Post on 25-Jun-2020
FROGRAM FOR POTASH LOG ANALYSIS
Camma Ray Log
For 1. B.M.
LB.H.
Neutron Log
Sonic Log
Density Log
FORTRAN II
1620 Comp u ter (60K . storage)
1622 Card Reader Punch
DI SCUSSION OF THE METHOD
A recent paper published by t he C.I.M.M. entitled "Quantitative Log Evaluation of the
Prairie Evaporite Formations in Saskatchewarr' by Crain and Anderson describes a method
of making quantitative calculations 1n the potash bearing section of the prairie eva-
porlte formation using Gamma Ray, Neutron and Sonic logs . The Density log is mentioned
but is not. included in the calculations. In order to include the D'enaity log and assess
the various log combinations that can be assembled J this program has been prepared.
Ye are dealing with four minerals - Sylvite , Carnalite, Halite and insoluhles (Shale),
and want to find the percentage of each. An equation can be constructed from each of the
four logs and we can then solve them for the four unknowns. The four logs are Gamma Ray,
Neutron, Sonic and Density. If we let the eum of our four unknowne equal 100% we can
have a fifth equation to work with that allows ue to make e solution with only three
logs plus the summation equation.
MINERAL PARAMETER
Appearant K2 0 Hydrogen Index Appearant Sonic Rating (neutron 6) Density Travel Time
% .. gms/cc microseconds/ft
Salt Na Cl 0 0 2 .03 67.0
Sylvite K Cl 63 0 1.86 74.0
Carnalite K Cl Mg C12 . 6R2O 17 . 0 65.0 1.57 78
Insolublcs(ahale) 5.0 30.0 2.60 120.0
Making use of the tabulated parameters and with the symbols from the Crain-Anderson paper
where ts.lt - w, ~ Sylvite - xJ~ Carnalite - y and % insoluables a z.
From the Gamma Ray 0. ,;;~ 0.63x + 0 .11y + O.~ - K20 appearant -- eq'n 1
From the Neutron
0 . 65y + 0.30 • • ~n -- eq'n 2
-2-
From the Sonic
67w + 74x + 78y + 120 •• 100 6t log -- eq'n 3
From the Density log
2.02w + 1.86x + 1.57y + 2.60 •• 100')-- eq'n 4
Our fifth equation 1a the summation
x + y + z + w - 100 •• eq'n 5
The Gamma Ray is the only measurement that responds to potassium 80 we will need it in
every combination. We can substitute the summations equation for one of the three mea-
surements other than Gamma Ray and arrive at the following combinations.
Option (1) Gamma Ray, Neutron, Sonic
Equations 1, 2, 3 and 5
This 1s the combination used 1n the Crain-Anderson paper .
Option (2) Gamma Ray, Sonic. Density
Equations 1, 3, 4 and 5
Option (3) Gamma Ray. Neutron. Density
Equations 1, 2, 4 and 5
Option (4) Gamma Ray, Neutron, Sonic, Density
Equations I, 2, 3 and 4
Option (4) punches out the sum of x, Y. z and W 8S a check on the accuracy of the
calculations.
-3-
COMPUTER PROGRAM FOR POTASH LOG ANALYSIS
for I.B.M. 1620 computer (60K storage)
I.B.M. 1622 Card reader - punch
The purpose of the program 18 to compute the values of:
- percent sylvite
- percent carnalite
- percent salt (halite)
- percent in801ubles
from the data provided by various combinations of Gamma Ray, Neutron, Sonic and Density
logs.
PROGRAM INPUT REQUIREMENTS
The input i. by punched cards; one card for each interval to be evaluated.
PROGRAM OUTPUT
The output from the program is punched cards which can be used for off line listing.
They contain the computed values of percent Sylvite, Carnalite. Insoluble. and Salt
plus the input date for the level.
INPUT DATA
The input i8 punched cards with the format of: F5.1, F3.0. F4 .0 1 F3.I, F3.2, Fl.l
one card i8 punched for each level. Card layout is as follows:
Columns Function Instructions Units
1-5 D punch depth feet
6-8 G punch Gemma Ray A.P.I. Units
9-12 XNL punch Neutron Log reading A.P.1. Units
13-15 T punch Sonic Log reading microseconds per
16-18 ROW punch Density Log reading grms. per c.c.
19-21 H.S. punch hole size inches
foot
-4-
If all six columna of input are punched the program will select options (4) - Gamma
Ray, Neutron, Sonic, Density.
If another option, for a different log combination is desired then the appropriate
column of the input card is left blank. e.g. If information from the Gamma Ray, Neutron
and Sonic log a i_ available then the fifth field entitled ROW would then be left blank.
WELL INFORMATION CARDS
Five cards are provided for the name of the company, well name, location or any other
information that may be needed. The card format permits 80 columns to be used with any
combination of digits or alphabetical characters. Five well information cards must be
used whether they contain well information or are blank.
WELL PARAMETER CARD
This card contains the mud weight in Iba/gallon punched in columns 1-3. The number 99
is punched in columns 79·80. This is to allow the printing of an error message in case
the mud weight card is missing.
PROGRAM CONTROL CARD
To start processing data from a second 'Well, place a card with a minus one (-1) punched
in columns 1 to 5 after the last log data card. Follow this with 5 new well information
cards, a new well parameter card and then new log data cards.
TABLES
The relations between Gamma Ray deflection and K20 content and between Neutron log
reading and Hydrogen Index is contained 1n the following tables.
,
.B Gamma Ray deflection
A.P.I. Units
o
45
90
135
175
220
265
310
355
400
435
470
505
530
550
565
580
590
600
605
999
-5-
Table 1
c
!5.20 appearant
o
2.5
5.0
7.5
10.0
12.5
15.0
17 .5
20.0
22.5
25.0
27.5
30.0
32.5
35.0
37.0
40.0
42 . 5
45.0
47.5
99.9
-li-
Table 2
' R V Neutron deflection . Hydrogen Index
A.P.I. Units %
0 99
600 65
800 50
1100 35
1300 26
1500 20
1700 16
2000 12
2200 9
2400 7
2600 5
3200 3
3600 2
4300 1
6000 0
-7-
The program symbols for these tables are B, C, R t V as labeled and are read in with
4 tables carda with the follOWing format.
Sytllbol
GR log
H log
No
w
x
y
K20t
K20S
K20c
K20aPP
~n
d
m
6.t log
B Format 2l (F 3.0)
C Format 21 (F 3.1)
R Format 15 (F 4.0)
V Format 15 (F 4.0)
SYMBOLS USED IN TIlE PROGRAM
Computer program equivalent
D
G
GR
GRC
XNL
XNC
w
x
y
z
XKOT
XKOS
XKOC
XKOA
p
HS
WM
T
Definition
Depth
Gamma Ray reading from log
Gamma Ray reading corrected for hole size
Gamma Ray reading corrected for hole size and mud weight
Neutron reading from log
Neutron log reading corrected for hole size
Percent Halite
Percent Sylvite
Percent Carnalite
Percent Insolubles
Sylvite percentage as KZO
Carnalite percentage as K20
K20 appearant from Gamma Ray log
Hydrogen index from Neutron log
Hole size
Mud weight
Reading from Sonic log
Units
feet
A. P. 1. units
A.P.I. units
A.P.I. units
A.P.1. units
A.P.I. units
percent
percent
percent
percent
percent
percent
percent
percent
percent.
inches
lhs/U.S. gallon
microseconds/ft
-8-
Computer program S;:£!2bol eguivalent Definition Units
C RIM Reading from Density log gms/coco
SUM x+y+ w + z percent
B (J) Gamma Ray log values frO'al Table 1 A.P .r. units
C (J) K20 appearant values frOtq Table 1 percent:
R (K) Neutron log values from Table 2 , A.P.1. units
V (I<) Hydrogen Index values fr~ Table 2 Percent
(1) , P unch Headini"l
Correct Neu~ I
ITaCle Look Up i ~eut.. ._
Solve for W, X, y:- z-; E!T ,.9.9 • . K0~
Punch Results
(2)
FLOW DIAGRAM S.O.C. POTASH LOG ANALYSIS FOR GAMMA RAY. NEUT. SONIC & DENSITY LOGS
I Dimen s tonH: _ C!.. R t ~= =-=:J , __ ,_ J _ -:;-, ~~~L~'. ~, ~J'!.!~!~
I
I R;;d- F-o-rmallin- . ...t4!!!.!!late~ _~_ WM
r Read Log oaJa 1_0, GLN_1 t:, ROW J HS __ .1
r--·_.-1-~:.!~t Ca~a Ray - ,
I r T8.bl-; Look Up-Gamma Ray
.A.. /'" ............. +
. IF ,1
-L'~' ~:~ ~
.
/ ,~ IF
..... , XNL ' +
'--=~o I :Punch Heading
i --r Solve for W, X, 0 . z, K¢C, K0S ,
I Punch Results , ,
(1)
(2)
(3)
(4)
Gamma Ray, Neut. Sonic
Gamma Ray, Sonic Density
Gamma Ray Neut . Density
Gamma Ray Neut., Sonic , Density
'--< " + )--- IF
.,(3).. "" '-""TC( '/ --=-. .J_ (4)
[Punc~~eading ! - ~nch_~~d_~~g
[Correc-t Ne"ut:T I _ -- ~~~ct ~e.':'t .
ITable Look UPT ) Neut . I ITable- Look Up
r-) Neut. Solve for W, X, i _ ; Y, z, K¢S, K¢C ._ I Solve for W, X. Y, Z.
I. K0C, K0S, SUM Punch Results I
Punch Results
o [,r--,n
)
OBJECT DECK
4 TABLE CARDS
5 W~LL NAME CARDS
1 MUD WEIGHT CARD
LOG DATA CARDS
ENTER S0URCE PR~GRAl'I, PRESS START
1 30 F0RHAT(7.1F3 00)
7. 32 F0RHAT(7.1F301)
3 31 F0RHAT( 15F400)
4 40 FORHAT(24H S0C P0TASH L0G ANALYSISIII)
5 41 OF0RHAT(80H
1 )
6 45 F0RHAT(F301,75X,F2 o0)
7 46 F0RHAT(2X,l1HHUO ~IEIGtlT-F501)
8 20 F0RHAT(F5 01,F3 o0, F4 o0,F3o1,F3o2,F3o1)
9 43 F0RHAT(III)
10 42 F0RHAT(80H DEPTH GR NL SL HS INS0L CARN SYLV S
lALT K0T K0C K0S/I II
11 44 F0RHAT(19HTABLE L00K UP ERR0R)
12 145 F0RHAT(80HDEPTH GR SL R0W HS INS0L CARN SYLV
1 SALT K0 CAR K0 SYL /1/1
13 146 F0RHA T (F 70 1 ,F6 0 0, F 7 0 1 ,F 7 0 2, F6 0 1 ,4 (F8 0 1 ) ,2 (F 7 0 1 » 14 47 F0Rl'1AT(80H DEPTH GR NL R0W tiS INS0L CARN SYL
IV SALT K CAR K0 SYL/I II
15 48 F0RHAT(F701,F6 o0,F7o 0,F7o2,F6o 1,4(F8o1), 2(F701))
16 49 F0RHAT( 78HOEPTH GR NL SL R0W HS INS0L CARN SYLV SALT
1 SUH K0 C K0 SYL/I II
1 7 39 F0RHAT (F 7 0 1 ,F5 0 0, F6 0 0, F5 0 1 ,F5 0 2, FS 0 1 ,4 (F 601 ) .3 (F 7 0 1 ) )
18 22 F0RHA T (F 7 0 1 .2 (F6 0 0) .2 (F 60 1 ) • 7 ( 1 X. F6 0 1) )
199997 F0RHAT(SOH MUB WEIGHT CARD MISSING 99 C0L 79 HUD 1-3)
20 SUM-OoO
21 1'1-0
22 W-OoO
23 X-OoO
24 Y-OoO
?~ Z .. O.O
26 XK0TooO.D
• 27 XK0C-o.D
28 XK0S-D.D
29 XK0A-D.D
30 GR·O.O
3 I GRC-O.O
32 XNC-O.O
33 p.O.O
3" DIMENSION a(21),C(21),R(IS),V(IS)
35 READ 30.(B(J),J~I,21)
3L READ 32,(C(J),J-I,21)
37 READ 31,(R(K), K-I.1S)
38 READ 31,(V(K),K-l,IS)
39 70 PUNCH 40
40 00 54 Hal,S . 41 REAO 41
42 54 PUNCH .41
il3 215 READ ilS.WM , ,TEST
41, IF(TEST-99.0)998,115, 99H
45 998 PRINT 9997
46 PAUSE
il7 GO T0 215
48 115 PUNCH l.t" WH
49 PUNCH 43
50 15 READ 20,D,G,XNL,T,ROW,IIS
51 IF(D)60,u2,62
52 60 PUNCH 1'3 , •
53 Gil TO 70
5" 62 GR-G*(1.0+.OS*(HS-6.0»+(320.*(HS-6.0»/(G+l00.0)
55 GRC-GR*(1.0+0.10*(WM-7.2»)
56 DU 6 J-l, 21 ,1
57 IF (GRC-U(J» 1',5 ,6
59 PUNCH Ill,
60 GO TD 15
61 5 XKOA-C(J)
62 G0 Til 2
63 4 XKOA-C(J-I)+(C(J)-C(J-I»*(GRC-B(J-I»/(B(J)-B(J-I»
61, 2 IF(RIlW)90,90,91
65 90 H~1
66
67
68
69
70
71
73
71,
75
76
77
78
79
80
81
82
83
84
8S
86
87
68
89
90
1F(H-I)17,18,17
18 PUNCH 42
17 XNC-XNL*(1.0+0.OS*(HS-6.0»
011 7 K-l, I 5 , I
IF(XNC-R(K» 10,9,7
7 CONTINUE
PUNCH 1>4
Gil Til 15
9 paVeK)
Gil Til 12
10 P-V(K-l)+(V(K)-V(K-l»*(XNC-R(K-I»/(R(K)-R(K-I»
12 Z-2.07*T-.23*XKOA-.29*P-140.0
Y-I.54*p- . 46*Z
X-I.59*XKIlA-O.41*P+.04*Z
W-I.50*T-I.79*XKIlA-I.38*p-1.3*Z
XKIlT-XKOA-0.05*Z
XKIlC-O.17*V
XKIlS-o. 63 *x
PUNc;,H "li·,D ... l>.XNL, T ,.HS ,Z ,Y ,X,W ,XKIlT ,XKIlC ,XK0S
IF(S£NS£ SWITCH 9) 16,15 . I
91 IF(XNL)92,92,93
92 IWI+I .
IF(H-!;)SO.51 ,50
51 PUNCH 1 "5 - . 50 Z-34.~*RIlW+l.49*T-.0286*XKIlA-170.0
.. .... - ......... - • .. I.a .... ." n~+T • .,nn n
•
92 Y-ll.o*T-S.78.Z-1 . 12*XKBA-7~0.0
93 W-3. 3*Z--. 772*XKIlA-B. 03*T +640.0
91, XK0S-.63*X
95 XK0C-O.17*Y
96 PUNCH 146,O,G,T,R0W,HS,Z, Y,X,W,XK0C,XK0s
97 IF(SENSE SWITCH9)16,IS
98 93 IF-(T)9~,9~,95
99 9~ H-H+l
100 IF(H-1J52,53,52
101 53 PUNCH 47
102 52 XNC-XNL*(I . D+0. OS*(HS-6.0»
103 008 K-l,15,1
101, IF(XNC-R(K»13 , I~,O
105 8 C0NTINUE
106 PUNCH 44
107 r.C TO 15
loa 14 P-vO<J
109 G0 TO 63
110 13 P-V(K-l)+(V(K)-V(K-l»*(XNC-R(K-l»/(R(K)-R(K-l»
111 63 Z--265.D+.836*P+.344*XK0A+130.0*R0W
112 X-l.59*XK0A+.G455*Z-.416*P
113 Y-l.5~*P-.462*Z
11', W~9. 3*RIlW-. 962*Z-. 8OB*p-1 .46*XK0A
115 XK0S-.63*X
116 XK0C-.17*Y
117 PUNCH 1~,O,G,XNL , R0W,HS,Z,Y,X,W,XK0C,XK0S
118 IF(SENSE SWITCH9)16,15
119 95 M-M+l
120 IF(H-l)19,24,19
121 24 PUNCH 1'9
122 XNC-XNL*(1.D+0.05*(HS-o.O»
123 19 DO 2S K-l , 15, 1
125 25 CONTINUE
126 PUNCH 44
127 GO T0 15
128· 27 P~V(K)
129 GO T0 29
130 26 P-V(K-l)+(V(K)-V(K-l»*(XNC-R(K-l»/(R(K)-R(K-l»
131 29 Z--lI,4.0*R0W-l.50*P-.852*XK0A+I'.3*T
132 Y-l.54*p-.462*Z
133 X-l.59*XK0A- . 416*p+.0455*Z
131, w.l.49*T-l.304*Z-I.33*P-l.75*XK0A
135 SUMaX+Y+Z+W
136 XKOC-.17*Y
137 XK0S-.63*X
138 PUNCH 39,D,G,XNl,T,R0W,HS,Z,Y,X,W,SUM,XK0C,XK0S
139 IF(SENSE SWITCH 9)16,15
140 16 ST0P
141 END
TURN SW 1 ON FOR SYfl00L TABLE, PRESS START
0000 11040 00001 11045 00021 11 050 00015 11055 00005 11 060
'" 1 POTA<" w e. ~ .;"
DEP TH GR NL SL HS I NSOL _CAR N SY LV Sfll T KO T KOC KOS
4000 .0 22 . 2300. 6 4 .!.i 6 . 1 - 9. 1 16 .3 -1.2 95.0 1.9 2.1 -.7 40 00 . 5 30. 1600. 13.0 6 . 1 5.'t 2' .. 9 -3.9 74.1 1.7 4.2 -2.4
- 4001. 0 26. L6 50. 76.5 6 . 1 1 ~ .0 19 .9 -3.6 71.4 1.0 3.3 -2.2 4001.5 20 . 1800 . 77.0 6 .1 14. 8 15. 5 3.2 73.7 .5 2.6 -2.0 40 02.0 20 . 2250. 74. 5 6.1 11.4 7 . 6 -.8 82.8 .7 1.2 - . 5 40 02 .5 1 8;. 2800. 71. 5 6.1 6.5 3.3 .4 90 . 8 .8 .5 .2 400 3 .0 16 ' 2800. 71.5 6.1 6.5 3.3 .2 91.0 . 7 .5 .1 4003.5 20. 2650. 72.0 6.1 7.3 3.9 .4 89.4 .9 .6 .2 4 ~04. 0 22. 2550. 11.5 6.1 6.1 5.4 .3 89.2 1. 1 .9 .2 4004 . 5 26. 2450. 72.5 6.1 7.8 6.2 .4 86.6 1.3 1.0 . 2 400 5 .0 32. 2300. 73.5 6.1 9.3 7.8 .5 83.3 1.6 1 .3 .3 i 40 05 .5 40. 2350. 73.0 6.1 8.3 7.5 1.5 83.7 2.2 1.2 .9 400 6 .0 42. 2600. 113 ... 0 6.1 9.0 3.4 2.7 85.9 2.3 .5 1.7 400 6 .5 60. 2600. 72.0 6.1 6.6 4.5 4.5 85.3 3.6 .7 2.8 4007 ._0 e~ . 2100, 11.5 6.1 5. /t 4.5 7.1 84. 0 5.2 .7 4.5 4007.5 60. 2800. 72.5 6.1 7.9 2.7 4.9 85.5 3.5 .4 3.1 I 400 8 .0 40. 3050. 71.0 6.1 5.4 2.3 3.1 90.3 2.3 .3 1.9 ,
400 8.5 60. 3300. 69.5 6.1 2.2 2.4 5.4 91.0 3.8 .4 3.4 4009.0 110. 3700. 70.0 6.1 2.8 .9 11.0 86 .3 7.1 • 1 6.9 4009.5 200. 4100. 71.0 6.1 3.6 - . 2 21.1 76.4 13.2 0. 0 13.3
- 4010.0 27Q. 4050. 71! 5 6·1 3.5 -. 1 2 8 .4 68.9 17·8 0. 0 17.9 4 010.5 340. 3750. 72 . 0 6.1 3.', .5 35. 1 60.9 22.5 0.0 22.5 4011.0 300. 3650. 72.5 6.1 5 . 0 0.0 31 . 4 64.2 19.7 0.0 19.8 4011.5 280. 3700. 73.0 6.1 6.3 -.6 29.4 65.6 18.4 - . 1 18.5 4012.0 335. 3950. 13.0 6.1 5.6 -.9 35.3 60.6 22.0 -. 1 22.2 4012.5 370. 4000. 73.0 6.1. 5.0 -.7 39.9 56.3 25.0 - .1 25.1 4013 _.0 195,' HOQ, n.5 6-1 5.5 - 1. 1 43.3 52.6 27 .1 -.1 27.3 4013.5 360. 4050. 14.0 6.1 7. 2 -1.8 38.7 56.4 24 . 0 .3 24.4 4014.0 325. 3800.- 73.5 6. 1 6 . 7 -1 .1 34.2 60.8 21.3 -.1 21.5 4014 . 5 280. 3300. 73.0 6.1 6.1 .6 29.0 64.8 18.4 .1 18.3 401 5. 0 23 5. 3300 . 73.0 6.1 6.8 .3 24.4 69.2 15.4 0.0 15.3 401 5.5 270 . 3 900 . 73.0 6.1 6.6 -1.3 28.5 . 66.9 17.7 -.2 17.9 401 6. 0_ <-20 . 415 0 . 72.0 6.1 5.3 -1.0 23.3 13.2 14 . 5 -.1 14.7 _ . 4016. 5 170 . 3950. 71.0 6.1 4.0 -.2 17 .9 79.2 11.2 0.0 11.3 4017 .0 122 . 3650. 71.0 6.1 4.6 .2 12.4 83.7 7.8 0.0 7. 8 4017. 5 la'i. 3/,6 0 . 70.5 6 . 1 2.5 1.7 19.0 77 . 6 12.2 .2 12.0 401 8 .0 70. 3500. 70.5 6.1 4.3 .7 6.7 89 .3 4. 4 .1 4.2 401 8. 5 6 2. 3550. 70. 5 6.1 4.4 .5 5.9 90.1 3. 8 0.0 3.7 401 9.9 _ _ eo . 3 160 , 70.5 6.1 3.9 · 2.4 1.4 87.4 5.0 .4 4.6 401 9 . 5 140 . 3100. 70.5 6.1 2.9 3.2 13.9 80.9 9.3 .5 8.7 40 20 .0 17 8. 3100. 72.0 6.1 5.4 2.0 18 .1 75.3 11.7 .3 1l.4 ... ~ ... ~ " , ..,...,,,,, 7? < ~ -, ,." 1 • 3 23.0 70.6 14.7 .2 . 14 .5
1B14 GENERAL PURPOSE CARD PUNCHING FORM PUNCHING INSTR UCTIONS
JOB SOC POTASH Loo ANALYSI S WRITTEN AS: 20 0Rl-\.jT (F . 1 , (f 4 . ~).2 F4 . ).F 3 1)
BY DATE PUNCH AS : Sam
~,
N ..... .... U.S. A.
-~, TO " U ,
7 I 45 7 t 34567 I q 5 7 I 2 3 ~ 6 8 9 I q 6 8 0 1123 q 5 6 78
I I I I I I I 2 I I I , ,
I I I , , I 2 I I I , , I
l """ 2 "'" I
4 "" " 2 I I , , I ,
5 ,I , , I , I 2 " " I
S '" I I I 2 6 I I , , , I
1 I; I I I I 2 "" I I
8 "" I I 2 " I , I I
9 " I , , I 2 I I I I I
o I I I , I I 3 " I I I I
I """ 3 I I I I , I I
1 " I , I ' 3 """
II """ I I , , , I
4 """ I I I , , ,
5 'I" 5 I I I , I I
6 " I" 6 """
11 I" I , I 7 I I , I,' ,
18 " ' " 8 '" I I I I I I I I I I I I I
19 I I I , I 3 I I , I , , ,
~ I I, I , I I 4 " I , I I
) PAGE _
IBM 1
FORTRAN C0tJING FORM
f ..... Oa.-llF·.
P!,II'ICl'li"g Instructions Page 1 ,I 4 Program SOC Potash Log Analys is Program Grooh;c Cord Form" • Ident ification
Programmer W.B. Anderson lDote Puncn 1 1 , " "
C fOil (OMMfNT
ts,,,nM!NI i NUMBER ~ FORTRAN STATEMENT , . , , ,
" " " " J<) " " ., '" " '" " " " 1/ ""- oJ''' "M,n r (a o'~ ,
, 11 , 1 , , , , , , I? 70 ,",111'/1,0"1'1<"5 I Z(,c+.C),'<'fl. I ) ,J'3 • . t)
3 22 ,c.i "M,n r I r •. • ' Z /." • n ",2., £<,. I L, Z,( l~" I ) ),
1I , 0 ? d "1,or ( 7 11,c~, . 0)
I< , I r" • u . • .,. ( I !J ~ . 0 ),
l ~% r .l'/1·-.,.(2/,c3. I)
11 40 1<".1 OM.'''' (L ,.us"c P """ S·u LoB • AU l." 5 T S /,/ / ) , la 4t o l C"~Du .• ~(OO#p~p~H CR VL q. U'5 .:IiA's "', C .,f ,BiN , S.tL. .II . .s
!J L"" I , ki'1". , Itt p,e. , .(.ds,lll)
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IBM IBM I FORTRAN CulliNG FORM
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PunChing InS TruC Tions Page 1 01 4
Program soc Potash Log Analvsis 1 Programmer W.B. Anderson
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Id ent if icotion Program SOC Potash Log Analysis Program G' OOh,c.
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Proqfom SOC Potash Log Analysis Program Grophic Cord Form tI • Identification
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FORTRAN CODING FORM PUI"ICl'iing Inslruclions Page 4 ,I 4
Program SOC Potash Log Analysis Program Graphic Corel Form'- • Identification
Programmer W. B. Anderson
IOoie PunCh I , , J , , • , I
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soc POTASH lOG A~'"YSIS
- ------PORQUP!NE PRIME lMPERIAL (2-6-27-25W2 .
DEPTH GR I'l~ . SL . HS ' INSOL CARN SYLV ·. SALT ' KOT KOC KOS ·
.' 4000.0 '22. ',2,'300 .. '64~5 6. 1 ,.9.1 ~6"3 .. :'1.2 :, 95.0 ! 1.9 2~7 .... '7 4000.5 30,' 1'600 0 113.0 6.1 5,.<' '24.9 ! :'3.9 . 74.1 1.7 !>.2 -2.'4 4001;0 __ 26" 1650. (76.·5 6.1 13.0 19.9 -3.6 71.4 1.0 3.3 -2.2 4001 ~ 5 20. 1·800., 117.0 6;) 14 • . 8 15.5 , -3.2 73.7 .5 2.6 2.0 4002.0 20.' 2250. ":74.5 6 •. 1 11.'4 7"6 -.8 82.8 .7 1.2 -.' 4002.5 18. 2800"'_:71.5 6"1 I 6 '.5 3.3 .4 ' 90.8 .8 .5 .2 4003 .. 0 :16~ 2800 .. al.S 6.1 6.5 '3.3 .2 . 91.0 . .7 '.5 .1 4003.5 20 ~ 2650 ~ .72.0 6'.1 7.3 3.9 .4 ' 89.4 . .9 .6 .2 4004.0 22' 2550 , :71.5 6 ; 1 6.1 5.4 .3 89.2 ' 1.1 .9 .2 4004.5 26. 2450. :72.5 6 ; 1 . 7.8 6.2 .4 , 86.6 1.3 1.0 .2 4005.0 320 2300 • . , <73;5 6.1 9.3 7.8 .5 83.3 1.6 J.3 .3 4006.5 , 40. 2350 ; J,;73.0 6.1 8.3 7.5 1.5 _. _ 83.7 2.2 1.2 .9 4006.0 42 J.! 2600 j; a3.0 6. 1 9.0 .3.4 2.7 ; 85.9 2.3 -.5 1.7 4006.5 60. _ 2600. 72.0 6.1 6.6 4.5 4.5 ' 85.3 3.6 . • 7 2.8
_ !,,oJl.1.0 84 • . 2700 " 71:5 6·. L 5.', 4.5 7.1 ' 84.0 5.2 .7 4.5 4007.5 60 . 2 800. 12.5 6.1 7.9 2.7 .. 4.9 85.5 3.5 .4 3.1 400'8.0 40 " 3050 . ·71.0 6.1 5.4 2.3 3.1 90.3 2.3 .3 1.9 4008.5 60. 3300; 69.5 6.1 2.2 2.4 5.4_'_. 91.0 _~ 3.8 .4 3 '.4 4009;0 110' 3700; 110.0 6.1 2.8 ~9 11.0 86.3 7.1 .1 6.9 4009.5 2.00;.4100 • . :71.0 6.1 3.6 ' . -.2 21.1 . , 76.4 . 13.2 0 .0 . 13.3
_40I,O.0_ 2.1lL" 405Q • . 1105 6.1 '6.5 -.1 ' 28.4 , 68.9 17.8 0.0 17.9 4010.5 340 < 3750 . :72.0 6.1 .1 "3.4 .5 35.7 . 60.9 22.5 0.0 22.5 ~01J..0 300. 3650. 72:5 6.1 5.0 0.0 31.4 , 64.2 19.7 , 0.0 19.8 4011.5 280~ 370 0 . ~3.0 6.1 6.3 -.6 29.4 65.6 18.4 -.1 18.5 4012. C 335 ., 3950.' 113.0 6.1 5.6 -.9 35.3 60.6 22.0 . . - '.1 22.2 4012.5 370. 4000. 73.0 6.1 5.0 . -.7 39.9 56.3 25.0 . -.1 25.1 40 .. 1.3 • 0...332.L!t.l ,1l..0.. .73 • .:; __ 6'-'· .~1~-c5 ',-:5,---=-~1. L.....4 .. ~.~3'--"""5~2". 6>;--' ~2~7C'.~;1:--~. -........ ",1_·~2~7C'.",3,--_ 4013.5 360 . 4050 ~ d4.0 6.1 7.2 -1.8 38.7 56.4 24.0 -.3 24.4 4 C14.0 325. 3800;1 ./3.5 6 '.1 6.7 -1.1 34.2 60.8 21.3 -.1 21.5 4014.5 280,,· 3300. 73.0 6.1 1 6.1 .6 29.0 64.8 18.4 .1 18.3 l,015 . 0 235. 3300.' :73.0 6.1 6.8 .3 24.4 , 69.2 15.4 0.0 15.3 4015.5 270 . 3 9 00 .. 73.0 6.1 6.6 -1.3 28.5 6 6 .9 17.7 -.2 17.9
.....!>.0 .. 1 .. 6 . 0~0. 4150. 72.0 6.1 5.3 -l.O 2.3.3 13.2:--~1,!-4.L.5~_",-.... *I_~l~4c..~7 __ 401'6 .3 170. 3950" '71.0 6.1 4.0 -.2 17;9 79.2 11.2 0.0 11.3 4017 .1 1220 3650. :71.0 6.1 4.6 .2 12.4 83.7 7.8 0.0 7.8 4017.5 184.' 3460; 70.5 6.1 2.5 1.7 ~ 19.0 '-.77.6 _ ,_ 12.2 __ . • 2. 12.0 4018. 0 70. 3500" 70.5 6.1 4.3 ~7 , 6.7 , 89.3 4.4 '.1 4.2 4018.5 62. 3550 0 ~0 . 5 6.1 4.4 . .5 5.9 90.1 , 3.8 o ~o 3.7
_ 4,O,l9.0 __ 8 .. 0,-,.~.-!3~1 ,!6 ,!0 ... --:7~0~',-:5,---,!6",.~I _ _ 3:'c.",9~_~2c",=4,---:-~7".4~.~8~7C",=4,---,-. ::o5"",!0 __ -,.",·4o--· _,,4 .... ~6 __ 4019.5 .140. ·3100 . 70.5 6.1 2.9 3.2 13.9 80 .• 9 9.3 , .5 8.7 4020.0 ~78; '3100. 72.0 6.1 ' 5.4 2.0 18.1 ' 75.3 11.7 ~3 11.4 4020.5 224 0 3200. ~2.5 6.1 5.8 ~.3 23.0 . 70.6 14.7 .2 14.5
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,4021.0 320. 3670. 72.5 6.1 4.7 .1 33.5 62.2 21.1 0.0 21.1 4021.5 390. ,900. 13.5 6.,1 5.6 -.8 42.6 53.1 26.6 -.1, 26.8 4022.0 410. 3950. 73.5 6.1 5.2 -.7 45.3 50.6 28.4 -.1 28.5
_ ---.040_2,2,. ,5_ 38°"-3650-'-7,3.5 6 .1 5.6 -.2 41.1 53.9 25.8c-~0>c,",0~~2~5".~9,-4023.0 300;' 3300; 73.0 6.1 5.8 .8 31.1 62.8 19.7 ,'.1 19.6 4023.5 100; 3100. 72.5 6.1 7.7 .9 9.5 82.8 6.2 ,I 6.0 4024.0 90. 3500. 71.0 6.1 5.0 .4 8.9 S6.7 5.6 0.0 5~6
',024;5 98'. 3800;' 70.0 6.1 3.0 .6 9.8 87.6 6.3 '.1 6.2 , 4025;0 108; 420D; 70.0 6.1 3.0 0;0 11.0 87.1 6.9 0.0 6.S
_ --.;40,25.5 68< 4350. 70.0 6.1 3.3 -.2 9.0 89.1 5.6 0.0 5.6 4026.0 70. '>160; 70.0 6.1 '-3.5 .2 7.1 90.8 4.4 0.0 4 ... 4026.5 60; 4100. 69.5 6.1 2.6 .2 6.0 92.3 3.8 0.0 3.7 4027.0 64, 4200, 69.5 6.1 2.6 .1 6.4 92.0 4.0 0.0 4.0 4027.5 100; 4300. 70.0 6.1 3.1 -.1 10.2 87.9 6.4 0.0 6.4 4028.0 1~4" 4150; ~O.O 6.1 2.3 ;3 15.2 83.1 9.6 0.0 9.5
__ 4028;5 __ 8.0,LJ,900~0 .• 5 6~1 4.3 -.2 8.1 89.0 5" 'C0:c-_-"0"",,;,0,-_,,,5''c'l~ 4029.0 48; 3300; 69.5 6.1 2.7 .7 , 4.6 93.1, 3.0 .1 2.9 4029.5 65; 3150; 69.5 6.1 2.0 3.3 5.7 90.0 , 4.1 .5 S.6 4030.0 100; 3100~ 70.5 6.1 3.5 2.9 '.4 85.2 6.4 ;4 5.9 4030.5 200. 3600. 72.5 6.1 6.5 -;4 20.9 73.9 13.1 0.0 13.2 4031;0 322, ' 4150: ~3.0 6.1 5.9 -1;3 34.0 62.0 21.2 -.2 21.4
_--,,' 40 31 ; 5 395.. 38.0 0 .'i.......l3~0 __ 6 .... '!1~...;4!--'.,,'4~_-"0-;,.'10_-'4~3~c.'-'1~~5~2:-'-.~9...,..._2~7f;.'-jl_, __ 0~.,-,0~~2~7c'.~2~ 4032,0 310~ 3400. 73;0 6.1 , 5.7 .3 32.3 62.2 ' 20.4 0.0 20.3 4032.5 225; 3150; 73.5 6.1 7.8 .6 23.1 69.1. 14.7 ,1 14.6 4033.0 280. 3700; ~4.0 &.1 8.4 -1.6 29.5 64.4 , 18.3 p.2 18.5 4033,5 420; 4300; 73.5 6.1 5.1 -1.0 46.7 49.6 29.2 - '.1 29.4 4034.0 470, 4430. 73.5 6.1 3.5 - .4 57.4 39.6 36.0 0.0 36.1
_~4"O,3,4i 5 '440, 4'150. '14.0 6.1-hl,-_-=lL.1"-~5"0,,.,,,2~~4~5L' 7~--,3~lw.",4,--_=-~.~2_--,3",1~.'C6,-4035.0 385,' 3860. ~4.0 6.1 6.7 -1.2 41.9 53.0 26.2 , -.2 26'.4 4035;5 355 ; 3900; 74.0 6.1 7.3 , -1.6 37.9 56.9 23.6 -.2 23.9 4036.0 342v 4100. 73.5 6.1 6.6 -1.5 36.2 59.3 22.5 -.2 22.8 4036,5 378< 4200. 73.0 6.1 4.8 -.8 41.0 55.4 , 25.7 -.1 25.8 4037.0 340; 3650; ~3.5 6.1 6.4 , -.5 35.7 59.0 22.4 0.0 22.5
__ 40,33, • .5--.2 5Jl.L..,3 2 0 0 • 73. 5 6~1 I 7 dc-_=-"" 6"-~2,-,6,-,.'-!.7,-~6~6~. 0~--,1~6~.~9'-_-"-:',,~1_-,1~6~.~8!-4038;0 262. 2840; , ,74.'0 6.1 7.9 2.4 26.5 63.7 17.1 .4 16.7 4038;5 370; 3200; 73,5 6.1 5.5 1.4 39.3 54.1 24.9 .2 24.7 4039;0 426; 3650; 73.5 6.1 4.7 .1 47.2 48.1 29.7 0.0 29.7 4039,5 430; 3400 ; '75.0 6.1 7.6 -.4 47.9 45.2 30.1 0.0 30.2 ' ,040 ,0 3~5, 3200,-, il6.0 6.1 10.2 -.6 42.8 48.0 26.8 , -.1 27.0 4,040-,,2...3112,<-3..!i.OQ. 16: 5 6.1 11.5 --=2.5 43.2 48.~2~~2~6,".-"8,-_~=-:,,,4=-~2:-!7C'.~2C'7 4041:0 345~ 3500: 75.0 6.1 9.~ -1.5 36.4 56.3 22.6 , -.2 22.9 4041,5 260~ 3450. 73.0 6.1 J 6 . 5 -.1 27.1 67.2 17.0 0.0' 17.r 4042;0 220:' 3300 '" 72.0 6.1 '" 4. 9 1.2 22.1 71.9 14.5 :2 14~3 4042.5 120: 3,150" 71.0 6'.1 ',.3 2.2 11.7 82.7 1.7 .3 7.3 4043:0 86: 3100~ 70 :5 6.1 I 3.7 2.8 7.~ 86.6 5.4 .4 5.0
__ 40,<3 . ...5 66.J._;\,36~0. 10.5 6.1 4.3 1.2 6.2-8..2..,~4,-_:!4~.!:-1 __ ~.~2:-_~3~.~9_ 4044.0 62. 3650. 10.0 6;1 i 3. 5 .7 '6.0 90.9 3.9 .1 3.1 4044.5 50: 3950~ 69.5 6.1 2.7 ' :3 4.9 93.2 3.1 0.0 3.1 40!t5:..0 · 50~ 4100. :69.0 _6-.1 -1 1.7 -.6 4.9- 93 .. 9 3.2 .1 3.1 4045.5 40. 3900'-' 6~.0 6.1 I 1. B .8 3.8 94.7 2.5 .1 ' 2.4 40',6.0 35: 3900. 69.0 6.1 1. 9 .8 3.3' ~5.2 2.2 ' .1 2.0
_ -,,-4,046. 5 _ _ 't0~3850<-"'p,9.5 __ i>.._L....-2.9, .5~_-,;3.8 _ _ 94.0 __ 2,. ,5 0.0 2.4 ',047.0 ,68. 4000. 69.0 6.1 1 1.5 .8 6.7 92.1 4.4 .1 4.2 4047:5 90. 42 00 . 69.5 6.1 2.2 .3 9.1 89.4 5.8 0.0 5.7 4048.0 70: 4020. 70.0 6.1 3.5 -.1 7.0 90.1 4.4 0.0 4.4
40~S.5 80~ 3200 . 69.5 6.1 2.2 .~ 7.9 90.0 5.1 .1 5.0 40 49 . 0 92. 3710. 70.0 6.1 3.0 .8 9.1 88.1 5.9 .1 5.7 IIO~9 w5 76 w .!~ Ol;·O .: 71.0 6.1 5.5 -1.0 7.8 88 .. 9 4.7 - '.1 4.9 4050 •. 0 _ _ 4 3 -"-'~OO O. 70. 5 __ 6 • 1 ' •• 9 -.7 4. 8 __ 9 2 • .?;-_~2C",-;9;-_-;-;-",-;I<-_-;3p'''0;-_ 4050.5 30, 4040. 69.5 6.1 3.1 0.0 2.8 95.2 1.8 0.0 1.8 4051.0 23 . 3950; 7 0.0 6. 1 4.1 -.2 2.6 94.8 1.6 0.0 1.6 4051.5 3B. 4000. 69.5 6.1 2.9 .1 3.7 94.4 2.3 0.0 2.3 4052 .0 33. 3800. 69.0 6.1 1.8 1.1 3.5 94.7 2.4 .1 2.2 4052.5 62. 3500. 69.5 6.1 2.3 1.6 5.8 91.3 3.9 .2 3.6
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. 4056 . 0 _ _ 42 .• _290~U .5 6 .•. L .18 .6 __ -2. 8 3 ... 6 __ 81. 7 __ 1. 8: _ _ -;-c",;:4;-_~2,",.-;2c-_ 4056.5 32; 3650. 70.0 6.1 3.9 .5 2.8 93.9 1.9 0.0 1.8 4 05 7.0 26. 3150; 69.0 6.1 2.0 1.1 2.2 95.8 1.6 .2 1.4 4 057 .5 22 ~ 3950. 69.0 6.1 2.1 .6 1.9 96.5 1.3 .1 1.2 4058 . 0 20. 4100. 69.0 6 .1 2.2 .4 1.8 96.8 1.2 0.0 1.1 4058.5 22. 4000. 69.5 6.1 3.2 0.0 2.0 96.0 1.3 0.0 1.2 ' ,059 .0 __ 20_,,-4.100. 70.0 6.L-.', .3 -. 5 1 •. 9 __ 95.6 1.'-!1c-_-':0.0 r.2 4059 .5 I S; 4100. 70.0 6.1 4.3 -.5 1.7 95.8 .9 0.0 1.0 4 0~0 .0 20. 3900. 69.5 6.1 3.2 .2 1.7 96.0 1.1 0.0 l.r ~060.5 18. 3870 0 69.5 6.1 3.2 .3 1.5 96 .2 1.0 0.0 .9 4C5 1. 0 ! S ~ 3800. 69.5 6.1 3.2 . 5 1.5 96 .1 1.0 0.0 .9 406 1.5 20, 3800. 70.0 6.1 4.2 0.0 1.7 95. 3 1.1 0.0 1.1
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