Optische Schmelzüberwachung: Einsatz einer Lichtfeldkamera im Hochtemperaturbereich beim Schmelzvorgang von Aluminium

Research output: Contribution to journalArticleResearchpeer review

Authors

  • B. A. Behrens
  • H. Semrau
  • S. O. Sauke
  • H. Larki Harchegani
  • S. Mohammadifard

Research Organisations

External Research Organisations

  • ZPF GmbH
  • Unternehmensberatung Sauke.Semrau GmbH
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Details

Translated title of the contributionOptical monitoring of the melting process in an Al-melting furnace
Original languageGerman
Pages (from-to)738-742
Number of pages5
JournalWT Werkstattstechnik
Volume106
Issue number10
Publication statusPublished - 2016

Abstract

The melting process in a furnace cannot be monitored by contact sensors due to the high temperatures. Thus, the IFUM investigates a method for monitoring the melting process by optical sensors. An optical measuring system will monitor the fuse bridge despite the red-hot furnace walls. Next, the material state during the melting process or the change in height of the aluminum block is elaborated by an image analysis of the recordings to detect any melt residues on the fuse bridge. Thus, the opening of the furnace door to determine the amount of residual aluminum, which always causes high energy losses, can largely be avoided. Copyright Springer-VDI-Verlag GmbH & Co. KG, Düsseldorf.

ASJC Scopus subject areas

Cite this

Optische Schmelzüberwachung: Einsatz einer Lichtfeldkamera im Hochtemperaturbereich beim Schmelzvorgang von Aluminium. / Behrens, B. A.; Semrau, H.; Sauke, S. O. et al.
In: WT Werkstattstechnik, Vol. 106, No. 10, 2016, p. 738-742.

Research output: Contribution to journalArticleResearchpeer review

Behrens, BA, Semrau, H, Sauke, SO, Harchegani, HL & Mohammadifard, S 2016, 'Optische Schmelzüberwachung: Einsatz einer Lichtfeldkamera im Hochtemperaturbereich beim Schmelzvorgang von Aluminium', WT Werkstattstechnik, vol. 106, no. 10, pp. 738-742. <https://www.werkstattstechnik.de/wt/get_article.php?data[article_id]=86530>
Behrens, B. A., Semrau, H., Sauke, S. O., Harchegani, H. L., & Mohammadifard, S. (2016). Optische Schmelzüberwachung: Einsatz einer Lichtfeldkamera im Hochtemperaturbereich beim Schmelzvorgang von Aluminium. WT Werkstattstechnik, 106(10), 738-742. https://www.werkstattstechnik.de/wt/get_article.php?data[article_id]=86530
Behrens BA, Semrau H, Sauke SO, Harchegani HL, Mohammadifard S. Optische Schmelzüberwachung: Einsatz einer Lichtfeldkamera im Hochtemperaturbereich beim Schmelzvorgang von Aluminium. WT Werkstattstechnik. 2016;106(10):738-742.
Behrens, B. A. ; Semrau, H. ; Sauke, S. O. et al. / Optische Schmelzüberwachung : Einsatz einer Lichtfeldkamera im Hochtemperaturbereich beim Schmelzvorgang von Aluminium. In: WT Werkstattstechnik. 2016 ; Vol. 106, No. 10. pp. 738-742.
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abstract = "The melting process in a furnace cannot be monitored by contact sensors due to the high temperatures. Thus, the IFUM investigates a method for monitoring the melting process by optical sensors. An optical measuring system will monitor the fuse bridge despite the red-hot furnace walls. Next, the material state during the melting process or the change in height of the aluminum block is elaborated by an image analysis of the recordings to detect any melt residues on the fuse bridge. Thus, the opening of the furnace door to determine the amount of residual aluminum, which always causes high energy losses, can largely be avoided. Copyright Springer-VDI-Verlag GmbH & Co. KG, D{\"u}sseldorf.",
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AB - The melting process in a furnace cannot be monitored by contact sensors due to the high temperatures. Thus, the IFUM investigates a method for monitoring the melting process by optical sensors. An optical measuring system will monitor the fuse bridge despite the red-hot furnace walls. Next, the material state during the melting process or the change in height of the aluminum block is elaborated by an image analysis of the recordings to detect any melt residues on the fuse bridge. Thus, the opening of the furnace door to determine the amount of residual aluminum, which always causes high energy losses, can largely be avoided. Copyright Springer-VDI-Verlag GmbH & Co. KG, Düsseldorf.

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