Theis      {Theis, DisBound, RechBound, SemiBound, Leaky, Strip, SemiStrip}
SemLogGrap {LinGrap, SemLogGrap, LogGrap, RootGrap}
TimeDd     {TimeDd, DistDd}
1160       {T Transmissivity}
0.0039     {S Storage coefficient/Specific yield}
261        {Q Discharge rate}
10         {R Pumped well to piezometer distance, for time/drawdown graphs}
1          {t Time, for distance/drawdown graphs}
350        {L Leakage coefficient}
14         {Boundary distance}
365        {Strip width}
260        {T2 Transmissivity beyond the boundary or outside the strip}
6.94444e-4 {Start time for time/drawdown graphs, 0.00069444 days = 1 minute}
10         {Start distance for distance/drawdown graphs}
82         {Number of points to plot (82=about 1000 days time/dd graph}
d:\bp\cg\datclare\CLRPU1DD.ctd
{Above line (No. 16) can contain a full path and .CTD file name}

            File CGSimIn.txt, Explanation
   This file is used to provide initial configuration for program CGSim.EXE.
   If a .CTD file is read, then initial R and Q values will be obtained from
that file.  Also, the graph type will be set to TimeDd, and the No. of points
to plot may be increased.
   All lines above must be filled, there must be 3 lines containing strings
(capitalisation is important), followed by 12 lines containing numbers.  A
discharge test data file name on line No. 16 is optional.
   All comments down to line 15 must not start before column 12.  There must
be no comments on line 16.
Line 1, SolutionType: DisBound=Discharge boundary; RechBound=Recharge
 boundary; SemiBound=One boundary with a different transmissivity beyond it;
 SemiStrip=Two parallel boundaries with a different T outside of the strip,
 the same S everywhere.
Line 2, GrapType: Double linear; Semilogarithmic, Log/Log, Square root of
 time.
Line 3, Grap2Type: Time/Drawdown or Distance/Drawdown graph.
  {All units are days and metres}
