High velocity impinging air jets are commonly used to accelerate the evapor
ative ink drying process due to the high heat and mass transfer rates which
are developed in the impingement region. Comparative heat transfer studies
are given to establish the optimum variables such as nozzle shape, size an
d pitch, nozzle distance from surface, to minimize the capital and-running
costs of the drying plant. At the present, when energy cost are high, desig
ns which require large quantities of high air jet velocity and high air tem
perature are unattractive.
In order to provide data for designers of industrial dryers, at program of
research has been implemented to study the analogy between the heat and mas
s transfer processes which constitute the ink drying process. Different fue
ls for ink drying are compared on a common energy available basis. The most
economical case for fan power and heating power was found to be natural ga
s as fuel. (C) 1999 Elsevier Science Ltd. All rights reserved.