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Green Bay Packaging Keeps Safety in the Family, Paper360º January/February 2020
Green Bay Packaging Keeps Safety in the Family, Paper360º January/February 2020
Journal articles
Magazine articles
Heading For a Downturn?, Paper360º January/February 2020
Heading For a Downturn?, Paper360º January/February 2020
Journal articles
Magazine articles
Pulp and Paper Must Play a Part in Mitigating Climate Change, Paper360º January/February 2020
Pulp and Paper Must Play a Part in Mitigating Climate Change, Paper360º January/February 2020
Journal articles
Magazine articles
Guest Editorial: Fifty years with TAPPI: A personal and professional perspective, TAPPI Journal June 2020
ABSTRACT: While reflecting on this being my 50th year in TAPPI, it dwaned on me that my father Murray must also have been a TAPPI member for a similar length of time and that he probably joined TAPPI for the same reasons--we both had just started our first jobs in the pulp and paper industry and wanted to learn ecerything we could about the underlying technology.
Journal articles
Magazine articles
We’ve Got Good Chemistry: Innovations Papermakers Need to Know About, Paper360º March/April 2020
We’ve Got Good Chemistry: Innovations Papermakers Need to Know About, Paper360º March/April 2020
Journal articles
Magazine articles
Fundamental understanding of removal of liquid thin film trapped between fibers in the paper drying process: A microscopic approach, TAPPI Journal May 2020
ABSTRACT: In the fabrication of paper, a slurry with cellulose fibers and other matter is drained, pressed, and dried. The latter step requires considerable energy consumption. In the structure of wet paper, there are two different types of water: free water and bound water. Free water can be removed most effectively. However, removing bound water consumes a large portion of energy during the process. The focus of this paper is on the intermediate stage of the drying process, from free water toward bound water where the remaining free water is present on the surfaces of the fibers in the form of a liquid film. For simplicity, the drying process considered in this study corresponds to pure convective drying through the paper sheet. The physics of removing a thin liquid film trapped between fibers in the paper drying process is explored. The film is assumed to be incompressible, viscous, and subject to evaporation, thermocapillarity, and surface tension. By using a volume of fluid (VOF) model, the effect of the previously mentioned parameters on drying behavior of the thin film is investigated.
Journal articles
Magazine articles
TAPPI Journal Summaries, Paper360º May/June 2020
TAPPI Journal Summaries, Paper360º May/June 2020
Journal articles
Magazine articles
Capturing the Momentum of Change, Paper360º November/December 2020
Capturing the Momentum of Change, Paper360º November/December 2020
Journal articles
Magazine articles
Future of Food Packaging: Four Scenarios, Paper360º November/December 2020
Future of Food Packaging: Four Scenarios, Paper360º November/December 2020
Journal articles
Magazine articles
ASPI News, Paper360º November/December 2020
ASPI News, Paper360º November/December 2020