqGJoQAAIABJREFUK3ue9fUlTAT+BovZGX9RURE6na7SQwR9gb2xJNVTI2z04gc58Oc75ePt5l1tfh/kIK9fc2Vt8Vk/4w/282PksGEEX7li0zj1hE0LY1CnQSx7yP4zfr1nz9cZGcQVFZFZ1plM0LAwG/h1Oh0hISHcf//9DBo0iLfffhuNRlMXYxM0IcwVd2sc+NPSKhd3rcDJyYkClwLCroRVm98Hubi7YoX1xWedJPGnSkU//cIyhcIOXV2go2dH5vw8p1by/Pp0j1qSRJ6/gWLRAq4//viDl19+mXnz5nHs2DEWLFhQF2MTNCHMyTnt4tPz2WdWSzlBDvxFrkUk5CRUm98HubhbUGB98fmfoiK8nZzwcXKSA6pGw9ru3W0u7Oq5mnuVy9cv14pZW7CfHw9GRQHwbmKi3Y8vqH3M5vh/+eUXIiMjDbOxRx55RJi0CeyOqeJujWf8BQWg0cD778OyZVbLbtQKNRoHDSemn0CpqH6u1KIFlJnYWoU+zQNl+fOkJIL37IEPP5QvUosW2XQRyCrKokRbUitmbSu6dmVtcjIhAQHMvXzZ7scX1D4WpXoq3oK7uLiY9FQxx/vvv8+9995Lv3792LJli83HETQuajXHX9GuwUopJ0C6Oh2XQhejQR9sX8BVUdGzNjmZYF9fVmzcKL9pxVqDG9n19K5qVxnbi2A/P16Ni8MB2bRN0LAwG/jvuOMO5s6dy+XLl4mLi2PevHn06dPHppOFhoZy7NgxwsPDOXz4MFevXrXpOILGh6kcf41TPTfaNVhJWkkazipnUlWpRou7eh2/tegDv8GYLSNDrhIvXGj9wSrg5uhGfHY8iTm1m4pp4+zMCWHY1uAwG/jXrVtHdnY29913HwMHDiQzM5O1a9fadLIDBw7Qu3dvnnjiCR577DEeffRRm44jaHxYIue02ZlTX9i1kZTiFBxVjkYXb4FtDp1aSeKMSsVd7u6Vjdk6dIBJk2weL8CHJz5EoVDw1iH7m7VBeYE3vbSUo6IxS4PDbI7f09OTrVu3AlBcXIyrrS5UwLVr10hMTGTfvn3Ex8fz+OOPc/HiRRQVHBM3btzIxrJb3czMTJvPJWhYlJaW0qxZs2rfU6lg2zbZnXPyZPj8cyvt6msg5QRILkxGmas0ungLKjt0xsRAt27mjUAvFhbSzsWFpYmJlY3ZOnSApCTo1cvmMZ9KOYVO0hGRYv8cP5Tr+R9v1YrDQtnT4DA64y8tLWXKlCns2rXL8Nq//vUvpk6darOc08fHh5EjR+Ls7Ey3bt1wdXWtEtxnzpxJZGQkkZGRwgyuCWGquJudDUePys9t6mlbAyknwNWCqyizlYRNC6vUcrEiLVvK45wyxfLVu1XSPHpjtg4dYP16m8aqJ2xaGK/e9yqTetfszsEYej3/T1lZhOXkUCjy/A0Ko4H/rbfeIi8vj8DAQMNrn376KdnZ2Sy28Q9o0KBB/PLLL0iSREpKCgUFBfj4+Nh0LEHjwlSOX622fXEUIM/4IyNtknICXM2/inTddI7J2xuuXatsHW3uAhWpUtHvxjQPQGws7N1r01gr0sGzAx+f+rjWPHv0FywtiFW8DQyjgX/fvn3s2LGDNm3aGF7z8/Nj27Ztle4CrOHRRx/lzjvvZMCAATz22GOsW7cOBxtbzAkaF+Zy/GFhNXTmfP55+bmVSplSbSnpheloSjSM/HIkP/z6Azqdrsp2Pj6Qk2OddXREXh4DPT2rvqHP79dA1QNwIukEmQWZtaLlh/J0zz2envyenV0r5xDUDkZz/M7Ozri5uVV53dPTExcXF5tPGBJSO/8JBQ0bcwu4WrSQF0cpzcoRqkHvzGmDlDMhJ4H27u1J6Z1C6KVQft/5O8/tfI7NmzejrDAYNzf5riQtTR6rucxHiU5HdEEBd3l48FBUFAf69GHkuXPlOf6AAKvHeiPxOfFoJS0nk07W+FjVoW/MsiY5mctFRSzr0qVWziOwP0b/jBwcHFBV015NpVKhFo2WBXbGVOBXqWxqlVtOxSYsVnL5+mUCvAJQt1FT6lBKn1F92LlzJ0eOHKmybatWljddj8rP51Y3N5o7OFRN9XTqZHvX9goce/4Y3Xy68eljn9b4WMZYm5zM/t69yVCruSZ8exoMRgP/M888w/Tp0ykoKDC8VlBQwPTp0xk3blydDE7QdDBV3M3Lq2Hgr4GcM/Z6LF29u6LcqmRq4lQuvnqRCRMmMGTIkCrb+vjIeX5L0Kd5DAu3KrZa7NwZEhNtukO5ka7eXZn4/cRay/P3bt6c4efO0cLBgUNC1tlgMBr4X3nlFVq0aEHbtm255557GDBgAG3btsXLy4u33qodbbCg6WKsuKvTyXl9m1fu5ufLuXIbD3A5+zK3troVgPXr17N///4qaR49Pj6W2zZEqFQMqE7RA/KiBaUS3n67xgXerKIsLl2/VGt5/uiCAg717Uu+VstBkedvMBjN8SuVSjZu3Mjrr7/O6dOnUSqVDBw4kHbt2tXl+ARNBGOpnoKC8vy5TegbsOgDqJVBNPZ6LH18+6CYrCDhWgLDTHj662f8Fy+a1/FH5OWxoGPHqmkePb16QUSEjSvWyskpzqFYU1wrnj1QXuCd5OsrAn8Dwmyp7JZbbuHJJ59k7NixIugLag1jgT8vT14cZTP6wq4NTdZBnvEfSjiEtq2WlSdWmtzWywtWrzav489Wq0kuLeX2Zs1Y0bUrJUOHlqd59HTuDE8+afE4jbH/2f34efjVmmePXs//fxkZpJWWEldUVCvnEdgXWzQSAoHdKS0txdHRkdDQ0EpySbsXdq2QSGp1WhJyErh8/TKSq8Sf6X+a3L5ZMzh1Sn5uSscfWWbT4KhUyu0WDx9mQWxs5Y38/aFfP4vGaQoXBxfSC9I5n3G+xscyhj5dVazTsd8Wi1JBnSMCv6BeUFpayqpVqxg9ejTTp083BH+7zPj1hV0ri6XJqmS83bw59vwx7tpzFxvv2Why+1tuKZebmtLxR6hUDCj7UNXm+EGe8cfHWzXe6lh+bDlArXn2gFzgvT8qCn9XV/aIwN8gEIFfUC/Iysri999/JyIiopJcUqWS67I2G7TVwJnz8vXLdPHqQqoqlfjAeBKzTDtd+vjA+PHmF5pF5OUxoKIHf3U5fn9/SEiocUOWUymn0Og0/Jlq+m6lJugLvFdLSjiRl0eu6NBX7xGBX1AvcHFxYdSoUQwYMKCSXDInR3YwsNT/pgo1kHJezr5MF+8uhISHkN8in21x20xu7+Mj+/WY0vFLksRJU1JOPZ07w+nTNttM6AmbFsbah9dSrCmuNUlnxYvX4BYt+MVqMyVBXSMCv6BeoFareffdd6vIJVNTZaNKsNGgrQaLt2Kvx9LFqwunUk6hdlRzMe+iye0tkXMmFhcD0NHFxXiaB+S8kX4NTQ2tGyKSI8gsrD3rBn2Bd21yMqWSxB5LFzMIbhoi8AvqBWq1GldXV4YNG1ZJI69QWJY3N0pyMuzfb9PMOSYrhu6tuhM2LYyghCBebfWqye0tCfxHc3MZ1KIFCoXCeJoHwNVVvmC99JLF4zXG5ezL6CQdx64eq/GxjKG/iB3JyeHn69dRV+NnJPj/9s49LKpy7f+fNcNBDoKmGCKQ4rESQUXFPFGXpp32L7fatswOmko7szR3e7929ctq1+upeivfcuvPdrWzLLV2VtvcqWBiIuAByMMOUOKYgAcYBJnT8/tjMSMgMzAzwCA8n+vimlkza571PKw133XP/dz3/bQfpPBL2gW2ErgqKmDZMhcKtBUUqKIPDlvOp8tOM6TnEAD8/f3rZbE3Rs+eqvALYXtOIqm8nAndutl381gYNKj5qcB2ODjvILf3vZ2XJrmeCWwLywLsJiHwUhRZrbOdI4Vf0i6wFcev06m17ptT/+YaDAZViYODHY7oMZgMnL14Fj9PP6Z9Mg3hJ6isrLT7mYAA9eY0d67tOYkD5eVMCAy07+axUF4On37qcvZusa6Y3Eu57Dmzx+k2mmLdgAF4KAp7oqIoMxhkdE87Rwq/pF1gT/idjuMvLlbdJVqtw8J55uIZQgNCeefwO6QUpnDM91iTwq8oal3+LVvU7YZzEmV6PYU1NUQ1VoO/MebOVR9d9PGvObiG0qpSdpza4XQbzcES1jnY15ftpaWYXcw6lrQeUvgl7YJWydwtKAB7wmoHi5vHstxisaaYysrKaxLMGhIWZnvRmKTycsYGBKBtak1GC4MHq9E9LpJalEqlvpKCigLMovV875awzuzqanp4ePCjLNrWbpHCL2kXGAyGRn38Lln8BQVqbXsnrGWL8FuWW/xz0J/ZtWvXNQlmDenTBz77rPE5iQO1/n2wk7hVl8GDVXeViyTNS6JoWRFeWi8O5B1wuT1b1PXzB3p48Mm5c612LIlrSOGXuB0hhM3JXZ3ORYvfMrnrZERPsa6YaZ9M43TBac6cOXNNgllDQkPVCNLG5iQs/n2wk7hVl/BwdY5ixYpm99sWaw6uwSRMvLr/VZfbskVdP39yRQVflpVxRa7F2y6Rwi9xOyaTCY1G0+gynC7V4i8ogJkz1ecO+slPlZ1icI/BrDm4hpTCFHKCcwgJCbkmwawhffqoh20Y1VNpNHLy8mVGd+3avIgeUO8eXbvCf/+3yxO8qUWp6E160s+lO91Gc6h7Qxvh78+3cpK3XSKFX+J2mlp9y+mSDRZXj4MRPUIITpScYGivoVYf/1n9WSIiIuzW4wfo3Ru2bbs2qie5ooJof3+6aLXNc/NYuP12S6dcEv6keUkkz0+moqaCYl2x0+00Rd1kLg9Fke6edooUfonbsSf85eWqbjtVsqGw0Ckf/6/lvxLgHUB3n+5WH//mcZupqqq6JsGsIf7+cOaM+rxuVE/d+H2jEExOT7fv5rEQFQVjxzrUf1t89vNnGM1G/mvvf7VIe7aw3NgSLl0i4dIlzsulWtsdUvglbsfWxC6orp4vv1SfO1yywWLxO0jGuQwib4y0+vd/q/wNPz+/JsM5QV0/xULdqJ59ly4xqTZ+f29UFFpFse/msRAdrdYbagHSitIwCzNJea1Tm9+CJawz0s+Pe3v04OMW6r+k5ZDCL3E7tix+IdTIGI/adeIcKtlgNKqCGRLisMWfeS6TYb2GWf37aw6uaVbmLqg+fl9f9fCWqB6d0cixykomduvWvEnduuzZo5ZndtHHD7Bt1jYie0UyqMcgl9ppCktYZ+bly1a3j0nG9LcrpPBL3I69ZRe7dFEF1OGSDfn5avLW6687HNWTWZJJ5I2RVv9+SmEK/v7+zbL4AwLUQ+l0kJOj3rz2X7rEqK5d8XVm/cg3alf9Kix0WfjXHFxDfkU+e8/upcZY41Jb9qgb1rm9tJQgT085ydvOkMIvcTv2snYDAtSwSIdLNpw5A/37O7XyVsa5DCJ7RVr9+0nzkprt6lEU1ep/9NGr8xK7yy4ypXt3oJnx+w0b7NcP0l2PxkktSuXSlUuYzCZ2/meny+3ZwhLWOSMoiDcKCujp6cnblhKrknaBFH6J27EVw3/xolqnxylyciAiQn3uQFTPFeMVzl46S6B3oNW/D+p6ASaTiZqamiazd3v1gp21uvqPf8D3v+qswu+wqwdg+nRYt675+9sgaV4Sz455Fi+tF6uSVrncnj2e7tOHL0pLeaBnT/ZcvMh/qqrIaMaNU9I2SOGXuB2DwdCoxV9S4kQZZgsWix8ccpFknMtgUI9BvH34bat/H0BRFHx9fZk/f36T2bsDBtQtJS3Q+VczwpH4/Yb8+ivs29cifv7UolSqjdWcLD2JaEW/+7oBAxjp788XZWVE+vnxZEiItPrbEVL4JW7HlquntFS1np2irsXvAKmFqYwOGV3Pv2/By8uLHTt2NJm9O2QIPP20Oi+x6j8F3NujBxpFcdzNY+Gtt9RHs9ll4U+al0Th0kIUReGHMz+41FZT1J3kjQ8J4Z9lZeTVLkQjcS9S+CVux57wu2zxOyiUqUWpjO4zmm2ztjG1/1S2P7Dd+t4NN9zA3Xff3WT27pAhkJWlGujb0iu5t0dPoH6Yo0OEhamTHU8/7djnbLD2p7UIBC/se6FF2rNF3UneVXl5LAwJ4fVf7a9bLGkbpPBL3I4tH39Jibq4icNZu0KoFv+2bQ5H9KQUpjCqz6h6oZwW/P39+ctf/tJk9u6QIXDqFDw418zh39/MF8tuwGSqbwE7THg4/O//toi752D+Qa4Yr5DxW0aru3sANIrCWwUFLA8LY3tpKTnV1a12TEnzkMIvcTu2LP5z52D3bieydi9eVMV/9Wp1u5kRPRU1FeSV53Fr0K2NunoCAwOpqKhoMns3IkKNvvx8i7rPZ59ouHDByYldC08+6dBY7DEubBzdu3TH39u/Vat1AiioJTAUoIenJ0vDwviLJbVZ4jak8EvcjiVzt2G0TGEhpKaqzx3K2s3JUd08iuJQRM+RoiNEBUfhqfWsF8ppITQ0lIJmTFB6etbOK2tUa1qrhdXlTk7sWpgwAby9nShYdC2Wm1q1oZq3k992uT17PBsaiuWMLs/OZlloKIcrKjgga/W7FSn8Erdz5coVMjMzr4mWqaiwvaiJXTIz4dZbHe7HgbwD3BZ6W71SDXW56aabyMvLw2w2NxnS2XeYAc3tpQDMnu1E/H5Dtm+Hmho1XKgFJnifHfMs3h7efJv1LeerWi+5qm6p5ncLC/HRanmzf3/if/kFvVyQ3W1I4Ze4nYyMDPLz86+JlikthZQUJ7J209Nh2DBVIB3w8e87u487+t3RqH8fIDw8nNzcXJ544okmQzqvRJ/HvFcNSdrS1cHCbI1hWTB+7VqXhR+uJnMJIVj3k+s5AvaoO8m7PDubGUFB9OvShdV5ea16XIltpPBL3E5ERAT9+vW7JlqmpETNgnU4azcjQ61q6UDWbrWhmrSiNMaHj2/Uvw+qxZ+ens7WrVubDOn8dUQhSq2rh+mF7HGkMJstHnwQ1q93/vN1sFj9Pp4+vHP4HaoNrTfh2nCSV1EU3h80iHcLC0mrqGi140psI4Vf4naMRiNxcXH1omVMJnWOtkcPBxsTQrX4o6LU7Wb6+H/K/4mo4Cgq9ZX4e/lT/FxxPf8+qBa/Tqdj9uzZdkM60ysrueKrp9sN8PDDwBk/7jjuRBhnQ/r1U5O5WiCyB9TonoqaCrw8vNh8bLPL7dlDAYxCYEb19Yd16cK7Awfy0KlTlBuNrXpsybVI4Ze4HYPBgLe3d71omQsX1ND17GwH5zMLCsDLSy3QBs0WyL1n93JHX9tuHlCFPz8/n02bNtkN6fxbUREL+gTj76PwySdAxGVY6mQYZ11ee019nDatRYTfEt1zz8B7eO3Aa1TUtJ71/WxoKAJ4oGdP6zzHH3r1YnL37jxy6hRmWb2zTZHCL3E7FRUV+DWwhouLVd++w6Gcda19B8Txn6f/yd0D77bp5gHw8/PD19eXsrIym+2U6vVsLSlhUUgIcXHAk9mgFfBGOoud9e/XZdgw+P77FivfcPHKRb7L+o6JN03k9QOvu94/G6wbMIDnQkPZXlZm9fUD/M+AAVwyGnk6K6tVcwok9ZHCL3E7+fn5hIeH13stJ0eN6gEHQzmPHbvq32/mxO6JkhPo9DrGhI5pNGO3LmFhYSxYsMDm5O76wkJmBQXR29ubiRNBM6OQyd9HgUmh9JUBjq0gZmt8oMa5tkB0z4LhC6jUV+Kp8eSDYx9w/LfjLnbQNg19/QBeGg07IyM5XFHBirNnW+3Ykvq4RfhLSkoICwvj9OnT7ji8pJ2Rl5d3jfAbjapmg4OhnHv3QlycQxO7205uY+bNM9EoGruuHlCt/t27dzc6uXvBYOC9oiKWh4UBkBydjRnBnmnp8FUfx1cQa4xXXlEfR41qEXfPt1nfYjQbSTibwLo71/HIV49wxdh69XQa+voBAj082B0VxTdlZfzfs2el5d8GtLnwGwwGFi1ahI+PT1sfWtJOaUz4z56Fp55yMJRTp4MjR2DSJFUUmzGxK4Rg689bmXXrLIp1xXyY/qFNVw/AiBEjiI6OZtSoUUyaNInx48db33s5N5dZQUEM9PUF4B+XCxm0UbX22aBau7XVmZ3HIvZ+fnD//S42BhHd1UJ2VcYqpkRM4dZet7Lwm4WtJr4WX78GrFY/qFm9e6Ki2H3hAg+ePEmVyz+NJPZoc+Ffvnw58fHxhISENPr+xo0biYmJISYmhtLS0jbuncQdNCb8R46oRu0vv1xderFJEhNh9Gg11v3ll9W/Jqzi3Tm78fbwZmzoWNYcXIOCwtLYpddE9FiIjo4mPDycuLg49u/fz8KFCzGbzWRWVvJpSQkv9+1r3TfSz49f4tPhzNX5i4cecnDB+MaYNEldnmz4cIcykxvDEtYphGDs5rG8dsdrnCg9wYsJL7aK+K8bMAAtIKCe1Q8Q7O3N/uhovDQaxh87xmlXJ8MlNmlT4f/www8JCgpi6tSpNvdZuHAhaWlppKWlEeR0aUbJ9UJ5eTlms5luDVZcSUuDHTscnNzdvRumTnXIzbPup3UsH7scRVHsTuxauOeee9i1axf79+8nOTmZLVu28O+9e3no1ClWR0QQVKfmUObly3zdP0qN6qll2zZweRXCxET1cfToq9FLLpBalEp5TTl55XmsTlrNrjm7+Po/X/P8D89jFi2fXWux+gf5+PBGQUE98e+i1fLRkCHM792b8ceOsfLsWa5I67/lEW3IhAkTxMSJE8WkSZNEYGCgGDVqlCguLra5/8iRI9uwdxJ3kJGRIW655RZhMplEQkKCMJlM4sIFIXx9hVCVW/0rKWmioaoqIYKDhTh1St2eNKnJYyeeTRRhb4aJGmONEEKIoooiMfUfU0WxzvY1KYQQsbGxYsqUKUKj0QiNRiP633+/mJGRIcxms3Wf57KyhCYhQWgTEkT037LqjeW++4QwGJrsnm1eeulqY76+QiQmutCYSu91vQUrEd6veotiXbEovVwqJv59orhnyz3iN91vLrffkOeysgQJCUJT+9cY+dXV4v7MTNH30CHxfkGBqDYaW7wfHZWmtLNNLf4ff/yR/fv3k5iYSHR0NB9//DHBwcFt2QVJOyMvL4+wsLB6ZRDS0swMH37VxdOsyd2PPoKYGLUm8sqVsH+/3YieKkMV83fOZ/3d6/HSqlZ6UxO7Fu6//368vb3VDa2WnK+/5tGiIpTa2ejl2dm8UVDAzJ490SoKiX8YQM+eVz//zTdq/R6nDdm6Y6qqgrvvVie1XcDi6zeajcT+v1iMZiM/zP2ByF6RDNswjPUp69Gb9C4doy72XD4WQrt04auhQ/nk5pv55vx5+h8+zAtnzkgXUEvQRjega5g0aZI4ZbHObCAt/o7Pe++9J+69917h4+MjMjMzhY+Pj5g/P0FERKgG7cMPC1Fd3UQjly8LEREhRFLS1dfsXNp6o17M+HyGmLNjjvW1oooi0W1VN8FKxLjN4+weLjc3V/gHBwsURaBql4iJiRF79uwRJpNJeCUmigd+/lmQkCCey8oSQgixdWv9XzAgxMcfC2EyNfkvahyL1f/SS0Ls26f+2lmxQgidzskGhRi3eZxgJUJZqYiFOxdaXz9efFxM+2Sa6LW2l3j+38+L06WnnT5GXSxWf/cDBwQJCWJkaqrd/TN0OvFcVpboffCgiEpJEc9nZ4sfzp8X5S79fOqYNKWdihDtN3YqJiaGtLQ0pz6r1xt58smdjBrVi8OHzzFmzI0cOlSMoijExgbbfc3R/Vuijc66/7vvfoOHhwe+vudISyvjzjtvJTHxr1RVKdZzaXftXb0efv97tbbDRx+pr1ks4kas/ewL2cR/G4+Ppw/bZ23H20O13Jd+v5SP0j/isejHeHPqmzavq7wrV/iguJg3srOpWrgQc25uvfenTJnCySVLKPTzY6AQLDx6lMjISDIzM3n++WU0/JF9ww3V3HXXv/DwEA7/P1//6TVCstS4+3/eOp3fvP05dLwcZeBAYu+I4LCuB2PG9XHofH0VsYhy83k0Zg9e77Wd02lG6/7ht5jYtjuNrAtZ+PT7jV6XRjE65kYunelON+9AJowLJyWlxKHrYb1Jx4lbfPC9bKLKT8stJ6oYlVZl9/qJGd2L75LyEUN8OHy4hItGAwGR/gRmGRga05OKjEr8PTSMHxtC1pHzjL3Ovr9paSW8997v8PJqblTDtTSlnR1S+KuqjPht3Q/96nzJhALbQq1hdZLrA43GxJ8/eQsBIMxqbXchEGYz4uJFOHkSERKCuPsuhEbDnRu2Mm3TVgB2LfgDuxbNpkpfRUlVGdkXsvi1PJ/fDb6PqQOmoVXUms8XL5/jv76YSJW+goE3jmLF//kaiylfYTRSrNeTX1PDscpKygwGZgYF8UyfPmx88UXesqyHayE+Hh54ABISYPx4dbLZigdQBThScc42L7GSlahVO1fyEi+z0vVG542H8IPq9+XIAvj2b6632RTvp8HgStAr4CXgP/7wZEzrH7cdo2hyWbFuL39dOt+pz3dK4f/znz9izbRwVO9hc6cxrlqYmIHt8ibRHuj53ga03S/Xnh31UrWeKa0WpYs3eHpZX1/2yU6WbfmGsF2b1NcUgafGE19PX27w6U6wXzAeGq11f0VRSE59iZzcrxjQbzpjY162tq8oCl21Wnp7edHH25thfn5E+vujrfXlm81mHnnkEbZs2XK1w3v2qI8aDXzxBWzY0GBELSv+os5122LivywEAorB6AX5t8GOz6Cylefi4rPhgQIo8YJeevhCfv96jXuUc0kfOfXZTin8RqMRz+/+DgEtceEojb8skL8gWhmtVs3gbTaWMg2gxrc3I7O1WFdMv7f7UWOqIaRrCIXLHFsoxWw2s2/fPtauXcu/IyJUa9/ixp882canPFCFvxxXbwB1rX6AXG6iH7kutWm1+i2RnLpQ2JTa+uJvsfwtdGrxFxgMJjyancRSn6a003knUjvGw8OD8tsf52LUEObckcNWOlI9AAAJwElEQVTBcGD4+9B1sBOt2bgvKsAD+eqfDfoZYM6BdBRF4eabh5KVlcnAgZGcPJl5zWv23usM+0dGRjNlygT0eg1duqgGsyVwptlY4tubSbGumLGbx2I0q3eXft36OXhA0Gg0TJ48mV19+/Lv/HxChaBAUZhYUsKK778nMzPT6uOPjIwkPV29HoYNG8bx4+8yaFAkR4+ecOH/2Y3M9LlEfvkPAPryKwKFzN/P5auoEU6er5l8JIrI19TWzgkswGN5GK+Gv8flM5db73oIjGQOmqvfuNrvV2xeKVNyiq+r69mV/XNzM3nqqcVOi35z6JAWfz1WrlQFIS5Ofdy/v97b4+eh3hgsRMRD6Eya5yISoDgeEatFTWJxaVEOSX3i4q6e22Za+wu/Wcimo6pLaFzYOJvZus3BIzERM6qZ8Jw7zm3d8Vu46SZ47DGna/qM/2A8B/MPWrd9PXzx9vAm8bFEht04zOmu2mN5djZvFRRgpnah9trXR/r7kxbTuf3+jtApXT12iYuzeRNoSMBfQNelkTcEMMLZXxCNoxWCZwsLWbd589V+1r1hNfaavfc60/4ffqguUAJqOYNmWP6uunjqYonbt5gAprg4p9tyibquroZYbgJO/P8D4g6hU/RWFdYIGKGE4H/pMp91e4LgxLTG23Dh/MYsW8aRrl0B8NfrqfTyUudwDh1inV5/fV2fzuzv4K/XhlzXwt+zZ0/61ql94gilpaVNl3woKlILewFUVtrfFzjdAy57NbkbHmYwdQlCeLtakQt8r1zhZrk2abOpCgzE1461bTAbyLmQQ5WhCoEAAX5efgzpOcSp452qqqLKZEKrKJiE4EYvL0Id9lG1HFXZ2fiWl7d4u7aufQ9z7VSAAl2M6k0h4iJ4tlClh1Ph4VR1acz6ghsvXiS0I9fz8veHwc0zLhvqXW5urt11I9q18LtCq/xauE6QY++cY4fOPX459uaPXS7EIpFIJJ0MKfwSiUTSydCuXNkCy/i0U0aOHOnuLrgNOfbOS2cevxx78+iwPn6JRCKRNI509UgkEkknQwq/RCKRdDI6nPCbzWbi4+MZO3YscXFxZDeywENHZvjw4cTFxREXF8fjjz/u7u60CYcPHyauNmkqOzub8ePHM2HCBJ588knM5pZfOrA9UXfsR48epU+fPtbz//nnn7u3c62EwWBg7ty5TJgwgdGjR7Nz585Oc94bG7tT571VVgFwIzt27BCPPvqoEEKIQ4cOid/97nfu7VAbUl1dLaKjo93djTZl9erVYujQoWLMmDFCCCHuu+8+kVC7lN+iRYvEl19+6cbetS4Nx75p0yaxbt06N/eq9fnggw/EM888I4QQoqysTISFhXWa897Y2J057x3O4k9KSmLatGkAxMbGdqqEjvT0dKqqqrjzzju54447SE5OdneXWp3+/fvz5ZdfWrePHDnCpEmTALjrrrvYYymT3AFpbOzfffcdEydOZP78+egsWekdjFmzZvHqq69atz08PDrNebc1dkfPe4cT/oqKCgIDA63bWq0Wo0O1fa9ffH19Wb58Obt372bDhg3MmTOnw499xowZeHpeLW0shLCufdu1a1fKW6F8QXuh4dhHjx7N2rVr+fHHH4mIiOBlW3V7rnP8/f3p2rUrOp2OmTNn8te//rXTnPfGxu7Mee9wwh8QEFDvjmc2m1u1vGl7YtCgQTz88MMoisKgQYPo0aMHxcXF7u5Wm6LRXL2kdTod3bp1c2Nv2pbp06dbY7mnT5/OsWPH3Nyj1iM/P5/bb7+duXPn8tBDD3Wq895w7M6c9w4n/OPGjeNf//oXAMnJyURGRrq5R23HBx98wHPPPQdAUVERFRUV9O7d2829aluGDx9OYm1lw127djFhwgT3dqgNmTp1KikpKQDs3bu3wyYznTt3jjvvvJPVq1czb948oPOc98bG7sx573AJXGazmT/+8Y9kZGQghODvf/87Q4Y4V3nxekOv1/PYY4+Rl5eHoiisXr2a2267zd3danVyc3OZPXs2ycnJ/PLLLyxYsAC9Xs/NN9/Mpk2b0Gq17u5iq1F37EePHmXx4sV4eXkRHBzMxo0bCQgIcHcXW5xnnnmGzz//vN73+u2332bJkiUd/rw3NvbXXnuNP/3pTw6d9w4n/BKJRCKxT4dz9UgkEonEPlL4JRKJpJMhhV8ikUg6GVL4JRKJpJMhhV8ikUg6GVL4JdctS5YsITo6mujoaLy8vBg8eLB1+/3332fVqlWt3ofExESGDh3a6seRSFqSzpHSKumQvPPOO9bnffv2ZcuWLcTExLixRxLJ9YG0+CUdkpUrV7J48WJAvSmsWLGC2NhYBg8ezObNm5k3bx5RUVHExMRQVFQEQGFhoTX9fdiwYbz++uvNOlZlZSWzZ88mOjqaIUOGcODAAQDKy8t5+OGHGTp0KJGRkTz//PPW2kmKolBWVmZtw7KdmJhIVFQUt912G8OGDaO8vJxZs2YRHR3NiBEjWLBgQYctOSxpO6TwSzoFV65cITk5mVdeeYWFCxfyzDPPkJ6eTlhYGB9++CEAc+fOZd68eRw5coSUlBT27NnDF1980WTbBQUFLF26lOPHj7No0SIsy1gvWbKEHj16kJmZSVpaGunp6axbt67J9n7++Wc+++wzMjIy2LlzJzqdjuPHj5OamgrAmTNnnP4/SCQghV/SSZgxYwagljIODg4mKirKun3hwgUuX77M/v37efHFF4mOjiY2Npa8vDyOHz/eZNv9+/dnzJgxAERHR1NSUgKoNWMWL16Moih4e3sTHx/Prl27mmwvLCyMm266CYDx48dz4sQJ4uLiWLVqFc8++ywDBgxw6n8gkViQPn5Jp8Db29v6vG4pYwsmkwkhBD/99BO+vr4AlJWV0aVLlybbrtueoihYqqCYzWZrqWDLtsFgsG5b9tPr9fXa8/f3tz7v168f2dnZJCYmsm/fPiZPnszGjRu57777muyXRGILafFLJKjlvGNjY3nzzTcBuHTpEuPGjePrr792us2pU6eyfv16hBDU1NSwceNGpkyZAkBQUJB1kaBPP/3UZhvvv/8+jz/+uLUi49SpUzl69KjTfZJIQAq/RGLl008/tZbyHjNmDA8++CBz5swB4IknnmDDhg0OtffOO+9QUlJCZGQkkZGRDB48mBdeeMH63lNPPcWIESM4deqUzfLZjzzyCCaTiVtuuYWRI0dSXl7OkiVLXBuopNMjq3NKJM3ghx9+ICcnh/j4eHd3RSJxGWnxSyTN4Pz581brXyK53pEWv0QikXQypMUvkUgknQwp/BKJRNLJkMIvkUgknQwp/BKJRNLJkMIvkUgknYz/D0M1I37nKEh/AAAAAElFTkSuQmCC\n",
"text/plain": [
"<Figure size 432x288 with 1 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"#set up figure\n",
"try:\n",
" plt.close('all')\n",
"except:\n",
" pass\n",
"\n",
"set_plot_params()\n",
"\n",
"fig = plt.figure(figsize=(6, 4), facecolor='w')\n",
"ax = fig.add_subplot(1, 1, 1)\n",
"\n",
"ax.plot(ts1_Otis[:,0], ts1_Otis[:,1], 'k-', linewidth=1.0)\n",
"ax.plot(ts2_Otis[:,0], ts2_Otis[:,1], 'b-', linewidth=1.0)\n",
"ax.plot(ts3_Otis[:,0], ts3_Otis[:,1], 'r-', linewidth=1.0)\n",
"ax.plot(ts4_Otis[:,0], ts4_Otis[:,1], 'g-', linewidth=1.0)\n",
"ax.plot(ts5_Otis[:,0], ts5_Otis[:,1], 'c-', linewidth=1.0)\n",
"\n",
"ax.plot((ts1_mt3d[:,0])/3600, ts1_mt3d[:,1], 'kD', markersize=2.0, mfc='none',mec='k')\n",
"ax.plot((ts2_mt3d[:,0])/3600, ts2_mt3d[:,1], 'b*', markersize=3.0, mfc='none',mec='b')\n",
"ax.plot((ts3_mt3d[:,0])/3600, ts3_mt3d[:,1], 'r+', markersize=3.0)\n",
"ax.plot((ts4_mt3d[:,0])/3600, ts4_mt3d[:,1], 'g^', markersize=2.0, mfc='none',mec='g')\n",
"ax.plot((ts5_mt3d[:,0])/3600, ts5_mt3d[:,1], 'co', markersize=2.0, mfc='none',mec='c')\n",
"\n",
"#customize plot\n",
"ax.set_xlabel('Time, hours')\n",
"ax.set_ylabel('Concentration, mg L-1')\n",
"ax.set_ylim([3.5,13])\n",
"ticksize = 10\n",
"\n",
"#legend\n",
"leg = ax.legend(\n",
" (\n",
" 'Otis, Site 1', 'Otis, Site 2', 'Otis, Site 3', 'Otis, Site 4', 'Otis, Site 5',\n",
" 'MT3D-USGS, Site 1', 'MT3D-USGS, Site 2', 'MT3D-USGS, Site 3', 'MT3D-USGS, Site 4', 'MT3D-USGS, Site 5',\n",
" ), \n",
" loc='upper right', labelspacing=0.25, columnspacing=1,\n",
" handletextpad=0.5, handlelength=2.0, numpoints=1)\n",
"leg._drawFrame = False \n",
"\n",
"plt.show()"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": []
}
],
"metadata": {
"anaconda-cloud": {},
"kernelspec": {
"display_name": "Python 3",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.8.6"
}
},
"nbformat": 4,
"nbformat_minor": 1
}
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