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2     AA CEMENT PLANT   6,000 T/D AQC GAS BALANCE       2 2              AQC SYMULATION HEAT BALANCE     2
          AQC  SYMULATION  PROGRAM   3             3 3     Base Temp('): 30 3
REGISTERED NO. :   AQC-0001       Mr. AAAAAA  COPYRIGHT :   RYUTA HANAO  [ NO COPY ]  4   KILN 2nd AIR NSP 2nd AIR middle AIR AQC EXHOUST GAS   4 4   ORIGINAL   4
5 <DATA INPUT> AA CEMENT PLANT             5 5 Run
 
0.3079 (Nm3/cl-Kg) 0.4795 (Nm3/cl-Kg) 0.7186 (Nm3/cl-Kg) 0.4940 (Nm3/cl-Kg)   5 5   <IN> ( % ) W or V * Cp * ( T - Ts ) = Kcal/H   5
6 AQC CAPACITY   (T/H) 250.00 6,000 (T/D) CHAMBER NUMBER (KE) 7 ( min : 5 ) 6 6 1186 1192.59 ('C) 730 739.00 ('C) 366.21 ('C) 164.86 ('C)   6 6   CL  SENS.HEAT   95.06 1.0 * 0.260 * ( 1370.0 - ) = 356.32 348.52 6
7         See Q19  7 7       middle + EXHOUST TOTAL 7 7   AIR SENS.HEAT 1 0.57 232.0 * 0.309 * ( 30.0 - ) = 2.15 0.00 7
8 DIMENTION CHAM. NO 0 1 2 3 4 5 6 7 8 8   1.2126 (Nm3/cl-Kg) 8 8          do 2 0.98 396.0 * 0.309 * ( 30.0 - ) = 3.67 0.00 8
9   LENGTH(m) ***  1.64 4.27 4.26 5.90 4.26 5.90 4.26 9 9   CLINKER 297 284.18 ('C)   9 9          do 3 0.87 352.0 * 0.309 * ( 30.0 - ) = 3.26 0.00 9
10   WIDTH (m) 3.60 3.60 4.20 4.20 4.20 4.20 4.20 4.20 10 10   250.0 (T/H)       10 10          do 4 0.76 306.0 * 0.309 * ( 30.0 - ) = 2.84 0.00 10
11         Input DATA at Q30:X31 11   11   1,370 ('C)   11 11          do 5 0.54 220.0 * 0.309 * ( 30.0 - ) = 2.04 0.00 11
12 COOLING AIR (Nm3/H) 500,000 58,000 99,000 88,000 76,500 55,000 72,000 51,500 12 12     12 12          do 6 0.71 288.0 * 0.309 * ( 30.0 - ) = 2.67 0.00 12
13 COOLING AIR  TAIR('C) ***  30 30 30 30 30 30 30 13 13 AQC EFFICIENCY( % )     13 13          do 7 0.51 206.0 * 0.309 * ( 30.0 - ) = 1.91   13
14   (Nm3/cl-Kg) 2.0000 Input DATA at R25:X26 14 14 0゚C 64.58 2.547 5.333 12.460   14 14   TOTAL 100.00 374.85 348.52 14
15   KILN 2nd AIR NSP 2nd AIR MIDDLE AIR WASTE AIR 15 15 30゚C 67.20       15 15       15
16 WAST GAS WGKN(Nm3/H) TGKN('C) WGSP(Nm3/H) TGSP('C) WGM(Nm3/H) TGM('C) WGW(Nm3/H) TGW('C) 16 16     16 16       16
17 EXHOUST WASTE AIR 76,976 ***  119,886 ***  179,638 ***  123,500 ***  17 17 CHAMBER ( min : 5 )   17 17   <OUT>   W or V * Cp * ( T - Ts ) = Kcal/H   17
18 0.7874 (Nm3/cl-Kg) 0.3079 39.1% 0.4795 60.9% 0.7186 0.4940 18 18 NUMBER 7 10.17 5.90 4.26 5.90 4.26   18 18   CL  SENS.HEAT GAS 4.70 1.0 * 0.189 * ( 93.1 - ) = 17.60 11.93 18
19       Input STROKE DATA at Q20:Q23 ↓ TOTAL 500,000 (Nm3/H) 19 19   STROKE changing 1 2 3 4 5 6 7   19 19   2ND AIR KILN AIR 33.48 307.9 * 0.342 * ( 1192.6 - ) = 125.52 122.36 19
20   CHAM. NO   1 2 3 4 5 6 7 20 20 1 stage 15 GRATE  L= 30.51 (m)   20 20   2ND AIR NSP AIR 31.10 479.5 * 0.329 * ( 739.0 - ) = 116.58 111.85 20
21 GRATE STROKE ST(SPM) 15.0 15.0 15.0 15.0 15.0 15.0 15.0 21 21 2 stage 15 gross A(m2)= 128.134 B= 3.60 ---- 4.200 (m)   21 21       MIDDLE AIR AIR 22.35 718.6 * 0.318 * ( 366.2 - ) = 83.78 76.92 21
22   LENGTH LG(m) 0.127 0.127 0.127 0.127 0.127 0.127 0.127 22 22 3 stage 15   22 22   WASTE GAS AIR 6.79 494.0 0.313 * ( 164.9 - ) = 25.46 20.83 22
23 EFFICIENCY EFF(-) 0.720 0.720 0.720 0.720 0.720 0.720 0.720 23 23   CHAMBER 1 2 3 4 5 6 7 TOTAL  CLINKER   23 23   HEAT LOSS   1.58 * * ( - ) = 5.91 4.64 23
24 24 24 COOLING AIR 0.232 0.396 0.352 0.306 0.220 0.288 0.206 2.0000 (Nm3/cl-Kg) 250.0 (T/H) 24 24   TOTAL 100.00           = 374.85 348.52 24
25 DIVIDED CLINKER BED  1 2 3 4 5 6 7 25 25 ORIGINAL (Nm3/H) 58,000 99,000 88,000 76,500 55,000 72,000 51,500 500,000 Kg/cl-Kg ('C)   25 25                         25
26 VERTICAL ELEMENT 20 20 20 20 20 20 20 26 26   ('C) 30 30 30 30 30 30 30 30   Black 0.0750 284.18 :dust 26 26   AQC HEAT RECOVERY EFFI. 64.58 (%) 67.20   26
27 LONGITUDINAL SEGMENT 40 40 40 40 40 40 40 27 27   0.9250 77.57 :cl' 27 27       27
28 orange VALUE: Usally, no need to change. 28 28   Bed Depth(m) 0.675 0.628 0.579 0.579 0.579 0.579 0.579 ***  1.0000 93.06 95 28 28     Run
  28
29 CLINKER SPCIFICATION DENV(T/m3) DENR(T/m3) DP(m)     SHAPE FACTOR(FAI) 29 29   P.Drop(mmAq) 943 581 445 314 307 292 287 ***    29 29     29
30   1.25 3.10 0.015   1.0 30 30   Grate   L(m) 1.64 4.27 4.26 5.90 4.26 5.90 4.26 30.51 gross 1.95 (cl-T/H.m2) 30 30   note:  This SYMULATION negrects the influence by DUST fron kiln.     30
31                 31 31 B(m) 3.6 3.60 4.20 4.20 4.20 4.20 4.20 4.20 ***  net 1.99 (cl-T/H.m2) 31 31     This heat balance has a few difference from the 4NSP_sys-sheet:"AQC HEAT BALANCE".   31
32     32 32   net A(m2) 5.90 16.65 17.91 24.80 17.91 24.80 17.91 125.87   32   33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49  
33 ADJUSTMENT FACTOR  1 2 3 4 5 6 7 33 33   Air load 164 99 82 51 51 48 48 66 (Nm3/min/m2)   33
34          HEAT TRNSFER EPSI(-) 1.400 1.100 1.100 1.100 1.100 1.100 1.100 34 34   Air speed 3.03 1.83 1.51 0.95 0.95 0.90 0.89 1.22 (m/s)   34 AQC input 1.0830 * 0.260 * 1370.0 = 385.90
35          HEAT TRNSFER AREA KSI(-) 0.590     Input DATA at Q53:X53     35 35   CHAMBER 1 2 3 4 5 6 7 TOTAL  (#1-2) (#3-7) Nm3/clKg 35 KILN dust -0.0330 * 0.250 * 1192.6 = -9.85
36          PRESSURE DROP PSI(-) 1.400     Input DATA at Q55:X55     36 36 Fo.FAN V(Bm3/m) 1610 2750 1960 1700 1230 1600 1150 12000 Vα= 1.50 1.20 2.5949 36 NSP dust -0.0500 * 0.225 * 739.0 = -8.33
37          OUTLET GAS TEMP ALW(-) 1.024 1.024 1.024 1.025 1.025 1.025 1.025 37 37 SPEC: P(mmAq) 1140 700 540 380 370 360 350 ***  Pα= 1.20 1.20   37   1.0000              a -b : 11.39 : c 367.71 356.32  
38     38 38   Po(KW) 375 393 216 132 93 118 82 1409 Fn = 0.80 0.80   38 a b
39 TEMP OF INPUT KLINKER    TCLK('C) 1,370           ENVIRONMENT AIR TEMP('C) 30   39 39   Pm(KW) 430 460 250 160 110 140 100 1650 Mn = 0.96 0.96   39 AQC dust    0.0750 * 0.201 * 284.2 = 4.27
40 CLINKER Kg/clKg: 1.000 DUST in EXHAUST Kg/clKg: 0.075   40 40   Mα= 1.10 1.10   40 AQC output    0.9250 * 0.189 * 77.6 = 13.57
41               41 41                             41   1.0000              a -b : 0.24 : d 17.85 17.60  
42 42   16 17 18 19 20 21 22 23 24 25 26 27 28 29  
  3 4 5 6 7 8 9 10 11 12   deffrence 11.15 : c - d
                        B-hitach 158 96 79 50 50 47 47 : Air load( for reference ) (Nm3/min/m2) 2.97%
    CP-type 160 94 76 53 51 46 46 : Air load( for reference ) (Nm3/min/m2)
46 <INPUTDATA>                 Run
 
46 Conventional 160 95 70 55 60 60 60 : Air load( for reference ) (Nm3/min/m2)
47 AQC CAPACITY(T/H) 250 CHAMBER KE= 7 47 IKN-type 160 95 65 45 40 30 35 : Air load( for reference ) (Nm3/min/m2)
48   48
49   CHAM. NO 1 2 3 4 5 6 7 49 B-hitach 1.000 1.400 1.100 1.100 1.100 1.100 1.100 1.100 : ( for reference )
50   VERTICAL ELEMENT 20 20 20 20 20 20 20 50 CP-type 1.055 1.504 2.154 1.500 1.300 1.300 1.300 1.300 : ( for reference )
51   LONGITUDINAL SEGMENT 40 40 40 40 40 40 40 51 Conventional 0.960 0.893 0.905 1.018 0.932 0.932 0.932 0.932 : ( for reference )
52     52 IKN-type 1.000 1.690 3.650 3.100 1.000 0.950 0.900 0.900 : ( for reference )
53 VOLUME WEIGHT DENV(T/m3) 1.25 CLINKER SIZE (m) 0.015 53   1.000 1.400 1.100 1.100 1.100 1.100 1.100 1.100 : ADJUSTMENT OF HEAT TRANSFER FACTOR
54 SPECIFIC GRAVITY DENR(T/m3) 3.1 CLINKERSHAPE FACTOR (-) 1 54 CHAMBER 1--7  1 2 3 4 5 6 7
55 CLINKER TEMP TCKL('C) 1370 HETA TRNSFER AREA FACTOR         (-) 0.59 55   1.000 1.024 1.024 1.024 1.025 1.025 1.025 1.025 : ADJUSTMENT OF OUTPUT GAS TEMPERATURE
56 ENVIRONMENT AIR TEMP('C) 30 PRESSURE DROP FACTOR (-) 1.4 56 IKN-type 1.000 1.024 1.024 1.024 1.025 1.025 1.025 1.025 : ( for reference )
57      57 Conventional 1.000 1.024 1.024 1.024 1.025 1.025 1.025 1.025 : ( for reference )
58   CHAM. NO 1 2 3 4 5 6 7 58 CP-type 0.999 1.024 1.024 1.024 1.025 1.025 1.025 1.025 : ( for reference )
59 LENGTH L(m) 1.64 4.27 4.26 5.90 4.26 5.90 4.26 59 B-hitach 1.000 1.024 1.024 1.024 1.025 1.025 1.025 1.025 : ( for reference )
60 WIDHT B(m) 3.60 3.60 4.20 4.20 4.20 4.20 4.20 60
61 AREA S(m2) 5.90 16.65 17.91 24.80 17.91 24.80 17.91 61
Run
62 GAS VOLUME WG(Nm3/h) 58,000 99,000 88,000 76,500 55,000 72,000 51,500 62
63 AIR LOAD AL(Nm3/m2.m) 163.73 99.13 81.90 51.42 51.19 48.39 47.93 63
64 GRATE STOROKE ST(SPM) 15 15 15 15 15 15 15 64
65 GRATE LENGTH LG(m) 0.127 0.127 0.127 0.127 0.127 0.127 0.127 65
66 EFFICIENCY E(-) 0.720 0.720 0.720 0.720 0.720 0.720 0.720 66
67 COOLING AIR TEMP TG('C) 30 30 30 30 30 30 30 67
68 68
69 <OUTPUT DATA>                 69
70   CHAM. NO 1 2 3 4 5 6 7 70
71 CL VELOCITY V(m/h) 82.296 82.296 82.296 82.296 82.296 82.296 82.296 71
72 CL BED DEPTH HAV(m) 0.675 0.628 0.579 0.579 0.579 0.579 0.579 72
73 PRESSUR DROP PCL(mmAq) 943.271 580.62 444.917 314.390 307.102 291.775 287.411 73
74 AIR  HV CG(Kcal/Nm3.'C) 0.317 0.313 0.311 0.310 0.309 0.309 0.309 74
75 CLINKER HV CM(Kcal/T.'C) 214.739 202.500 194.553 190.504 188.412 187.114 186.300 75
76 HEAT TRANSFER FACTOR EPSI(-) 1.400 1.100 1.100 1.100 1.100 1.100 1.100 76
77 HEAT TRANSFER  KHT(Kcal/m2.h.'C) 88.127 47.758 40.565 30.127 29.551 28.318 27.990 77
78 78
79 CHAM. NO 1 2 3 4 5 6 7 79
80 CL BED OUT AVE AIR TEMP  TGOUT('C) 1207.99 820.54 515.58 369.15 256.44 185.30 136.28 80
81 CL BED AVE AIR TEMP TGAVC('C) 659.14 401.09 236.88 166.65 116.35 87.19 68.31 81
82 CL BED AVE CLN TEMP TMAVC('C) 1171.79 779.70 473.65 298.73 203.90 143.49 104.58 82
83 83
84     AVE GAS TEMP TGOAV('C) 1207.99 820.54 515.58 369.15 256.44 185.30 136.28 84
85     AVE GAS HV CGOK(Kcal/Nm3.'C) 0.3423 0.3313 0.3226 0.3185 0.3153 0.3133 0.3119 85
86 86
87 WASTE GAS WGW(Nm3/h) 123,500 TGW('C) 164.86 CGW(Kcal/Nm3.'C) 0.3080 87
88       MIDDLE AIR WGM(Nm3/h) 179,638 TGM('C) 366.21 CGM(Kcal/Nm3.'C) 0.3080 88
89 NSP  2ND AIR WGSP(Nm3/h) 119,886 TGSP('C) 739.00 CGSP(Kcal/Nm3.'C) 0.3080 89
90 KILN 2ND AIR WGKL(Nm3/h) 76,976 TKL('C) 1192.59 CGKL(Kcal/Nm3.'C) 0.3423 90
91 TOTAL AQC COOLING AIR TWG(Nm3/h) 500,000 ENVIROMENT TEMP('C) 30.00 CGO(Kcal/Nm3.'C) 0.3089 91
92 CLINKER  INPUT CAP(T/H) 250 TCL('C) 1370.00 CMCLI(Kcal/T.'C) 260.09 92
93 OUTPUT CAP(T/H) 250 TCL('C) 93.06 CMCL(Kcal/T.'C) 189.17 93
94     94
95 CHAM NO SEG NO ZONE LENGTH(m) 95
96 RECOVERY ZONE OF KILN 2ND AIR KK= 2 JK= 8 XK= 2.547 96
97 RECOVERY ZONE OF NSP  2ND AIR KS= 3 JS= 18 XS= 5.333 97
98 DISTANCE KS2= 7.880 98
99 RECOVERY ZONE OF   MIDDLE AIR DISTANCE MS3= 20.340 99
100 100
101 Run
101
102                     102
  3 4 5 6 7 8 9 10 11 12  
109 CHAM. NO LENGTH CL(ELE-10) GAS out Cham. Wall GAS in Rec'ry Point CL(AVE) 109                             109
110 CHAM   1 0.041 1,347 1,360 15 30 1352 1,352 110   CLINKER TEMPERATURE   110  
111   0.205 1,291 1,312   30 -100 1,308 111     111  
112   0.410 1,224 1,279   30 -100 1,256 112   CHAM   1 SEG 1 5 10 15 20 25 30 35 40   112  
113   0.615 1,161 1,245   30 -100 1,206 113   ELM    1 1,350 1,274 1,185 1,102 1,025 954 887 826 769     113  
114   0.820 1,103 1,210   30 -100 1,158 114   ELM    5 1,350 1,289 1,217 1,149 1,085 1,025 968 914 863   114  
115   1.025 1,048 1,176   30 -100 1,112 115   ELM   10 1,347 1,291 1,224 1,161 1,103 1,048 996 948 902   115  
116   1.230 996 1,142   30 -100 1,068 116   ELM   15 1,356 1,336 1,310 1,283 1,254 1,225 1,196 1,166 1,135   116  
117   1.435 948 1,108   30 -100 1,026 117   ELM   20 1,356 1,352 1,344 1,334 1,322 1,309 1,293 1,276 1,258     117  
118   1.640 902 1,074 15 30 -100 985 118   AVE. TEMP 1,351.72 1,308.39 1,255.99 1,205.89 1,157.95 1,112.04 1,068.05 1,025.87 985.41 ( 'C)   118  
119 CHAM   2 1.747 880 1,049   30 -100 965 119   CHAM   2 SEG 1 5 10 15 20 25 30 35 40   119  
120   2.174 828 993   30 918 918 120   ELM    1 752 689 619 555 499 448 404 363 328   120  
121   2.707 768 933   30 862 862 121   ELM    5 843 786 719 658 602 551 504 461 422   121  
122   3.241 712 875   30 -100 809 122   ELM   10 880 828 768 712 661 613 569 528 490     122  
123   3.774 661 819   30 -100 759 123   ELM   15 1,115 1,077 1,029 980 932 884 838 792 748   123  
124   4.308 613 766   30 -100 711 124   ELM   20 1,236 1,211 1,176 1,139 1,100 1,060 1,018 976 934   124  
125   4.841 569 714   30 -100 667 125   AVE. TEMP 965.16 918.30 862.22 809.12 758.89 711.41 666.57 624.27 584.40 ( 'C)   125  
126   5.375 528 666   30 -100 624 126   CHAM   3 SEG 1 5 10 15 20 25 30 35 40   126  
127   5.908 490 620 15 30 -100 584 127   ELM    1 322 299 273 250 228 209 192 176 162     127  
128 CHAM   3 6.015 480 632   30 -110 574 128   ELM    5 414 389 360 333 309 286 266 247 229   128  
129   6.441 456 605   30 -110 548 129   ELM   10 480 456 428 402 378 355 334 315 296   129  
130   6.974 428 573   30 -110 518 130   ELM   15 735 706 671 638 606 575 546 518 491   130  
131   7.507 402 543   30 489 489 131   ELM   20 917 890 855 821 788 756 724 693 663   131  
132   8.040 378 514   30 462 462 132   AVE. TEMP 573.51 547.98 517.61 488.95 461.92 436.42 412.36 389.69 368.31 ( 'C)   132  
133   8.573 355 487   30 -110 436 133   CHAM   4 SEG 1 5 10 15 20 25 30 35 40   133  
134   9.106 334 461   30 -110 412 134   ELM    1 160 149 137 126 116 108 100 93 86   134  
135   9.639 315 437   30 -110 390 135   ELM    5 224 212 197 183 170 159 148 139 130   135  
136   10.172 296 414 15 30 -110 368 136   ELM   10 289 277 261 247 233 221 209 197 187   136  
137 CHAM   4 10.320 289 447   30 -110 361 137   ELM   15 482 463 440 418 397 377 358 340 323   137  
138   10.910 277 430   30 -110 346 138   ELM   20 650 629 603 578 554 531 508 486 464   138  
139   11.648 261 409   30 -110 328 139   AVE. TEMP 360.97 345.74 327.61 310.47 294.26 278.95 264.49 250.84 237.95 ( 'C)   139  
140   12.386 247 388   30 -110 310 140   CHAM   5 SEG 1 5 10 15 20 25 30 35 40   140  
141   13.124 233 368   30 -110 294 141   ELM    1 86 82 78 75 71 68 66 63 61   141  
142   13.862 221 350   30 -110 279 142   ELM    5 128 123 117 112 107 103 98 94 91   142  
143   14.600 209 332   30 -110 264 143   ELM   10 184 178 171 165 159 153 147 142 137   143  
144   15.338 197 315   30 -110 251 144   ELM   15 318 309 297 286 276 266 256 247 238   144  
145   16.076 187 300 15 30 -110 238 145   ELM   20 458 446 431 417 404 391 378 365 353   145  
146 CHAM   5 16.183 184 294   30 -110 235 146   AVE. TEMP 234.53 227.57 219.20 211.17 203.47 196.09 189.02 182.24 175.75 ( 'C)   146  
147   16.609 178 286   30 -110 228 147   CHAM   6 SEG 1 5 10 15 20 25 30 35 40   147  
148   17.142 171 276   30 -110 219 148   ELM    1 60 58 55 52 50 48 46 45 43   148  
149   17.675 165 266   30 -110 211 149   ELM    5 89 85 81 77 73 70 67 64 61   149  
150   18.208 159 256   30 -110 203 150   ELM   10 134 129 123 117 112 107 102 98 94   150  
151   18.741 153 247   30 -110 196 151   ELM   15 233 224 213 203 194 184 176 168 160   151  
152   19.274 147 238   30 -90 189 152   ELM   20 346 334 320 306 292 280 267 256 245   152  
153   19.807 142 230   30 -90 182 153   AVE. TEMP 172.37 165.93 158.28 151.07 144.25 137.83 131.77 126.06 120.67 ( 'C)   153  
154   20.340 137 222 15 30 176 176 154   CHAM   7 SEG 1 5 10 15 20 25 30 35 40   154  
155 CHAM   6 20.488 134 219   30 -90 172 155   ELM    1 43 42 42 41 40 39 39 38 37   155  
156   21.078 129 212   30 -90 166 156   ELM    5 61 59 58 56 55 53 52 51 50   156  
157   21.816 123 203   30 -90 158 157   ELM   10 92 90 88 85 83 80 78 76 74   157  
158   22.554 117 194   30 -90 151 158   ELM   15 158 154 149 144 139 135 131 127 123   158  
159   23.292 112 185   30 -90 144 159   ELM   20 241 235 228 221 214 207 201 195 189   159  
160   24.030 107 177   30   138 160   AVE. TEMP 119.02 116.14 112.66 109.34 106.15 103.10 100.18 97.38 94.70 ( 'C)   160  
161   24.768 102 169   30   132 161     161  
162   25.506 98 162   30   126 162                             162  
163   26.244 94 155 15 30   121 163   GAS  TEMPERATURE 163  
164 CHAM   7 26.351 92 152   30   119 164   164  
165   26.777 90 149   30   116 165   GAS out SEG 1 5 10 15 20 25 30 35 40 165  
166   27.310 88 145   30   113 166   CHAM   1 1,360 1,312 1,279 1,245 1,210 1,176 1,142 1,108 1,074 166  
167   27.843 85 140   30   109 167   CHAM   2 1,049 993 933 875 819 766 714 666 620 167  
168   28.376 83 136   30   106 168   CHAM   3 632 605 573 543 514 487 461 437 414 168  
169   28.909 80 132   30   103 169   CHAM   4 447 430 409 388 368 350 332 315 300 169  
170   29.442 78 129   30   100 170   CHAM   5 294 286 276 266 256 247 238 230 222 170  
171   29.975 76 125   30   97 171   CHAM   6 219 212 203 194 185 177 169 162 155 171  
172   30.508 74 122 15 30 95 95 172   CHAM   7 152 149 145 140 136 132 129 125 122 172  
  3 4 5 6 7 8 9 10 173     173  
174   174  
175   175  
176   GAS  TEMPERATURE 176  
177   177  
178   GAS in SEG 1 5 10 15 20 25 30 35 40 178  
179   CHAM   1 30 30 30 30 30 30 30 30 30 179  
180   CHAM   2 30 30 30 30 30 30 30 30 30 180  
181   CHAM   3 30 30 30 30 30 30 30 30 30 181  
182   CHAM   4 30 30 30 30 30 30 30 30 30 182  
183   CHAM   5 30 30 30 30 30 30 30 30 30 183  
184   CHAM   6 30 30 30 30 30 30 30 30 30 184  
185   CHAM   7 30 30 30 30 30 30 30 30 30 185  
186   186  
187   187  
188   188  
189   189  
190   190  
191                             191  
  16 17 18 19 20 21 22 23 24 25 26 27 28 29