Encyclopaedia Index

CONTENTS


GRND

------ Real flag; value=-10110.0 ------

GRND....To set a quantity equal to GRND is an indication that the EARTH program is to look in the appropriate place in the open-source Fortran file GROUND.FOR information. For example, RHO1=GRND means that a sequence in GROUP 9 of GROUND is to be sought, in which coding has been provided for the setting of an array of values of first-phase density.

The user will have provided the appropriate coding in the just-shown template file, compiled the subroutine, and re-built the earth executable.

Coefficients and values in COVAL arguments can also be set to GRND, GRND1,....GRND10, for the provision of non-linear sources. Enter COVAL for more information.

GRND has the numerical value -10110.0 .


GRND1

----- Real flag; value=-10120.0 ------ groups 2,3,4,5,9,10,11 and 13.

GRND1....acts in the same way as GRND ( see GRND for details ), but permits GROUND to distinguish options according to value. For example, subroutine GXRHO distinguishes the following options ( amongst others ):

RHO1=GRND1 for an enthalpy-dependent density field; and
RHO1=GRND3 for an isentropic-gas-law density field.

See PHENC entry GRNDx.

GRND2

----- Real flag; value=-10130.0 ------ groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND3

Real flag; value=-10140.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND4

Real flag; value=-10150.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND5

Real flag; value=-10160.0; groups 2,3,4,5,9,10,11 and 13.

GRND6

Real flag; value=-10170.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND7

Real flag; value=-10180.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND8

Real flag; value=-10190.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND9

Real flag; value=-10200.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.

GRND10

Real flag; value=-10210.0; groups 2,3,4,5,9,10,11 and 13.

See PHENC entry GRNDx.


GRNDx, ie GRND1, GRND2, .......... GRND10 and their equivalents.

Since the earliest days of PHOENICS, these variables have been used for making selections, in the Q1 file, of options in GROUND files.

Starting with version 2.2, SATELLITE recognises certain equivalents, the names of which indicate the meanings of the choices.

The following lists enumerate these. The equivalent names may be entered with either upper-or lower-case characters.

More such equivalents will be introduced for multi-phase flow and other problem classes

The following may be used for GRNDx:
               PIL variables to be assigned -------->           
GRNDx : RHO1 ENUL ENUT TMP1/2 EL1/2 AZDZ
GRND1 : LINSCAL LINTEM PROPLEN CONST LINEARX PROPX
GRND2 : RECSCAL QUADTEM MIXLEN LINH LINEARY PROPY
GRND3 : COMPRESS POWERTEM PRKOLM LINHCMAX LINEARZ  
GRND4 : LINTEMP STRAIN HARNAK CONSTAGH KE15DEP  
GRND5 : IDEALGAS BINGHAM SAFFSPAL VARSTAGH KEVOSQOM  
GRND6 : 3GASES SUTHLAND KOLMOG   MIXLENJET  
GRND7 : 7GASES TEMSTEP LVEL SCRSEQ MIXLENBL  
GRND8 : CHEMIST EXSCRS1 NIKURPIP SCRSNONEQ    
GRND9 : CHEMIST EXSCRS2 NIKURCH      
GRND10: FILE FILE FILE FILE VARIOUS  

PRNDTL(TEM1)

-GRND10: CONDFILE

In COVAL statements, the following equivalents are recognised for CO, the third argument:
GRNDx : walls chemical reactions
GRND1 : BLASIUS  
GRND2 : LOGLAW  
GRND3 : GENLAW  
GRND4 :    
GRND5 :   TEMPOWER
GRND6 :   ARRHEN
GRND7 :   POLYNOM
GRND8 :    
GRND9 :   EBU
GRND10:    

In COVAL statements, the following equivalents are recognised for VAL, the fourth argument:

    GRNDx :  walls    buoyancy  polar    chemical reactions
    --------
    GRND1 :  BLASIUS  DENSITY   SETSPEED
    GRND2 :  LOGLAW   DENSDIFF
    GRND3 :  GENLAW   BOUSS
    GRND4 :           LINBC
    GRND5 :
    GRND6 :
    GRND7 :
    GRND8 :
    GRND9 :                              EBU
    GRND10:

wbs