the coking properties of coal at elevated pressures. - Argonne ...

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FIG. 3. TEM MICROGRAPH OF MICROSTRUCTURE CONTAINING SPORINITE (Sp) AND SEMIFUSINITE (SF). A QUARTZ GRAIN (See Arrow) IS LODGED IN A CELL CAVITY IN THE SEMIFUSINITE (SF). FIG. 4. OPTICAL MICROGRAPH SHOWING EPIGENETIC PYRITE (Py) FILLING THE CRUSHED CELL CAVITIES IN THE SEMIFUSINITE (SF). 136

\ \ FIG. 5. SEM MICROGRAPH SHOWING CALCITE DEPOSIT (See Arrows) IN CLEAT. FRAMBOIDS ENCLOSED IN VITRINITE (V) ALSO CAN BE SEEN. 137 PYRITE (Py)

Page 1 and 2: I / The Coking Properties of Coal a

Page 3 and 4: Procedure : Hand picked lunips of c

Page 5 and 6: Apparatus: The equipment for this t

Page 7 and 8: the total pressure on the swelling

Page 9 and 10: A comparison of the results obtaine

Page 11 and 12: was used, however, general trends a

Page 13 and 14: 1 D 13 3 G

Page 16 and 17: Table 8 L_ Effect os FaeO Compo.lrl

Page 18 and 19: i-l SPARE SAblPLE Plortlc 209 Figur

Page 20 and 21: - z c 100,000 50,000 10,000 0 n 5,0

Page 22 and 23: Flnure 9 SWELLltlG PROPERTIES OF PI

Page 24 and 25: Fi ure 13 EFFECT OF TOTAL PRESSQRE,

Page 26 and 27: TABLE 1. OPERATING CONDITIONS Opera

Page 28 and 29: 1. . 2. 3. 4. 5. 6. 7. 8. 9. REFERE

Page 30 and 31: Figure 4. SCANNING ELECTRON MICROGR

Page 32 and 33: Turkgodan et al. (18) studied the p

Page 34 and 35: Materidl balance on packed bed Boun

Page 36 and 37: These phenomena iiiay be described

Page 38 and 39: Walker, P. L., Rusinko, F., and Aus

Page 40 and 41: -""I- *I,".. I Dlrf".,on Co.1flcl.n

Page 42 and 43: After a variable residence time, th

Page 44 and 45: Changes in Char Chemistry The infra

Page 46 and 47: 20. 21. 22. 23. 24. 25. 26. 27. 28.

Page 48 and 49: 0s-a 00-a OS'S 00-E os-2 00-2 02.1

Page 50 and 51: COAL PYROLYSIS AT HIGH TEMPERATURES

Page 52 and 53: actions, decreasing the secondary c

Page 54 and 55: 01 40 60 TI MEISeC) 80 100 120 140

Page 56 and 57: Reaction Temperature OC In-situ Ini

Page 58 and 59: and the gas velocity is often repre

Page 60 and 61: The mathematical model developed he

Page 62 and 63: si sio Fraction of solid species i

Page 64 and 65: Table 2. Differential Equations Mod

Page 66 and 67: 1 60 I I RUN KE-5 50 T.1121K(1557'F

Page 68 and 69: to condense excess steam, the press

Page 70 and 71: conversion-time data.* The integrat

Page 72 and 73: catalyzed and uncatalyzed runs were

Page 74 and 75: CATALYTIC EFFECTS OF ALKALI METAL S

Page 76 and 77: %me thermogravimetric measurements

Page 78 and 79: than in steam. Figure 9 shows data

Page 80 and 81: C - C02 REACTION C - H20 REACTION L

Page 82 and 83: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11.

Page 84 and 85: n 'm L u. t m - L 84

Page 87 and 88: i 5360-096bw \ KINETICS OF POTASSIU

Page 89 and 90: t 5360-096pj There is an interactio

Page 91 and 92: 1 I > \ i I 5360-096bw bed data. Be

Page 93 and 94: I 1. I 5360-096bw ranging from atmo

Page 95 and 96: uY.ku ICHlMAlIC OF MINI-FLUID BE0 R

Page 97 and 98: 800-12-1133 -9 FIGURE IO CALCULATED

Page 99 and 100: Mexico coal. Table 1 shows an analy

Page 101 and 102: ', Complete results from all runs c

Page 103 and 104: I the methanol down to atmospheric

Page 105 and 106: TABLE 3 -----______________________

Page 107 and 108: \ "I N z 107 c. . 0 0

Page 109 and 110: I. INTRODUCTION DIRECT METHANATION

Page 111 and 112: The catalyst development program fo

Page 113 and 114: Preparing process flow diagrams and

Page 115 and 116: \ \ i 1. 2,000 4,000 6,000 8,000 10

Page 117 and 118: (JMS-OlBM-2). The mass spectra were

Page 119 and 120: I I Fairbridge, R.W. (ed.) 1972, En

Page 121 and 122: v- W V z d 3 z m 4 ? P m W c3 W m N

Page 123 and 124: e. \ I , W 2 m 4 t- CI 99-79 noooo

Page 125 and 126: L Table I: Compositions of High Tem

Page 127 and 128: \ " \ I For all three coals, the pr

Page 129 and 130: 4 , 1024 1024 3a 3b J Mineral Parti

Page 131 and 132: The Determination of Mineral Distri

Page 133 and 134: pyrite crystals in framboids locate

Page 135: FIG. 1. TEM MICROGRAPH OF A HIGH VO

Page 139 and 140: \ , species. In fact, combustion ex

Page 141 and 142: 1, It is possible to make a reasona

Page 143 and 144: \ i SURFACE AND BULK ENRICHMENT OF

Page 145 and 146: I Coal Ash Sintering Model and the

Page 147 and 148: 5 carried out such sintering measur

Page 149 and 150: I this ash and other bituminous coa

Page 151 and 152: forming propensity. However, none o

Page 153 and 154: t I 153

Page 155 and 156: CENTRAL ELECTRICIN RESEARCH LABORAT

Page 157 and 158: 157 18 I I a I

Page 159 and 160: temperature, sulfur species concent

Page 161 and 162: The facility is fired with coal usi

Page 163 and 164: Tests have been carried out to dete

Page 165 and 166: under which conditions sulfur speci

Page 167 and 168: I TITANIUM L Corn AS A TRACER FOR D

Page 169 and 170: E 6 i i h \ 1 1 \ on the XRF is cau

Page 171 and 172: \ ? CONCLUSIONS Titanium can accura

Page 173 and 174: NY) m * oa

Page 175 and 176: GFETC constructed a 0.2 square mete

Page 177 and 178: \: Stage 3. Sulfated ash-cemented a

Page 179 and 180: I FIG. 1. Initial ash coating on qu

Page 181 and 182: FIG 9. Limestone bed material alter

Page 183 and 184: (4) Since the operating temperature

Page 185 and 186: I I maximum particle diameter leavi

Page 187 and 188: ! suspension chambers and cyclone f

Page 189 and 190: Pilot Plant of a Coal Fired Fluidiz

Page 191 and 192: After the fiscal year 1982, the fol

Page 193 and 194: MBC CBC Fig. 1 Boiler Structure 193

Page 195 and 196: \ i Table 2. Coal Properties Planne

Page 197 and 198: -2- more than 3 years, since 1977.

Page 199 and 200: , I B. 2 which temporarily raised t

Page 201 and 202: -6- abrasion rate at the bottom of

Page 203 and 204: \if F3.3 - Particulate Circulation

Page 205 and 206: \' I/O. analog 1/13. industrial I/O

Page 207 and 208: ACQUISITION DATA UNIT < I L- J (T)

Page 209 and 210: SAMPLING SYSTEM FOR FLUIDIZED BED A

Page 211 and 212: GAS SAMPLING WITH ORIGINAL PROBE-FI

Page 213 and 214: Remove the quartz tube (gas sample

Page 215 and 216: ' ' The modifications have been com

Page 217 and 218: n n D 217

Page 219 and 220: With regard to the similarity parti

Page 221 and 222: i \ ' 2.2. soz Emission and NOx Emi

Page 223 and 224: 223

Page 225 and 226: Figure 9: Sulphur captLTre as 0 fun

Page 227 and 228: P SUMMARY OF TESTS Testing complete

Page 229 and 230: I Table 1 Comparison of Sulfur Capt

Page 231 and 232: , NITROGEN OXIDE REDUCTION Single-S

Page 233 and 234: 0 The addition of air at the 96-inc

Page 235 and 236: m- Y i? 4: BO n 8 c Y l0- Bo- I I I

Page 237 and 238: E! w 2 z e Y 100 - 3 t 5 80- 0, 40

Page 239 and 240: 0 f 0.so o'm: 0.300 0.zo - - A 5m 4

Page 241 and 242: &e- -A \ \ \ : ERCENT OVERBED AIR I

Page 243 and 244: PARTICLE ENTRAINMENT AND NITRIC OXI

Page 245 and 246: i 1' 1 ! I. i Chaung (15) showed th

Page 247 and 248: The maximum height that a large par

Page 249 and 250: 3.0 Nitric Oxide Reduction in the F

Page 251 and 252: assumed to be identical to that of

Page 253 and 254: Nomenclature A *t cD ‘NO $3 _ _ _

Page 255 and 256: TABLE 2. OPERATING CONDITIONS AND E

Page 257 and 258: i 1 \ ', References 1. 2. ( 3. 1 4.

Page 259 and 260: \ ” Y) I 259

Page 261 and 262: t I 100 - - I I ] , I , I , I 'ii 9

Page 263 and 264: Feeding of the carbonaceous materia

Page 265 and 266: ! Table 2 Proximate and ultimate an

Page 267 and 268: lb, , --pp---p-- 4 p? CHAR 1 Tu-IWO

Page 269 and 270: I CHAR Y Y /I TIME O i ' ' ' ' 1 '

Page 271 and 272: could not be assumed constant. Thus

Page 273 and 274: \ greatly acknowledged. Literature

Page 275 and 276: constructed and operated to demonst

Page 277 and 278: The experimental procedure for the

Page 279 and 280: atmospheric pressure fluidized bed

Page 281 and 282: 1' TABLE 2 Screen Analysis of Sand

Page 283 and 284: n RECORDER I Ill I ’ NO. NOX THER

Page 285 and 286: \ 285 Y 0 I- 5 B 5 3 m "9 E5 3 uz 0

Page 287 and 288: CHAR1 TOC 0.85 M3/k 600 0 700 V 750

Page 289 and 290: f Durin all the experimental runs t

Page 291 and 292: Assuming that large coal particles

Page 293 and 294: i 7 -_ 0 m\o --n 0 W i 293 a\o 0

Page 295 and 296: The influence of particle size dist

Page 297 and 298: all the initial values of x for whi

Page 299 and 300: \ - + 1) x. = 1 bL/n YO Defining di

Page 301 and 302: $ m. 1 Results and Discussion Evalu

Page 303 and 304: kl k2 k' KC KD m m. m P N P R R g t

Page 305 and 306: UNBURNT FRACTION UNBURNT FRACTION m

carbon

combustion

char

particles

particle

fluidized

reactor

coals

sulfur

reduction

coking

properties

elevated

argonne

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