Thermal coating development for impulse drying

A plasma-sprayed coating has been developed for the heated surface of rolls used in a new energy-efficient paper drying process, known as“Impulse Drying,” which could save the US paper industry an estimated $800 million annually in reduced energy costs. Because impulse drying rolls operate at substantially higher surface temperatures than conventional drying rolls, the thermal properties of the roll surface must be carefully tailored to control energy transfer to the paper and thus prevent sheet delamination or other undesirable effects. To meet this requirement, a plasma-sprayed thermal barrier coating has been developed to control thermal mass, heat transfer, and steam infiltration. A coated test platen significantly outperformed a comparable uncoated steel platen in preliminary experiments with a heavyweight grade of paper on a laboratory-scale impulse drying simulator. Based on these results, the coating was then tested on the roll of a pilot-scale impulse dryer. Compared to conventional wet pressing, linerboard that was impulse dried with the coated test roll showed marked improvements in water removal as well as improved physical properties, such as density and specific elastic modulus. The successful prototype coating design has three plasma-sprayed layers that are deposited sequentially: a nickel alloy bond coat, a thick, 17% porous zirconia thermal barrier, and a thin, 5 to 7% porous zirconia top coat. This work was performed in part at Sandia National Laboratories, operated for the US Department of Energy under contract No. DE-AC01-76DP00789. Work at the Institute of Paper Science and Technology was sponsored by the member companies of the Institute of Paper Science and Technology and by the US Department of Energy under contract No. FG02-85CE40738.