Publication result detail
Air cooling efficiency by glass and silicon carbide baffled pilot plant shell and tube heat exchanger
HORVÁT, P.; SVĚRÁK, T.; ŠOUKAL, F.; WASSERBAUER, J.; KRIŠTOF, O.
Original Title
Air cooling efficiency by glass and silicon carbide baffled pilot plant shell and tube heat exchanger
English Title
Air cooling efficiency by glass and silicon carbide baffled pilot plant shell and tube heat exchanger
Type
Conference proceedings
Original Abstract
Comparison of heat exchange in baffled pilot plant shell and tube heat exchangers through glass and silicon carbide heat exchange surface at different air flows by using different inlet air and coolant temperatures. Experimental verification of theoretical computational relations.
English abstract
Comparison of heat exchange in baffled pilot plant shell and tube heat exchangers through glass and silicon carbide heat exchange surface at different air flows by using different inlet air and coolant temperatures. Experimental verification of theoretical computational relations.
Keywords
shell and tube heat exchanger; heat transfer; cooling; silicon carbide
Key words in English
shell and tube heat exchanger; heat transfer; cooling; silicon carbide
Authors
HORVÁT, P.; SVĚRÁK, T.; ŠOUKAL, F.; WASSERBAUER, J.; KRIŠTOF, O.
RIV year
2024
Released
18.09.2023
Publisher
DECHEMA Gesellschaft für Chemische Technik und Biotechnologie e.V.
Location
Berlin
Book
Book of Abstracts - Posters - 14th ECCE and 7th ECAB
Pages count
2
URL
BibTex
@proceedings{BUT184690,
editor="Petr {Horvát} and Tomáš {Svěrák} and František {Šoukal} and Jaromír {Wasserbauer} and Ondřej {Krištof}",
title="Air cooling efficiency by glass and silicon carbide baffled pilot plant shell and tube heat exchanger",
year="2023",
pages="2",
publisher="DECHEMA Gesellschaft für Chemische Technik und Biotechnologie e.V.",
address="Berlin",
url="https://dechema.converia.de/custom/media/ECCE_ECAB2023/BoA_Posters_download.pdf"
}