Corrosion Reviews, Volumes 11-13Scientific Publications Division, Freund Publishing House, 1993 |
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Page 33
... active nucleation sites certainly causes a reduction of the film heat transfer coefficient . Jamialahmadi and Müller - Steinhagen [ 27-30 ] measured the variation of nucleation site density with time during the fouling period . Some of ...
... active nucleation sites certainly causes a reduction of the film heat transfer coefficient . Jamialahmadi and Müller - Steinhagen [ 27-30 ] measured the variation of nucleation site density with time during the fouling period . Some of ...
Page 37
... active nucleation sites , thus increasing the heat transfer coefficient in region 2. Over the following period of time , the combined bubbling / deposition process gradually increases the density of the deposit , de - activating smaller ...
... active nucleation sites , thus increasing the heat transfer coefficient in region 2. Over the following period of time , the combined bubbling / deposition process gradually increases the density of the deposit , de - activating smaller ...
Page 373
... active pit growth . When the anodic metal dissolution takes place under a passive film , there must be some ionic species migrating through the film namely cations migrating from the internal occluded solution and anions from the ...
... active pit growth . When the anodic metal dissolution takes place under a passive film , there must be some ionic species migrating through the film namely cations migrating from the internal occluded solution and anions from the ...
Contents
Scale Formation During Nucleate Boiling A Review | 26 |
Change in Boiling Mechanism with Time | 33 |
Heat Transfer Models in the Presence of Deposit | 43 |
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acid adhesion AISI alkali Alloy 59 aluminium anodic anticorrosive application ASTM austenitic bacteria behaviour biocide biofilm biofouling boiling bubble carbon steel cathodic protection cells chemical chloride chromate composition concentration concrete cooling water corrosion inhibitors corrosion rate corrosion resistance cost crevice corrosion current density decrease deposit effect electrochemical electrode Engineering environment erosion evaluation experimental exposure fluid formation fouling growth heat exchangers heat flux heat transfer coefficient heat transfer surface impact inclusions increase industrial ions iron laboratory layer marine materials mechanism metal surface method Michael Schorr NACE nickel nucleation obtained oxide oxygen ozone paint particles passive film phosphate coatings pigment pitting corrosion polarization present Pseudomonas fluorescens rebars reduced samples scale sea water seawater shear slurry solubility solution specimens stainless steel stress corrosion cracking structure Table Technology temperature thermal thickness tube values velocity W/m² weld zinc phosphate