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Tables of Contents for Condensation Heat Transfer Enhancement
Chapter/Section Title
Page #
Page Count
Preface
xi
Chapter 1 Theoretical principles of heat transfer at film condensation
1
46
1.1 Film condensation of stationary vapor
1
6
1.1.1 Vertical surfaces and tubes
1
3
1.1.2 Horizontal tubes
4
3
1.2 Condensation of moving vapor
7
17
1.2.1 Vertical tubes and channels
7
7
1.2.2 Condensation inside horizontal tubes
14
10
1.3 Methods of heat transfer enhancement at condensation
24
23
1.3.1 Common principles
24
2
1.3.2 Finning of heat transfer surface
26
7
1.3.3 Rotation of heat transfer surface
33
1
1.3.4 Changing of heat transfer surface shape
34
3
1.3.5 Two-phase flow twisting
37
10
Chapter 2 Condensation on horizontal low-finned tubes; theoretical models
47
48
2.1 Preliminary review
47
2
2.2 Condensation on horizontal low-finned tubes; simplified analytical models
49
16
2.2.1 Models, neglecting surface tension
49
3
2.2.2 Models accounting for surface forces
52
13
2.2.3 Theoretical models accounting for the local modification of condensate film curvature
65
1
2.3 Condensation at the corrugated profile
65
3
2.4 Condensation on tube with spiral-wire finning
68
6
2.5 Heat transfer at condensation on tubes with a spiral-wire finning
74
2
2.6 Honda and Nozu solution for a tube with a trapezoidal profile
76
6
2.7 Hydrodynamics of condensate film
82
2
2.8 Flooding of the brass profiled tubes with water
84
11
Chapter 3 Experimental study of condensation heat transfer on finned tubes
95
104
3.1 Geometrical parameters influence on the condensation heat transfer of the single low-finned tube
95
35
3.2 Fin shaped influence on the heat transfer by condensation
130
3
3.3 Condensation on tubes with a twisted wire finning and condensate draining ribs
133
10
3.4 Condensation on corrugated tubes
143
5
3.5 Condensation on the bundles with finned tubes
148
51
3.5.1 Effect of condensate inundation
148
20
3.5.2 Vapor velocity effect
168
31
Chapter 4 Condensation on vertical profiled surfaces and tubes
199
80
4.1 Theoretical researches of condensation at vertical profiled surfaces and tubes
199
28
4.2 The condensation on vertical profiled surfaces experimentation
227
33
4.2.1 Heat transfer local coefficients
227
5
4.2.2 Average heat transfer coefficients at condensation on rotating vertical tubes with longitudinal edges
232
28
4.3 Heat transfer at condensation on vertical arranged tubes with helical finning
260
9
4.4 Steam-gas mixture condensation on a corrugated surface
269
10
Chapter 5 Heat transfer enhancement at film condensation inside tubes
279
44
5.1 Theoretical analysis of heat transfer at film condensation inside profiled tubes
279
12
5.2 Experimentation on heat transfer at film condensation inside micro-fin tubes
291
20
5.3 Experimentation on heat transfer enhancement at film condensation inside tubes with internal inserts
311
12
Chapter 6 Condensation in the electric field
323
16
6.1 Wave phenomena on dielectric gas-liquid interface in an electrical field
323
2
6.2 Physical imaginations and heat transfer models
325
7
6.3 Heat transfer of condensation of dielectric fluids pure vapors in electric fields; experimental study
332
7
Chapter 7 Hydrodynamics and heat transfer at film condensation on rotating surfaces
339
18
7.1 Initial physical statements
339
2
7.2 The condensation on the rotating surfaces; theoretical researches
341
5
7.3 Condensation heat transfer on rotating surface; experimentation
346
11
Chapter 8 Heat transfer at film condensation on inclined cylindrical surfaces
357
14
8.1 Initial theoretical positions
357
3
8.2 The heat transfer experimentation on the inclined tubes
360
4
8.3 The non-separated condensate flow length; theoretical determination
364
2
8.4 Condensation of vapor flow on inclined tube bundles (convective condensation)
366
5
Nomenclature
371