Prediction of batch heat transfer coefficients for pseudoplastic fluids ...

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32. TABLE 2-1 f i MDlllroM REYNOLDS NUMBER NEEDED TO ACHIEVE MOVEMElfi~NEARA VESSEL WALL FOR PSEUDOPLASTIC FLUfD~: Dt/Da SINGLE TWO FAN PROPELLER TURBINE TURBINES TURBIJ:m 4.8 640 3 • .5 300 90 3.0 270 120 2.4 7.5 2.3 320 2.1 160 70 2 .. 0 110 50 1.75 50-55 1 .. 50 90 200 1.40 40-45 1.33 50 30 1.17 40-45 1 .. 05 35 1.02 35 . ~} Data from Metzner et al. (122)

33 (2-29 when both the distances are measured in inches.

Page 1 and 2: Copyright Warning & Restrictions Th

Page 3 and 4: PREDICTION OF BATCH HEAT TRANSFER C

Page 5 and 6: while the latter has five to seven

Page 7 and 8: ACKNOWLEDGEMENTS The auther ex~ress

Page 9 and 10: Chapter 1: Chapter 2: Introducticm

Page 11 and 12: LIST OF FIGURES page 2-1 FlGW Behav

Page 13 and 14: CHAPTER I INTRODUCTION BATCH HEAT T

Page 15 and 16: 3 as pseudoplasticso Pseudoplastic

Page 17 and 18: 5 ~n addition to studying the effec

Page 19 and 20: 7 A B SLOPE = /'n- .( 10 ~y FIG 2-1

Page 21 and 22: 15.5, 183, 185).. Most of their eff

Page 23 and 24: va:ry withl. the slaear I'Rte.. 11.

Page 25 and 26: 13 RHEOLOGIC_~ INVESTIGATION OFPO~~

Page 27 and 28: IS In(s) (2-8 (2-9 where Re is the

Page 29 and 30: '7 ft~ easier method of calibrating

Page 31 and 32: 19 of' thixotropic breakdown l'Ji t

Page 33 and 34: 21 complicated by a variable viscos

Page 35 and 36: 2J Schultz-GrQnow (174) used a dime

Page 37 and 38: 2S The results shm-red that equatio

Page 39 and 40: Su.bstituti011 of equati 2-22 gives

Page 41 and 42: 29 In both Newtonian and non-Newton

Page 43: 31 for viscous pseudoplas tics at 1

Page 47 and 48: JS Thermometers or thermocouples ar

Page 49 and 50: .37 2: a in in heat cQ@tent of the

Page 51 and 52: J9 cooling mediu..:m side, the heat

Page 53 and 54: 41 ports a value of 3/4-.. He then

Page 55 and 56: 43 find the effects of one or two o

Page 57 and 58: 45 The group to the left of the equ

Page 59 and 60: 47 the highest heat tra...nsfer coe

Page 61 and 62: 49 A pitched blade turbine gave coe

Page 63 and 64: SI done on the correlation of heat

Page 65 and 66: 5J evaluated at the wall temperatur

Page 67 and 68: ss to (2-46 where ill is the consis

Page 69 and 70: CHAPTER .2 DEVELOPMENT OF CORRELATI

Page 71 and 72: momentum" mass" and energy may be ~

Page 73 and 74: 61 Vr;> Jt.- ,,"Ii'\... ..", ::: (V

Page 75 and 76: 63 Substitution of these dimensionl

Page 77 and 78: l/(R + 1) and was able t@ elim.iE.a

Page 79 and 80: 67 All of the variables and differe

Page 81 and 82: 69 The average heat transfer coeffi

Page 83 and 84: N"v = C Iv''' (;';~-"')&'i'~ (%t-n,

Page 85 and 86: 73 Semi-Empirical Correlation i ..,

Page 87 and 88: 75 7I1C1?/lfOCOUPLc .JuNe T/ON IMBE

Page 89 and 90: 77 _I"---- / SCALE I ~~, .5 j t /Z.

Page 91 and 92: also cop~ected to the pipes leading

Page 93 and 94: 81 Ve8sel :J all th:l c]me 8 8 .) '

Page 95 and 96: 83 potentiometer for varing the mot

Page 97 and 98: 85 MATERIAL 7:0 STAIIJLESS STEEL /

Page 99 and 100: 11 Wa.ll (Mi€1dl~) Same as #5 81

Page 101 and 102: 89 shea.r ra.tes, tl?1ey a.re unaff

Page 103: and if' lO"V'l$' a sm.all amount of

Page 106 and 107: 94- was about 40-45 ndmutes .. Tke

Page 108 and 109: 96 vThere N is in rev./sec .. and S

Page 110 and 111: 88 ql\fETI A = 6 T \--T -s L/kw (1+

Page 112 and 113: I {)D The generalized Reynolds n~mb

Page 114 and 115: 02. CHAPTER !2. RESUI,TS Many heat

Page 116 and 117: 01 TABLE 5-2 sutn~U{Y OF ADDITIONAL

Page 118 and 119: 108 the batch than the other ticJO

Page 120 and 121: 108 optimum impeller heights were u

Page 122 and 123: 10 I r "'" , •• ,'., "",' """",

Page 124 and 125: 112 correlations for the prediction

Page 126 and 127: TABLE 5 - 4 Correlation Constants A

Page 128 and 129: 1/6 Table 5-5 and 5-6. A measure of

Page 130 and 131: TABLE S - 6 IMPELLER Correlation Co

Page 132 and 133: 120 greater than 2.0. In this case

Page 134 and 135: 12.2

Page 136 and 137: TABLE 5 - 9 CORRELATION E t (a/n +1

Page 138 and 139: TABLE 5 - 10 IMPELLER Correlation C

Page 140 and 141: TABLE 5 - 11 CORRELATION G (1.30/61

Page 142 and 143: 1.30 of the substantial improvement

Page 144 and 145: 1.3 2. The probable error in the ca

Page 146 and 147: 134 .,;' : :: :::: : ~ !~. , " . .'

Page 148 and 149: T." ••••••• ,_ .....

Page 150 and 151: 38 the cooling of nitration liquors

Page 152 and 153: 140 The average deviation of the me

Page 154 and 155: 42 tween 0.25 and 0.58. L~~l had re

Page 156 and 157: 144 transfer coefficients to non-Ne

Page 158 and 159: 16 of fit and it may t...herefore b

Page 160 and 161: 148 'tvas insufficient data to eval

Page 162 and 163: 50 A ::: Apr ... B ::: C p ::: CPr

Page 164 and 165: 52. Q ::. Average heat transfer rat

Page 166 and 167: Xc = Function of Reynolds nL:l.m.be

Page 168 and 169: IS6 G REE:>{ ALPHABET 0 ::: Value o

Page 170 and 171: 158 coefficient. Thus, for the wate

Page 172 and 173: 160 , ., I .. : I :. '. • • !.

Page 174 and 175: 162 I , . I . "I '1 I i I 1 I 1· '

Page 176 and 177: 64 ncr --~iIluto e torque of the in

Page 178 and 179: 166 rive different temperatures; ab

Page 180 and 181: 168 TABLE A-4. SLOPE OF "LOG SHEAR

Page 182 and 183: TABLE 11.-5 RHEOLOGICAL DATA FOR CA

Page 184 and 185: TABLE A-5 (eollt. ) /12 o . 24;;& C

Page 186 and 187: '11 The flow behavior index and flu

Page 188 and 189: i .f.C ·F s o 6 1 6 I

Page 190 and 191: · . . . " , · . :::11" ': "'" ~ .

Page 192 and 193: 180 Tke thermal e€l1'!ciluetlvity

Page 194 and 195: 182 Heat capacity data for 100% gly

Page 196 and 197: IB4- wkiek ex~resses the aensity e

Page 198 and 199: 186 Ts - Torque X :: Peree~t 0~ ful

Page 200 and 201: Phase I Calcu13tiJ~ of Slope of !oG

Page 202 and 203: 3 REAL). N. ti •• D 4 cN=N E'I'

Page 204 and 205: ~~-- ~---- --~--~ ~~~--------------

Page 206 and 207: Phase IV Correlation of Flow Behavi

Page 208 and 209: 96 HEAT TRANSFER DATA FOR WA'fER US

Page 210 and 211: DATA /98 Batch \'ieight '" 94 •.

Page 212 and 213: zoo Run Center Dia!!1ec;er Ri'M Are

Page 214 and 215: DATA 20l. WATER - TUHBINSS Batch We

Page 216 and 217: 204- HEAT T'rtANSFEH DATA USED IN C

Page 218 and 219: DATA ANCHor;: 206 Batch :'Ieight =

Page 220 and 221: 2.08 Run Diameter RP!'1 Area Dynamo

Page 222 and 223: DAT_': 210 "i'ADDI,ES 9:5.7'10 GLYC

Page 224 and 225: 212 DATA PADDLES 0.15 PEHC:::N'r CA

Page 226 and 227: 211- D!~ 'I'l\. PA-:JDLES 0.20 PERC

Page 228 and 229: ~;:. 'I'A 3.16 P.;'DDLES 0.24 PEHCE

Page 230 and 231: 2/8 DATA PROPELL:SH3 0.15 P:~RCEN'l

Page 232 and 233: DATA DISK & VANE 'l'URBINE \'iATER

Page 234 and 235: 2.22 DATA Tu.'i:SINES 0.15 PERCENT

Page 236 and 237: CALCULATION OF HEAT TRANSFER AND PR

Page 238 and 239: ________________ ~parent viscosity

Page 240 and 241: ------------------------ -_._------

Page 242 and 243: ~--~, ~ ---- ---- -----------~-----

Page 244 and 245: 232 NOMEliCLATURE FOR BEAT TRANSFER

Page 246 and 247: 2.34- CALCULATED RSSULTS WATER Run

Page 248 and 249: 2,36 Run Center Diameter h NNu Npo

Page 250 and 251: 2.38 CALCULAT'ED ~E~:UL'rS ?!ATER P

Page 252 and 253: CALCULA'rED 1-{E8iiLlJ. 1 S \.;!\.'

Page 254 and 255: CALC:_:LA'i'ED _12:-)ULTS 24c. ANCH

Page 256 and 257: CALCULATEDR3SULTS PADDLE - CENTER H

Page 258 and 259: CALCULATED HESULTS 216 PADDLES - CE

Page 260 and 261: 248 CALCULATED RESULTS PADDLES - CE

Page 262 and 263: CALCULATED RE:>ULTS 2. So PADDLf~S

Page 264 and 265: PADDLES - CALCULATED RE6ULTS CENTSH

Page 267 and 268: 255 CALCULATED !tESULTS PROPELLERS

Page 269 and 270: CALCULA'rED RELmL'l'S PROPELLr~RS -

Page 271 and 272: CALCULATED HESULTS DISK AND VANE ;r

Page 273 and 274: DISK AND VAI'E .rU~1BINES CALCULATE

Page 275 and 276: DISK AND VANE '.i.'UR13HiES - CEl'i

Page 277 and 278: 26S RESULT,:; U:3ED FOR REGRESSION

Page 279 and 280: of a least squares line can be calc

Page 281 and 282: 269 (0-9 where y "" log NNu xl = lo

Page 283 and 284: -------------- -.Basi.c "Progr.a.rr

Page 285 and 286: -----------~---------- -~----------

Page 287 and 288: --~-------------- ------ ~~ -------

Page 289 and 290: Modi fi cati onB-foT' ev:alnatj ng-

Page 291 and 292: constants forco~~~latjQn F --------

Page 293 and 294: .------~.~~-- ---------------------

Page 295 and 296: 28.J ENGLISH ALPHABET . - ¢,'"'~-=

Page 297 and 298: References 2.8S 1. ') L. 3. Lt- •

Page 299 and 300: 287 56. 57. 58. C:;o ./ / . 60. 61.

Page 301 and 302: 289 119. 120. 121. 122. 123. 12L~

Page 303 and 304: 176. 177. 178. 179. 1(30. 181. 182.

batch

impeller

correlation

equation

viscosity

fluid

shear

height

fluids

diameter

prediction

coefficients

pseudoplastic

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