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Page 21
A higher concentration of 60 mg / l seems to be more successful at the higher velocity of 1.5 m / s , probably due to a greater rate of diffusion of biocide ( as well as nutrients ) to the deposit resulting from the higher turbulence ...
A higher concentration of 60 mg / l seems to be more successful at the higher velocity of 1.5 m / s , probably due to a greater rate of diffusion of biocide ( as well as nutrients ) to the deposit resulting from the higher turbulence ...
Page 58
For higher velocities , such as those usually encountered in heat exchangers , the picture is altogether different : adhesion appears to be the limiting step in the deposition process and its rate decreases when the flow rate is ...
For higher velocities , such as those usually encountered in heat exchangers , the picture is altogether different : adhesion appears to be the limiting step in the deposition process and its rate decreases when the flow rate is ...
Page 175
The CPVC value is the smallest of all the ratios considered ; moreover , higher oxidation and lower ohmic resistance were observed as PVC increased . These results are significant , since these samples have a greater content of ...
The CPVC value is the smallest of all the ratios considered ; moreover , higher oxidation and lower ohmic resistance were observed as PVC increased . These results are significant , since these samples have a greater content of ...
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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 |
39 other sections not shown
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acid addition adhesion alloy anodic application attack biocide biofilm bubble carbon cathodic caused characteristics chemical chloride coatings composition concentration concrete containing cooling corrosion rate corrosion resistance cost decrease density depends deposit determined effect electrochemical Engineering environment equipment erosion evaluation experimental experiments Figure flow fluid formation formed fouling growth heat transfer higher impact important improved increase industrial influence inhibitor ions iron laboratory layer lower marine materials measurements mechanism metal method natural nickel observed obtained occurs operating organic oxide ozone paint particles passive performance phosphate pigment pitting plant potential present properties protection reaction reduced References removal samples scale seawater shown shows solution specimens stainless steel strength structure studied surface Table Technology temperature thickness treatment values various weld zinc