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Proceedings Paper

High-speed infrared imaging of flash mixing and streetview omnilens thermography
Author(s): Sami Siikanen; Kimmo Solehmainen; Timo Kauppinen; Marko Rasi; Jouni Matula; Kari Peltonen; Jari Käyhkö
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Paper Abstract

In-line mixing technologies used in paper and pulp manufacturing have been studied long and broadly by XAMK Fiberlaboratory in Savonlinna, Finland. Especially, wider introduction and diversification of technologies related to mixing of paper chemicals have created a need to determined research of the in-line mixing technologies. In Finnish research project FLASH, a ground was based for researching and developing the fast in-line mixing techniques together with companies operating in pulp and paper industry segment. Application potential, basic knowledge, measurement technologies, experiment techniques, and research facilities were surveyed for utilizing them later in practical processes. One of the tested measurement technologies was high-speed infrared imaging.

The high-speed infrared imaging tests were carried out together by VTT, XAMK and the companies in Fiberlaboratory research facility in 2013-2015. The Fiberlaboratory research facility includes medium-consistency pulp (MC) chemical mixing equipment, which is almost equal to real life paper mill chemical mixing environment. The infrared imaging was done with the help of IR transmitting sapphire window attached to suitable point in mixing tube system. Temperature differences of main flow and mixing flow enabled analyzing and calculating mixing indexes for different mixing drive parameters successfully.

VTT has also designed a new kind of infrared omnilens for example for panoramic streetview thermography. The VTT omnilens technology enables the streetview thermography with a single infrared camera. Horizontal 360 degree infrared image is achieved by novel lens solution and also vertical image portion is possible. The streetview thermography is useful when finding thermal leaks from buildings in wide area or it can be used to find thermal leaks inside buildings with wheeled small vehicles. Also, utilizing the omnilens in drones to prevent them to collide each other or other drone applications are possible in the future.

Paper Details

Date Published: 14 May 2018
PDF: 7 pages
Proc. SPIE 10661, Thermosense: Thermal Infrared Applications XL, 1066116 (14 May 2018); doi: 10.1117/12.2318050
Show Author Affiliations
Sami Siikanen, VTT Technical Research Ctr. of Finland Ltd. (Finland)
Kimmo Solehmainen, VTT Technical Research Ctr. of Finland Ltd. (Finland)
Timo Kauppinen, Mutsal Tmi (Finland)
Marko Rasi, XAMK Fiberlaboratory (Finland)
Jouni Matula, Wetend Oy (Finland)
Kari Peltonen, Andritz Oy (Finland)
Jari Käyhkö, XAMK Fiberlaboratory (Finland)

Published in SPIE Proceedings Vol. 10661:
Thermosense: Thermal Infrared Applications XL
Douglas Burleigh; Jaap de Vries, Editor(s)

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