Abstract
One way of saving energy in metal coating is by using electrically heated infrared dryers with medium-wave radiation (2 to 3 ..mu..m). The absorbing capacity of varnishes and plastic coatings is >90% in this range so that the radiation energy is almost completely transformed into heat. Medium-wave radiation sources have a much higher service life than short-wave sources (30.000 hours of operation) and do not require cooling; compared with long-wave sources, they have a higher heat transfer and thus much shorter drying times. The main fields of application, a cost example, and practical examples among the customers of Messrs. Eisenmann are presented.
Citation Formats
Schmid, K.
Saving energy. [Metal Coating With Infrared Dryers].
Germany: N. p.,
1981.
Web.
Schmid, K.
Saving energy. [Metal Coating With Infrared Dryers].
Germany.
Schmid, K.
1981.
"Saving energy. [Metal Coating With Infrared Dryers]."
Germany.
@misc{etde_6904511,
title = {Saving energy. [Metal Coating With Infrared Dryers]}
author = {Schmid, K}
abstractNote = {One way of saving energy in metal coating is by using electrically heated infrared dryers with medium-wave radiation (2 to 3 ..mu..m). The absorbing capacity of varnishes and plastic coatings is >90% in this range so that the radiation energy is almost completely transformed into heat. Medium-wave radiation sources have a much higher service life than short-wave sources (30.000 hours of operation) and do not require cooling; compared with long-wave sources, they have a higher heat transfer and thus much shorter drying times. The main fields of application, a cost example, and practical examples among the customers of Messrs. Eisenmann are presented.}
journal = []
volume = {21:4}
journal type = {AC}
place = {Germany}
year = {1981}
month = {Jan}
}
title = {Saving energy. [Metal Coating With Infrared Dryers]}
author = {Schmid, K}
abstractNote = {One way of saving energy in metal coating is by using electrically heated infrared dryers with medium-wave radiation (2 to 3 ..mu..m). The absorbing capacity of varnishes and plastic coatings is >90% in this range so that the radiation energy is almost completely transformed into heat. Medium-wave radiation sources have a much higher service life than short-wave sources (30.000 hours of operation) and do not require cooling; compared with long-wave sources, they have a higher heat transfer and thus much shorter drying times. The main fields of application, a cost example, and practical examples among the customers of Messrs. Eisenmann are presented.}
journal = []
volume = {21:4}
journal type = {AC}
place = {Germany}
year = {1981}
month = {Jan}
}