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Calhoun: The NPS Institutional Archive
Theses and Dissertations Thesis Collection
1980-12
Nucleate pool boiling of high dielectric fluids from
enhanced surfaces
Lepere, Victor Joseph, Jr.
Monterey, California; Naval Postgraduate School
http://hdl.handle.net/10945/19000
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NAVAL POSTGRADUATE SCHOOLMonterey, California
THESISNUCLEATE POOL BOILING OF HIGH DIELECTRIC
FLUIDS FROM ENHANCED SURFACES
by
Victor Joseph Lepere Jr,
December 19 80
Thesis Advisor: P. J. Marto
Approved for public release; distribution unlimited
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UNCLASSIFIEDSeCU«»TY CLASSiriCATlOM Of THIS PAOE (Vhmn Dmtm £«r»r«<0
0170(»f 'r.-n,
REPORT DOCUMENTATION PAGEI. MEPORT NUM8CR
READ INSTRUCTIONSBEFORE COMPLETING FORM
2. SOVT ACCESSION NO. 3- RECIPIENT'S CATALOG NUMBER
4. r\r\.Z (and SiibUtf)
Nucleate Pool Boiling of High DielectricFluids from Enhanced Surfaces
7. AuTHOnr*;
Victor Joseph Lepere Jr.
t. PERPORMINO ORGANIZATION NAME AND ADDRESS
Naval Postgraduate SchoolMonterey, California 93940
5. TYPE OF REPORT & PERIOD COVERED
Master's Thesis;Deceinber, 1980
1. PERFORMING ORG. REPORT NUMtER
a. CONTRACT OR GRANT NUMSERfa;
to. PROGRAM ELEMENT. PROJECT. TASKAREA ft WORK UNIT NUMBERS
n. CONTROLUINO OFFICE NAME AND ADDRESS
Naval Postgraduate SchoolMonterey, California 93940
II MONITORING AGENCY NAME * ADDRESS<«f attUnttt tnm ControlUng Olliem)
12. REPORT DATE
December 19 8013. NUMBER OF PACES
3£.IS. SECURITY CLASS, (of thia tipon)
UnclassifiedIS«. OECLASSIFIC ATI ON/ DOWN GRADING
SCHEDULE
16. DISTRIBUTION STATEMENT (of thim RapMt)
Approved for public release; distribution unlimited.
17. DISTRIBUTION STATEMENT (ol (A* mbtlrmet milfd In Sloe* 30, H diUnmH ttom R»p9r*)
It. SUPPLEMENTARY NOTES
If. KEY WORDS (CMttlntM on rmw^ma »id» tt n«e««a«rr
Nucleate Pool BoilingDielectric LiquidsEnhanced Surfaces
and iMntffjr bf Mack n%mbmr)
20. ABSTRACT (ComUnu* en ra^mta tlOm II n««M«wr ""^ IdmitUIr *r Woe* numbar)
Experimental results of the heat transfer performance of threeenhanced heat transfer surfaces, a Union Carbide, Linde High Flux,
a Hitachi Thermoexcel-E, aWieland Gewa-T, and a plain coppersurface in the nucleate pool boiling regime in R-113 and FC-72 arepresented.
Prior to obtaining the data, each of the surfaces was subjectedto one of three initial conditions, and the effect of past historv
DOFORM
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^CLASSIFIEDftfCuwiTV CUAMI^'OTiOW QW Twis m taf,fw%^ nmtm CntaMtf
#20 - ABSTRACT - (CONTINUED)
on boiling incipience was observed. The data showed that allthe surfaces behaved in a similar manner prior to the onsetof boiling.. Temperature overshoots were most pronounced forthe initial condition in which the surfaces were submerged inthe liquid pool overnight. All of the enhanced surfacesexhibited a two to tenfold increase in the heat transfercoefficient when compared to the plain surface. The HighFlux surface was most effective over a broad range of heatfluxes. The Hitachi surface showed a similar gain in heattransfer coefficient to that of the High Flux surface below10 kW/m^ , while the Gewa-T surface was not as effective asthe other surfaces at low heat fluxes. At high. fluxes , theGewa-T surface performed in a comparable if not better manner
DD ,Form 1473 UNCLASSIFIED
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Approved for public release; distribution unlimited
Nucleate Pool Boiling of High DielectricFluids from Enhanced Surfaces
by
Victor Joseph I^epere Jr.Lieutenant, United States Navy
B.S., Marquette University, 19 74
Submitted in partial fulfillment of therequirements for the degree of
MASTER OF SCIENCE IN MECHANICAL ENGINEERING
from the
NAVAL POSTGRADUATE SCHOOLDecember 1980
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ABSTRACT
Experimental results of the heat transfer performance of
three enhanced heat transfer surfaces, a Union Carbide, Linde
High Flux, a Hitachi Thermoexcel-E , a Wieland Gewa-T, and a
plain copper surface in the nucleate pool boiling regime in
R-113 and FC-7 2 are presented.
Prior to obtaining the data, each of the surfaces was
subjected to one of three initial conditions, and the effect
of past history on boiling incipience was observed.
The data showed that all the surfaces behaved in a similar
manner prior to the onset of boiling. Temperature overshoots
were most pronounced for the initial condition in which the
surfaces were submerged in the liquid pool overnight. All of
the enhanced surfaces exhibited a two to tenfold increase in
the heat transfer coefficient when compared to the plain sur-
face. The High Flux surface was most effective over a broad
range of heat fluxes. The Hitachi surface showed a similar
gain in heat transfer coefficient to that of the High Flux
2surface below 10 kW/m , while the Gewa-T surface was not as
effective as the other surfaces at low heat fluxes. At high
fluxes, the Gewa-T surface performed in a comparable if not
better manner.
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TABLE OF CONTENTS
I. INTRODUCTION 10
A. BACKGROUND 10
B. THESIS OBJECTIVE 16
II. EXPERIMENTAL DESIGN 18
A. FACTORS CONSIDERED 18
B. DESCRIPTION OF COMPONENTS 18
C. INSTRUMENTATION 20
III. EXPERIMENTAL PROCEDURE 21
A. PREPARATION OF TEST SECTION 21
B. CALIBRATION OF THERMOCOUPLES 22
C. NORMAL OPERATION 22
D. DATA REDUCTION 23
IV. RESULTS AND DISCUSSION 26
A. COMPARISON OF HEAT TRANSFER COEFFICIENTS — 2 7
B. EFFECTS ON INCIPIENT BOILING 29
V. CONCLUSIONS 33
VI. RECOMMENDATIONS 35
APPENDIX A: Fluid Properties 36
APPENDIX B: Uncertainty Analysis 37
APPENDIX C: Test Section Losses from the Unenhanced 43Ends
LIST OF REFERENCES 95
INITIAL DISTRIBUTION LIST 9 6
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LIST OF FIGURES
FIGURE
1. Schematic of Test Apparatus 49
2. Photograph of Experimental Apparatus 50
3. Photograph of Test Section in Boiler 51
4. Cross Sectional Drawing of Test Section 52
5. Schematic Drawing of Test Section in Boiler 53
6. Scanning Electron Micrograph of PlainCopper Surface 500X 54
7. Scanning Electron Micrograph of HighFlux Surface 500X 55
8. Scanning Electron Micrograph ofThermoexcel-E Surface .20X 56
9. Scanning Electron Micrograph of CrossSection of Gewa-T Surface 20X 57
10. Sketch of Soldering Apparatus Used inPreparation of Test Surfaces 58
11. High Flux Surface in R-113—Submerged inPool Overnight with Bergles Data Imposed 59
12. Thermoexcel-E Surface in R-113—Submerged inPool Overnight with Hitachi CorporationData Imposed 60
13. High Flux Surface in R-113—Submerged inPool Overnight 61
14. High Flux Surface in R-113—Submerged inPool Overnight 62
15. Thermoexcel-E Surface in R-113—Submergedin Pool Overnight 63
16. Plain Copper Tube in R-113— Submerged inPool Overnight 64
17. Gewa-T Surface in R-113— Gubn-.erged
Pool Overnight 65
6
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FIGURE
18. High Flux Surface in R-113—Aged at30 kW/m^ for One Hour then Cooled forThirty Minutes 66
19. High Flux Surface in R-113--Aged at30 kW/m2 for One Hour 67
20. Thermoexcel-E Surface in R-113—Agedat 30 kW/m2 for One Hour 68
21. Plain Copper Tube in R-113—Agedat 30 kW/m2 for One Hour 69
22. Gewa-T Surface in R-113—Aged at30 kW/m2 for One Hour 70
23. High Flux Surface in R-113—Air Driedat 65°C for Ten Minutes 71
24. High Flux Surface in R-113—Air Driedat 65°C for Ten Minutes 72
25. Thermoexcel-E Surface in R-113—Air Driedat 65°C for Ten Minutes 73
26. Plain Copper Tube in R-113--Air Driedat 65°C for Ten Minutes 74
27. Gewa-T Surface in R-113—Air Driedat 65°C for Ten Minutes 75
28. High Flux Surface in FC-72—Submergedin Pool Overnight 76
29. High Flux Surface in FC-72—Submergedin Pool Overnight 77
30. Thermoexcel-E Surface in FC-72
—
Submerged in Pool Overnight 78
31. Plain Copper Tube in FC-72
—
Submerged in Pool Overnight 79
32. Gewa-T Surface in FC-72—Submergedin Pool Overnight 80
33. High Flux Surface in FC-72—Agedat 30 kW/m2 for One Hour 81
34. High Flux Surface in FC-72—Agedat 30kW/m2 for One Hour 82
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FIGURE
35. Thermoexcel-E Surface in FC-72—Agedat 30 kW/m2 for One Hour 83
36. Plain Copper Tube in FC-72—Agedat 30 kW/in2 for One Hour 84
37. Gewa-T Surface in FC-72--Agedat 30 kW/m2 for One Hour 85
38. High Flux Surface in FC-72—Air Driedat 65°C for Ten Minutes 86
39. High Flux Surface in FC-72—Air Driedat 65<'C for Ten Minutes 87
40. Thermoexcel-E Surface in FC-72—AirDried at 65°C for Ten Minutes 88
41. Plain Copper Tube in FC-72—AirDried at 6 5°C for Ten Minutes 89
42. Gewa-T Surface in FC-72—Air Driedat 65*0 for Ten Minutes 90
43. High Flux Surface in R-113 Priorto Boiling Initiation 91
44. High Flux Surface in R-113 at Incipient Point - 92
45. Activation of Entire High Flux Surfaceafter Boiling Initiation 9 3
46. High Flux Surface in R-113 withNucleate Boiling Established 94
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ACKNOWLEDGMENT
The author would like to express his sincere appreciation
to Dr. Paul Marto for his patience, continual advice, and
encouragement and interest throughout this investigation.
The generous assistance of Mr. Kenneth Mothersell and
the modelmakers in the Mechanical Engineering machine shop,
who helped design, and v/ho constructed the experimental
apparatus was also greatly appreciated.
I would also like to acknowledge Dr. Paul Pucci ' s assist-
ance and encouragement throughout my graduate education,
without whiuch I may not have reached the point of being in
a position to pursue t.his work.
Many thanks are due to several other people and corpora-
tions without whose assistance this work could not have been
completed;
Mr. Elias Ragi of Union Carbide Corporation for providing
a sample of the High Flux Surface and technical information.
Mr. Fred Weiler of Wieland Corporation for providing a
sample of the Gewa-T Surface.
Dr. Yilmaz of Heat Transfer Research Incorporated for
his assistance in obtaining a sample of the Gewa-T Surface.
Finally I wish to thank my wife Joy for her patience and
understanding as well as her assistance in typing the rough
copy.
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I. INTRODUCTION
A. BACKGROUND
Nucleate pool and forced convection boiling from enhanced
heat transfer surfaces is being examined in many areas of
engineering as a means of attaining high heat fluxes while
maintaining low temperature differences between the heated
surface and the heat transfer fluid. One area in which these
methods of heat transfer have great promise is in the field
of electronics cooling. The advent of solid state electronic
devices has permitted the miniaturization of electronic com-
ponents to microscopic sizes. While these order of magnitude
reductions in size have many obvious advantages, they create
the problem of having to dissipate heat from components of
very small size; that is, they create large heat fluxes.
Additionally, semiconductor devices are very sensitive to
temperature excursions, and as noted by Kraus [1] and Seely
and Chu [2], they exhibit either a high failure rate or lower
reliability if not adequately cooled. This problem has re-
quired the continued use of vacuum tubes or relatively large
discrete semiconductor devices for applications requiring high
power levels, or operation in poorly ventilated or unventi-
lated spaces.
Since the heat transfer potential of nucleate boiling
is well known, this regime was one natural selection for
examination as a possible solution to this cooling problem.
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As noted by Yilmaz [3] , several commercially available heat
transfer surfaces have been produced to take advantage of
the high heat fluxes attainable in the nucleate boiling regime
These surfaces attempt to increase the heat transfer by
greatly increasing the number of nucleation sites on the
boiling surface. Nishikawa [4] notes that there are two
primary methods used to promote nucleate boiling. The first
is to treat the surface in a manner that reduces its wetta-
bility, for example, teflon coating sites on a surface. The
second, and this seems to be the most promising for a large
number of fluids, is to manufacture a surface with re-entrant
cavities which trap and hold vapor and keep the nucleation
site active.
3M Corporation has commercially produced its "Flourinert"
series of high dielectric inert electronics cooling liquids.
The combination of these liquids with the surfaces manufac-
tured to promote nucleate boiling offers promise as a means
of providing electronics cooling under some very adverse
conditions
.
Previous investigations of nucleate pool boiling have
been made Yilmaz et al [3] , and Nishikawa and Ito [4] , and
Bergles et al [5,6]. Yilmaz et al [3] compared the nucleate
pool boiling heat transfer performance of three copper tubes,
a Wieland Gewa-T tube, a Hitachi Thermoexcel-E tube, and a
Union Carbide, Linde High Flux tube, to. a plain copper tube.
The experiment was conducted using a horizontal steam heated
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tube in p-xylene. Their findings indicated that
for the AT studied, the High Flux tube performedbetter than both Thermoexcel-E and Gewa-T tubes,and they in turn performed much better than theplain tube. The Thermoexcel-E tube gave a betterperformance than Gewa-T at low AT values, andboth performed similarly at high AT values...
Bergles and Chyu [5] compared the nucleate pool boiling
heat transfer characteristics of three copper Union Carbide
High Flux test sections to a plain copper tube in distilled
water and R-113. The experiments were conducted with three
different treatments to the test surface prior to collecting
data; subcooling of the test surface, aging the test surface
2by preboiling it in the pool at 30,000 W/m , and finally,
heating it in air to remove all liquid in the pores. This
research indicated:
(1) The heat transfer coefficients for the porous sur-
faces were four to ten times higher than for the plain
surfaces
.
(2) There was a significant temperature overshoot prior
to the initiation of boiling with the High Flux sur-
face in water which was not present with the plain
surface. This overshoot was not very sensitive to
aging or the power increment changes.
(3) Both the plain surface and the High Flux surface
exhibited temperature overshoot prior to the initia-
tion of boiling in R-113. These overshoots were
sensitive to aging, initial subcooling and power
increment changes.
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Bergles [5] indicated that this temperature overshoot
phenomenon and its variance with initial tube treatment and
pore size is explainable in terms of the type of nucleation
site present, wettability of the surface, and differences in
the mechanism of established boiling. He stated that
It is felt that boiling with a High Flux surfaceinvolves incipient boiling from doubly re-entrantcavities formed at the surface of the matrix orwithin the matrix. These cavities retain vaporfor considerable subcooling, even with highlywetting liquids; however activation superheatcan be high if the active cavities have smallmouth radii. Once that boiling is established,there is internal vaporization of liquid filmsformed on the relatively large surface area andsubsequent 'bubbling' of vapor from surfacepores . . . Other surface pores serve as supplyroutes for the liquid to the interior.
Bergles [5] also noted that the temperature overshoot
and resulting boiling curve hysteresis are potentially seri-
ous problems when starting up High Flux boilers with highly
wetting liquids. Bergles, Bakhru and Shires [6] conducted
nucleate pool boiling studies in water, R-113, and FC-78
using a 304 stainless steel tube, and a 304 stainless steel
tube in which photoetched pits were filled with teflon spots
These experiments were conducted using electrically heated
tubes in a horizontal orientation. With R-113 and FC-78,
the results were basically the same for the plain tube and
the tube with teflon pits. As heat fluxes were increased,
the heat transfer coefficient followed the convective curve
until a high superheat was attained, and then a distinct
increase in the heat transfer coefficient was noted as
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nucleation occurred. This was followed by an abrupt drop
in all temperatures by as much as 27T. It was also noted
that the inception of nucleation could be triggered by
vibrating the test surface.
The pool boiling experiments in water showed significantly
different results between the plain tube and the tube treated
with teflon pits. In order to promote nucleation, superheats
of about 10 °F were required for the plain tube, while only
2°F of superheat was required for the teflon treated tube.
The conclusions drawn were
that the phenomenon of temperature overshoot hysteresisin ordinary liquids is due to two causes: a) theexistence of metastable bubbles which are triggeredonly at sufficiently high disturbance levels, andb) the deactivation of larger cavities by dis-placing the vapor by liquid during subcooling.Under conditions of low velocity or pool boilinga) is probably most important; but at high velocityb) should be controlling.
With regard to the teflon treated surface, it was concluded
that the teflon pits provided porous non-wetting cavities
in water which trapped air and provided nucleation sites that
could activate at very low wall temperatures. Additionally,
the teflon provided sites for trapping vapor and keeping the
site active once boiling had started. This surface was not
effective in the R-113 and FC-78 because the teflon was wet
by these fluids, and the sites flooded. After flooding occurs,
the nucleation sites require a high degree of superheat in
order to reactivate.
Nishikawa and Ito [4] conducted experiments involving
nucleate pool boiling from horizontal cylinders using R-11,
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R-13, and benzene as the cooling fluids. They constructed
an enhanced heat transfer surface by sintering copper or
bronze spherical particles of 100-1000 \i in diameter to
the outside of a copper tube, thus creating a surface with
a large number of re-entrant type cavities to act as nuclea-
tion sites. This surface exhibited about a tenfold increase
in the heat transfer coefficient for the enhanced tube as
compared to a plain tube of the same size. This tenfold
4 2increase was for lower heat fluxes about 2 x lo W/m with
the performance diminishing somewhat at higher heat fluxes.
In summarizing the results of all the previous investi-
gations, the following points are clear:
1) There is a four to tenfold increase in the heat transfer
coefficient, with a lower AT (T -T ) , with the various' w s
enhanced surfaces as compared to the plain surfaces
in water, R-113, FC 78, R-11, R-13, benzene and p-x^lene
The enhanced surfaces are more effective because they
provide a large number of nucleation sites from which
boiling can occur.
2) There are two major methods employed to provide a large
number of stable nucleation sites: a) Coat the surface
in some manner so that it contains nucleation sites
which are non wettable by the heat transfer fluid.
b) Produce a surface which has a re-entrant type cavity
which can trap air or vapor and hold it, thereby
providing a stable nucleation site.
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3) There is a large temperature overshoot prior to the
inception of nucleate boiling with the enhanced sur-
faces in water, R-113, FC 78 and p-xylene. After boil-
ing begins, there is a rapid drop in temperature for
the same heat flux.
4) The factors which determine if this superheat and re-
sulting hysteresis occur and to what degree, are
determined by; cavity size and shape, surface wetta-
bility in the fluid of interest, bubble stability, and
treatment of the surface prior to boiling (air drying,
aging, subcooling)
.
Since semiconductor devices require operation over a
fairly narrow temperature range, it is essential that this
hysteretic phenomenon be overcome before nucleate boiling
from enhanced surfaces could be employed as a general electonics
cooling scheme,
B. THESIS OBJECTIVE
The objectives of this thesis are twofold. The first
objective is to compare the heat transfer performance of the
Hitachi Thermoexcel-E, Union Carbide, Linde High Flux, Wieland
Gewa-T and a plain copper tube, in FC-72 a low surface tension,
high dielectric liquid, and compare these results with their
performance in R-113 under the same conditions.
The second objective is to determine if FC-72 is hysteretic
when used in conjunction with these surfaces, and if it is.
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to attempt to find a method of pretreating the surface to
minimize or prevent this phenomenon.
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II. EXPERIMENTAL DESIGN
A. FACTORS CONSIDERED
The design of the boiling apparatus was influenced by the
requirement to be able to determine the enhanced test section
outside wall temperature. It was essential that this should
be accomplished in such a way as to minimize the local anoma-
lies in either the boiling surface, or in the heat flow paths
in the interior of the test section. Secondly, it was necessary
that the fluid in the boiler should be maintained at satura-
tion conditions. Finally, it was essential to minimize the
heat transfer through the unenhanced regions at the ends of
the test sections. The following parameters were to be
determined:
1. Heater sheath wall temperature
2. Test surface outside wall temperature
3. Fluid bulk temperature
4
.
Vapor temperature
5. Barometric pressure
6
.
Ambient temperature
7. Power into the test section heater
8. Boiling heat flux from the test surface
B. DESCRIPTION OF COMPONENTS
Figure 1 is a schematic drawing of the test apparatus
and identifies all major components. Figures 2 and 3 are
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photographs of the apparatus. Figure 4 is a drawing of the
test section while Figure 5 is a drawing of the test section
in the boiler.
The apparatus consisted of a cylindrical copper test
surface heated on the inside by an electric rod heater with
an outside diameter of 12.6 mm. Four thermocouples with an
average diameter of 0.76 mm were centered axially on the heater
and were soldered in four grooves on the heater surface.
These grooves were displaced circumferentially by ninety
degrees in order to provide a representation of an average
temperature.
One end of the test section was insulated on the inside
by a solid teflon plug. The other end, in which the wires
protruded from the test section, was insulated with poured
epoxy resin. The test section was then attached to an ad-
justable gas-tight pipe which protruded through the top of
the boiler. The boiler vessel consisted of a pyrex glass
cylinder with plexiglass cover fitted with a rubber O ring.
This vessel was placed on an electric plate heater to allow
the liquid to be preboiled for degassing before the run, and
to maintain the liquid at saturation temperature throughout
the run. The vapor was condensed and returned to the boiler
by gravity from a pyrex glass condenser using tap water for
cooling.
The following is a description of the test surfaces:
1. Plain tube. Figure 6: A 15.80 ram OD, 15 gauge seamless
copper tube.
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2. Union Carbide, Linde High Flux, Figure 7: A porous
copper matrix of 0.18 mm average thickness brazed to
the outside of a 20 gauge copper tube with an overall
OD of 18.7 mm. Forty six percent of the copper parti-
cles are smaller than 44 ym and the remainder are
between 44 and 74 ym.
3. Hitachi Thermoexcel-E, Figure 8; A 16.48 mm OD, and
a 13.44 mm ID copper tube with an average pore diameter
of 0.13 mm.
4. Wieland Gewa-T, Figure 9: A 740 fins/m copper tube with
an ID of 14.48 mm and a 17,91 mm overall OD, a 1.0 mm
fin height, and a 0.25 mm gap between fins.
C. INSTRUMENTATION
All temperatures were measured with copper-constantan
thermocouples. Each thermocouple was read separately through
a thermocouple switch and a Newport digital pyrometer which
had an accuracy of ±0.06°C.
The test surface heater voltage was measured by a digital
voltmeter accurate to .01 volts. Heater current was determined
by measuring the voltage drop across a 2.0236 ohm precision
resistor connected in series with the test section heater.
Two thermocouples were placed above the surface of the
boiling fluid to determine fluid vapor temperature. One
thermocouple was immersed in the fluid pool to monitor fluid
bulk temperature.
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III. EXPERIMENTAL PROCEDURE
A. PREPARATION OF TEST SECTION
The test sections were fabricated in the following manner:
1. A teflon plug was manufactured to reduce heat transfer
longitudinally through the test section. This plug
had a machined cavity on its interior end which accepted
the heater, and permitted precise positioning of the
heater in the enhanced tube.
2. The enhancement was machined off the surface at the
ends of the test sections in the regions which were
insulated from the heater. This was done in order to
maximize heat transfer in the radial direction and mini-
mize longitudinal heat transfer. If longitudinal heat
transfer could be reduced to a negligible value, the
heat flux calculations could be more accurately and
easily ascertained.
3. The heater was centered radially and axially in the
test surface, and the void between the heater sheath
and the inside tube wall was filled with Eutectic
Corporation's 157 Eutectoid solder. This soldering
was accomplished under vacuum in order to prevent the
formation of insulating air bubbles between the heater
sheath and the inside tube wall. Figure 10 is a sketch
of the soldering apparatus.
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4. The test section was then connected to an L shaped
tube by means of a Swagelok fitting. This tube
penetrated the boiler vessel cover through a gas
tight connection.
B. CALIBRATION OF THERMOCOUPLES
Thermocouples were immersed in a Rosemount constant
temperature distilled water bath, and were compared with a
platinum resistance thermometer as a standard. The tempera-
ture was raised from 38 °C to 82''C in increments of about five
degrees. At each increment, the temperature was allowed to
stabilize for five minutes. The thermocouples were read
using a Newport digital pyrometer.
C. NORMAL OPERATION
At the start of each run, the plate heater was used to
vigorously boil the pool for one hour in order to degas the
liquid. The plate heater was then used to maintain the pool
at saturation temperature. The power to the test section was
then increased by controlling the test section heater voltage.
The voltage was increased in two to four volt increments until
the initiation of boiling occurred, at which point ten volt
increments were made until the maximum attainable heat flux
was reached. The power was then decreased in the same fashion.
At each power setting, the system was permitted to stabilize
for five minutes and the following data were recorded: heater
voltage. Precision resistor voltage, two theinnocouple indications
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of saturated vapor temperature, one thermocouple reading of
pool temperature, and four thermocouple readings of heater
sheath temperature. This procedure was repeated with three
pre-boiling treatments to the test surfaces. The first
treatment permitted the test surface to cool to ambient
temperature immersed in the pool overnight prior to starting
a data run. The second procedure was to age the tube by
2preboilmg it at 30,000 W/m for one hour prior to the run,
and the final procedure was to air dry the tube by heating
it to 65° C for ten minutes prior to making a run.
D. DATA REDUCTION
Saturation temperature was determined by averaging the
calibrated temperature indicated by the two thermocouples
placed above the liquid pool.
The test surface wall temperature was assumed to be the
temperature of the test cylinder at the base of the surface
enhancement. This wall temperature was determined by averaging
the readings of the four calibrated thermocouples located
inside the test surface with corrections applied for the tem-
perature drops across the wall due to conduction through the
solder and the inner portion of the test surface:
^2 ""lIn — In —
^1 ^2mm ^1 ^2T = T„ -w T 2 7T L
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where:
T^ = wall temperature at the base of thesurface enhancement (°C)
T„ = average calibrated thermocouple temperature(°C)
r, = radius of thermocouple locations (m)
r2 = inside radius of test surface (m)
r^ = outside radius of test surface to thebase of the enhancement (m)
k-j = thermal conductivity of solder (V7/m °C)
k^ = thermal conductivity of copper \.VJ/m °C)
L = length of enhanced surface (m)
2q = heat flux (W/m )
Power to the test section was determined from the follo-wirig
equation:
Q = V I
where:
V = cartridge heater input voltage (volts)
I = cartridge heater input current (amps)
The heat flux was determined from
q = Q/A
where:
A = area of test surface at the base of thesurface enhancement (m^)
.
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The heat transfer coefficient was determined from:
h =
where:
(T - Tw s
T = average wall temperature at the base ofthe surface enhancement (°C)
T = average calibrated saturation temperature(°C)
2h = heat transfer coefficient (W/m °C)
2q = heat flux (W/m )
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IV. RESULTS AND DISCUSSION
A total of thirty experimental runs were completed. The
runs were grouped on the basis of type of surface (High Flux,
Thermoexcel-E, Gewa-T, Plain Copper), working fluid (R-113,
FC-72) , and prior conditioning of the surface before a run:
1) Submerged in the liquid pool overnight at ambient
temperature, then submerged in the pool at zero power
for one hour while the pool was being vigorously boiled
for degassing purposes by the auxiliary heater.
22) Aged at 30 kW/m for one hour in a vigorously boiling
pool followed by stabilization at zero power for
approximately two minutes
.
3) Air dried at 65°C for ten minutes followed by cooling
to ambient temperature, the surface was then placed
in the pool at zero power for one hour prior to the
run while the pool was boiled vigorously with the
auxiliary heater for degassing.
Results are compared on the basis of:
1) overall heat transfer performance, and
2) the degree of superheating experienced prior to the
initiation of boiling, hysteresis effects, and the
effect of working fluid and prior surface conditioning
on boiling incipience.
One run was made for each set of initial conditions des-
cribed above except for the High Flux surface. Two runs for
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each set of conditions were made with this surface in order
to demonstrate the reproducibility of the results. In the •
discussion of the results which follows, each of the figures
is not discussed individually. Instead, the salient points
are discussed which have been extracted from a comparative
study of the figures. The figures are grouped on the basis
of similarity of conditions rather than the order in which
they are referred to in the text. This arrangement provides
a relatively easy means of comparing the results.
On Figure 11, Bergles [5] data for a High Flux surface
in R-113 is plotted over the data collected. There is very
good agreement between the results of both experiments. On
Figure 12, data from the Hitachi Corporation [7] for the
Thermoexcel-E surface in R-113 is plotted over the results
with fairly good agreement between the two sets of data.
A. COMPARISON OF HEAT TRANSFER COEFFICIENT
In R-113 and FC-72, prior to the initiation of nucleate
boiling, all of the surfaces behaved in a similar manner.
The heat transfer coefficient was somewhat higher than what
was predicted by the natural convection correlation for a
horizontal cylinder, Figures 13-17. However, the data is
in agreement with similar results presented by Bergles 15]
.
This phenomenon is most likely a result of complex convection
currents present in the boiler vessel.
Once boiling was initiated, all three of the enhanced
surfaces showed a significant increase in the heat transfer
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coefficient as compared to the plain surface. In R-113, the
High Flux surface showed an improvement of four to ten times
over the heat transfer coefficient of the plain surface,
Figures 13 and 16. This is the same as the results reported
by Bergles [5]. The greatest improvement is in the region
2of 8-30 kW/m . The performance of the Thermoexcel-E surface
is quite similar to that of the High Flux surface, and is coin-
cident with the High Flux surface for heat fluxes below 2
2kW/m once boiling has been initiated. Figures 14 and 15.
The Thermoexcel-E surface degrades somewhat in comparison to
the High Flux surface above 20 kW/m , but still shows signi-
ficant improvement over the plain tube until a heat flux near
2100 kW/m . The phenomena described above is most likely a
result of the number of nucleation sites active on the par-
ticular surfaces for a given heat flux. The Gewa-T surface.
Figure 17, had about half the heat transfer coefficient of
2the Thermoexcel-E and High Flux Surfaces below about 20 kW/m .
However, this surface improved at higher heat fluxes, and
was equal to the performance of the High Flux surface at
2100 kW/m . It exceeded the performance of the Thermoexcel-
2E surface above 70 kW/m . This most likely occurs because
the very large cavities created within the Gewa-T surface give
it the characteristics of a plain tube with fins, rather than
a surface with numerous active sites at low heat fluxes.
However, at large heat fluxes, because of the large spacing
between the pores, separation of the vapor columns occurs.
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As a result, the vapor columns do not coalesce from the
large numbers of bubbles being generated at high heat fluxes,
and this surface improves relative to the other surfaces.
In FC-72, all of the surfaces showed significant improve-
ment in heat transfer coefficients over the plain tube.
Figures 28-32, however the improvement was less than that
shown with R-113. The High Flux surface had an overall heat
transfer coefficient of two to seven times higher than the
plain surface. The Thermoexcel-E surface and the Gewa-T
surface had heat transfer coefficients two to five times
higher than the plain tube in FC-72. The Thermoexcel-E
surface performed slightly better than the Gewa-T surface
2 2below 10 kW/m , while the opposite was true above 10 kW/m .
2At about 20 kW/m all the surfaces except the Gewa-T sur-
face had transitioned to film boiling in FC-72. This most
likely occurs because the relatively large spacing between
the pores permits separation of the vapor columns and delays
the onset of film boiling.
B. EFFECTS ON INCIPIENT BOILING
All of the surfaces tested exhibited hysteretic behavior
in both R-113, and FC-72. This hysteretic phenomenon was
worst in the case where the surface was submerged in the
pool overnight. The degree of superheating prior to the
initiation of boiling was worse with R-113 than with FC-72.
This is most likely due to the different thermal properties
of the two fluids
.
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For all the surfaces tested, initial conditioning of the
surface by air drying and aging resulted in a significant
reduction of the degree of superheating required in order
to initiate boiling. This was probably due to the fact that
when the surface sits submerged in the pool overnight, all
but the smaller nucleation sites become flooded, requiring
high superheats to generate vapor and activate the flooded
sites. In the cases where the surfaces were either aged or
air dried prior to the run, either air or vapor was already
trapped in the nucleation sites, and a lower heat flux and
superheat were required to initiate boiling. It is worthwhile
noting that due to the high wettability of both R-113 and
FC-72, it does not require much time to flood and deactivate
a nucleation site. In one of the runs with the High Flux
surface in R-113 with initial aging, the surface was permitted
to sit submerged in the pool for about thirty minutes after
boiling had ceased upon completion of the aging process.
2As seen in Figure 18, a heat flux of about 1500 W/m was
required to initiate boiling. By comparison. Figures 13 and
214 show that this is not as bad as the 2-4 kW/m required
to activate the surface when it was initially submerged
2overnight, but it is significantly higher than the 200 W/m
required to initiate boiling when the surface is aged without
any subsequent subcooling, as evident in Figure 19
.
Figures 34 and 38 show that the High Flux surface was
non hysteretic in FC-72 with initial aging or air drying.
Figures 19 and 24 show that there was a minimal hysteresis
30
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with the High Flux surface in R-113 with initial air drying
or aging.
From Figures 40 and 35 we can see that the Thermoexcel-E
surface exhibited minimal hysteresis in FC-72 with initial
air drying, and with initial aging. Figures 20 and 25 show
that in R-113 the Thermoexcel-E surface exhibited minimal
hysteresis with both initial aging, and initial air drying.
As seen in Figure 26 the plain copper surface was almost
non hysteretic in R-113 with initial air drying, and Figure
36 shows that it exhibited minimal hysteresis in FC-72 with
initial aging.
Figures 3 7 and 22 indicate that the Gewa-T surface was
practically nonhysteretic in FC-72 and R-113 with initial
aging.
Of all the surfaces tested, the High Flux surface experi-
enced the most rapid and dramatic activation after being
submerged in the pool overnight. Once boiling initiated,
the entire test section was active in about .015 seconds in
both R-113 and FC-72. Figures 43-46 are sequential movie
frames of the initiation of boiling on the High Flux surface
in R-113 after being submerged in the pool for three hours.
The filming was done at 64 frames per second. In Figure 43,
no boiling is evident. In the following frame. Figure 44,
the initiation of boiling is seen in the lower left half of
the surface. In the following two frames. Figures 45 and
46, the entire surface is active. This rapid initiation of
boiling across the surface is probably due to the interconnecting
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character of the surface. Once one site activates, the rapid
diffusion and expansion of the vapor through the matrix
activates additional nucleation sites. The other surfaces
all activated gradually with increasing heat flux. With
both the Gewa-T and the Thermoexcel-E surfaces, a few sites
first became active at some incipient heat flux. As the
heat flux increased beyond this value, additional sites
became active. These initial sites subsequently activated
an entire interconnecting ring around the cylinder.
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V. CONCLUSIONS
1) By increasing the number of nucleation sites, the
enhanced surfaces show a two to tenfold increase in the heat
transfer coefficient when compared to the plain copper tube.
2) The High Flux surface offers the greatest overall heat
transfer coefficient of all the surfaces tested over a broad
range of heat fluxes. This is probably due to the very high
density of nucleation sites and the interconnected nature
of these sites as compared to the machined surfaces.
3) The degree of superheat required to activate the various
surfaces is sensitive to initial surface conditioning and
fluid properties,
4) For the case where the tube was submerged in the pool
overnight, the High Flux surface exhibited a very abrupt
transition to boiling. Once boiling initiates, all the
nucleation sites are activated almost simultaneously. When
there is no initial subcooling or flooding of the nucleation
sites, the High Flux surface behaves in a less violent manner,
although there is still a fairly rapid activation of the en-
tire surface once boiling is initiated.
5) The enhanced heat transfer surfaces tested exhibited non
hysteretic behavior in the heat flux range of about 10-100
kW/m^ in both R-113 and FC-72.
6) All the surfaces, except the Gewa-T surface, displayed
2a critical heat flux of about 200 kW/m in FC-72. The critical
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heat flux for all these surfaces in R-113 could not be
determined since it was above the maximum heat flux attain-
able with this apparatus.
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VI. RECOMMENDATIONS
It is recommended that:
(1) This study be continued using different dielectric
liquids with the same surfaces in an attempt to find a fluid
which is non wetting to the different surfaces.
(2) The same fluids be used in conjunction with the
various surfaces using different pore sizes, in an attempt
to find an optimum surface with these fluids.
(3) A surface similar to the High Flux surface be con-
structed containing sacrificial anodes capable of generating
gas within the surface which would promote the initiation
of boiling at lower superheats.
(4) The effect of ultrasonic waves on boiling incipience
with these surfaces be examined.
(5) A study be conducted using a hybrid Gewa-T surface
with sintered particles inside the cavities.
(6) A study be conducted of the effect of the number of
fins per meter on the transition to film boiling with the
Gewa-T surface.
(7) The ends of the test sections be constructed of
stainless steel to minimize the heat losses through the
ends when operating in the natural convection regime.
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APPENDIX A
FLUID PROPERTIES
1. FLOURINERT FC-7 2 [8]
Boiling Point, latm 56°C
Density, 25°C 1.9 g/cm"^
Specific Heat, ZS'^C 0.25 cal/g °C
Heat of Vaporization atBoiling Point 21 cal/g
Thermal Conductivity, 25 °C 0.05 7 W/m °C
Surface Tension, 25°C 12 dynes/cm
Dielectric Constant, 25<'C (1 kHZ) 1.76
Average Molecular Weight 340
2. R-113 [9]
Boiling Point, latm 47.57°C
3Density, 25°C 1.565 g/cm
Specific Heat 0.218 cal/g (°C)
Heat of Vaporization atBoiling Point 35.07 cal/g
Thermal Conductivity, 25°C 0.065 W/m °C
Surface Tension, 25°C 23 dynes/cm
Dielectric Constant, 25°C 2.41
Molecular Weight 187
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APPENDIX B
UNCERTAINTY ANALYSIS
(a) UNCERTAINTY IN AREA
co_j = oj = ±0.010 inch Due primarily to nonuniform cylinder diameter
A = TT D L
where:
D = Cylinder diameter to base of enhancement
L = Length of enhanced surface
dA3D
= TT L
8L
Therefore,
3A ^
co_^ = [(ttLoj^)^ + (ttDoo^)^]^/^
!a ^ ^(!d 2^ (%2 1/2
. 0.010 ^2 ^ ^
0.010 ^2^1/2
Surface
Hitachi Thermoexcel E
Linde High Flux
d A
0.635
0.729
0.022 or
0.019 or
2.2%
1.9%
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Surface d A
Gewa-T 0.625 0.023 or 2.3%
Plain Tube 0.622 0.023 or 2.3%
(b) UNCERTAINTY IN POWER
0) = ±.005 A at low power levels
03 = ±.05 A at high power levels
co^ = ±0.05 V at low power levels
00^ = ±0.5 V at high power levels
The difference in the uncertainties at high and low
power levels is due to larger fluctuations in source voltage
and current at higher power levels.
dQ9V
Q = V I
= I
31= V
r, .05 ,2 ,005 . 2,1/2
^4.034^ ^070^ ^
0.076 or 7.6% at the lowest power level whereheater voltage of 2.034 volts and heatercurrent of 0.70 amps were the lowest used in
any run
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^ = [ (-^Q
> ^ + ,.05 ,2,1/2
Q ^^121.3^ M.20^ •
= .013 or 1.3% at the highest power level where121.3 volts and 4.20 amps were the highestused in any run
(c) UNCERTAINTY IN HEAT FLUX
^ = i
9q ^ 1
3Q A
i£ = _ -Q.3A
r / Q ,2^.1 > 2,1/2
2 2 1/20)^ = [(ttLoOj^)^ + (TTDaj^)^]-"/^
2 2 1/2
03 CO
Q^ 2,1/2q ^^ A ^ ^ ^ Q ' J
^n 7 ^T 2 ^V 2 ^12 1/2= [(^)2 + (^)2 ^
(_V)2 ^ (^)^]V^
Surface q
Hitachi Thermoexcel E 058 or 5.8% lowest power level
021 or 2.1% highest power level
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cog
Surface q
Linde High Flux .077 or 7.7% lowest power level
.019 or 1.9% highest power level
Gewa-T .053 or 5.3% lowest power level
.021 or 2.1% highest power level
Plain tube .0 55 or 5.5% lowest power level
.022 or 2.2% highest power level
This analysis excludes losses from the unenhanced ends
of the test surfaces. With the exception of the plain
copper tube, these losses are within the bounds of the uncer-
tainties above once boiling initiates. The losses are
significantly larger prior to the initiation of boiling.
Appendix C shows the effect of end losses at different power
levels.
(d) UNCERTAINTY IN AT
0.05°C at lowest power level
0.50°C at highest power level
0.05*^0 at lowest power level
O.IO^C at highest power level
These uncertainties include the effects of fluctuations in
the Newport pyrometer readings, uncertainty in the location
of the thermocouples and solder thickness around the heater,
and the use of an average temperature reading for the four
thermocouples in the test section.
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AT — T -w ^s
3AT8Tw
= 1
3AT = -1
_ r,3AT ,2 ^ .3AT, . 2^1/2'"at = f^8T- ^TV^ ^ ^BT-^ '"ts^
^
w s
= 0.0 71°C at lowest power level
= O.SICC at highest power level.
Therefore,
'"at 071-j^ = -y-^ = .237 or 23.7% at low AT
'"at 0.510AT 3Q ^
= .013 or 1.3% at high AT
'"at-j=- < .10 or 10% for AT > 0.71 or approximately
95% of the data collected.
(e) UNCERTAINTY IN HEAT TRANSFER COEFFICIENT
h = q/AT
3h 1
3q AT
3h q3AT AT^
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OJ,- r (
^ \ 2 ^ , q ,2, 1/2AT
ATAT'
^ = u%^. r-^)2,i/2h AT
Surface
Hitachi Thermo-excel E
Linde High Flux
Gewa-T
Plain tube
rWatts,%^~2 ^
20.36
300.7
3.18
1221.8
3.96
1014.9
11.72
211.6
CO_h
h
0.117 or 11.7% lowest power level
0.032 or 3.2% highest power level
0.066 or 6.6% lowest power level
0.044 or 4.4% highest power level
0.062 or 6.2% lowest power level
0.053 or 5.3% highest power level
0.090 or 9% lowest power level
0.0011 or 0.11% highest powerlevel
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APPENDIX C
TEST SECTION LOSSES FROM THE UNENHANCED ENDS
Sample Calculation for the Thermoexcel-E Surface
in R-113
The assumption is made that the unenhanced end sections
of the test surface act as fins with insulated ends. To
determine the temperature gradient along the fin we start
with the assumption that the temperature at the base of the
fin is the same as the average wall temperature of the test
section. T^ is assumed to be the pool bulk temperature. The
fluid properties of the working fluid are evaluated at the
film temperature, T-. We assume that along the fins we have
the case of free convection from a horizontal cylinder. The
figure below is a schematic cross sectional drawing of the
system.
ENHANCED ^r- ^~\q^^rfaq|1
ra
fINSULATION
HEATER
Xoo
UNENHANCEDQ, END
i-
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Consider the case where:
Q = 14 .16 watts
T„ = 120.5 °F
T^ = 138.6 °F, and
, /
T^ = ^^°-S^
^^^-^= 129.6 °F
The Prandtl Number is given by
where:
Pr = -^
y = viscosity Ibm/ft hr
k = liquid thermal conductivity BTU/hr ft °F
c = specific heat BTU/lbm °F.P ^
If the properties of R-113 are evaluated at the film
temperature, T-, we get:
pr - ^L^R = (1>18) (0.236) ^^^ - k .0400o.:?D.
The Grashof Number is:
r>. - g 6 AT P-^(jr — ^
V
where:
3 = volume coefficient of expansion °F
/^T = T - Tw °
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T^ = average tube wall temperature °F
T^ = fluid bulk temperature T
D = tube diameter ft, and
2V = kinematic viscosity ft /hr
(32.2) (.00093) (138.6 - 120.5) ( .054) ^(3600)
^
Gr -2
(0.0128)
= 6.75 X 10^
The Rayleigh Number is then:
Ra = Gr Pr = (6 . 75 x lO^) ( 6 . 96) = 4.7x10'^
4 9For Rayleigh numbers between 10 and 10 , Holman [10]
gives the following correlation:
Nu = 0.5 3 (Ra)'•^'^
Using the Rayleign Number from above gives
Nu = 0.53(4.7 X lo"^)-"-^"^ = 43.88
The heat transfer coefficient is then calculated:
h = NuJs ^ (43.88) (040) ^ 32,5 B^U/hr ft^ °FD .05 4
Assuming that the ends of the test surface act as fins with
insulated ends, we can use the following equation from
Holman [11] to determine the heat loss, Q^, from the ends
of the test section.
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.i/
Q^ = [h P k A]-^/^ e tanh mL
where:
h = heat transfer coefficient
P = tube outside wall perimeter ft
k = thermal conductivity of copper BTU/hr ft "F
2A = tube cross sectional area ft
^ _ .hP,l/2 -.-1
L = fin length ft, and
e = T - To w =
The following corrections are applied to the heat loss
equation above. The Harper Brown correction is applied to
the fin length to determine a corrected fin length, L , to
compensate for the thickness of the fin so that
L = L + t/2 ftc
= 0.104 + .008/2 = .108 ft
t = fin thickness
.
rh Pt1/2
p = TT D = TT(.054) = .170 ft
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^ = jf^D^)^- (D^)^] = J[(. 054)2- (.044)2]4LV ^J K^^, J^
= 0.00076 ft^
Therefore,
m = r (32.5) (.170) 1/2 _ -1••(221.3) (.00076) ^ - t3. /J tt
m L^ = (5.73) (.108) = .618
tanh m L = tanh .618 = 0.549, and finally.c
Q ^ = [h P k A]-'-^2 Q t^j^j^ ^ LL o c
= [(32.5) (.170) (221.3) (.00076) ]'^'^'^{1Q.1) (.549)
= 9.57 ^I!£ or 2.81 Watts,hr
This value could be corrected slightly by iterating on the
fin temperature difference to calculate a new heat transfer
coefficient. Since heat is lost through both ends, a total
of 5.62 Watts are lost through the ends of the tube.
_L 5.62 ^Q_Q 14.16 •^^'
Almost forty percent of the heat is lost through the ends
of the test section when the total heat in is 14.16 watts
For all the test sections the losses through the tube
ends are a significant factor prior to the initiation of
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boiling, but are within the bounds of the experimental
uncertainty for the enhanced surfaces once boiling initiates.
The table below shows the magnitude of the heat loss through
the ends of the cylinders at different power levels. The
f symbol indicates that the data was taken during an in-
creasing power excursion. The 4- symbol indicates data taken
while decreasing power from the maximum value.
Surface Q (Watts) Q^/Q v^Thermoexcel--E 14.2 t .397 .058
72 incipience .012 .058
256.2 .018 .021
7.18 + .058
High Flux 3.24 f .273 .077
12.9 incipience .01 .077
285.7 .006 .019
3.6 \ .011 .077
Gewa-T 10.92 f .245 .053
44.28 .0002 .053
286.5 .011 .021
4.6 4- .008 .053
Plain Surface 3.93 f .211 .055
14.8 \ .14 .055
293.0 .028 .022
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V-
8
Key
1. Test Vessel
2. Auxiliary heater
3. Test section
4. Digital pyrometer
5. 115 Volt AC power source
6
.
Variac
7. Digital voltmeter
8. Condenser
Figure 1. Schematic of Test Apparatus
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Figure 3. Photograph of Test Section in Boiler
51
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THERMOCOUPLES
ENHANCED SURFACE
1MGOJ-
TUBE WALLA
'^. \. '^. '^
1^^^f̂ f
EPOXY PLUG / HEATER WIRE / TEFLON PLUG
SOLDER HEATER SHEATH
Figure 4. Cross Sectional Drawing of Test Section
52
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Vapor
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' ' ^ *—* - * -^ - - • ' 'i - - '
*l|-*- >! 1 -^ -hn 11 )"> I
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Figure 5. Schematic Drawing of Test Section in Boiler
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Figure 6. Scanning Electron Micrograph ofPlain Copper Surface 500X
54
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Figure 7. Scanning Electron Micrograph ofHigh Flux Surface 500X
55
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Figure 8. Scanning Electron Micrograph ofThermoexcel-E Surface 20X
56
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r
Figure 9 . Scanning Electron Micrograph of CrossSection of Gewa-T Surface 20X
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VACUUM CHAMBER
HEATERLOCaTOR\^PLUG
TESTI^SECTION
4 ^-HEATER
ri^SPECIMEN
HOLDER
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Figure 10. Sketch of Soldering Apparatus Used
in Preparation of Test Surfaces
58
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59
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66
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Figure 43. High Flux Surface in R-113 Prior toBoiling Initiation
Figures 43-46 Movie sequence at 64 frames/sec ofthe High Flux surface in R-113 duringthe initiation of boiling, afterbeing submerged in the liquid poolovernight
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Figure 45. Activation of Entire High Flux Surfaceafter Boiling Initiation
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Figure 46. High Flux Surface in R-113 withNucleate Boiling Established
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LIST OF REFERENCES
1. Kraus, A., Cooling Electronics Equipment ^ Prentice-Hall,N.J., pp. 214-215, 1965.
2. Seely, J., and Chu, R. , Heat Transfer in Microelec-tronics , Dekker, N.Y., p. 5, 19 72.
3. Yilmaz, S., Hwalek, J., and Westwater, J., "Pool BoilingHeat Transfer Performance for Commercial EnhancedTube Surfaces," ASME Paper No. 80-HT-41, National HeatTransfer Conference, Orlando, Fl , 19 80.
4. Nishikawa, K., and Ito, T,, "Augmentation of NucleateBoiling Heat Transfer by Prepared Surfaces," Japan-United States Heat Transfer Joint Seminar, Tokyo,Japan, 1980.
5. Bergles , A., and Chyu, "Nucleate Boiling from PorousMetal Coatings," Energy Conservation via Heat TransferEnhancement , Department of Energy Publication COO-4649-10, pp. 5-13, 1979.
6. Bergles, A., Bakhru, N. , and Shires, J., "Coolingof High Power Density Computer Components," Departmentof Mechanical Engineering Projects Laboratory Report,Massachussetts Institute of Technology, 19 68.
7. Hitachi Cable Limited, Catalog EA-501, Tokyo, Japan,1978.
8. 3M Corporation, Publication Y-1179 (101) JR, "FlourinertElectronic Liquids, 1980 Edition," St. Paul, im , 19 80.
9. E.I. Du Pont De Nemours & Co., "Properties and Applica-tions of Freon Flourocarbons, " Wilmington, DE, 1964.
10. Holman, J. P., Heat Transfer , McGraw Hill, New York, N.Y.,p. 244, 1976.
11. Ibid. , p. 38.
95
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INITIAL DISTRIBUTION LIST
No. Copies
1. Defense Technical Information Center 2
Cameron StationAlexandria, Virginia 22314
2. Library, Code 014 2 2
Naval Postgraduate SchoolMonterey, California 93940
3. Department Chaiinnan, Code 69 1Department of Mechanical EngineeringNaval Postgraduate SchoolMonterey, California 93940
4. Professor Paul J. Marto, Code 69Mx 2
Department of Mechanical EngineeringNaval Postgraduate SchoolMonterey, California 9 39 40
5. Mr. Elias Ragi 1Union Carbide CorporationP.O. Box 44Tonawanda, New York 14150
6. Mr. Fred Weiler 1Wieland-America IncorporatedOrange, New Jersey 07050
7. Dr. S. Yilmaz 1
Heat Transfer Research, Inc.100 South Fremont AvenueAlhambra, California 91802
8. Lt. Victor Lepere 1501 School St.Minersville, Pa 17954
96
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