Detail publikace
The Impact of Pumping Velocity on Temperature Running in Chambers of Experimental System
MAXOVÁ, A. MAXA, J. ŠABACKÁ, P.
Originální název
The Impact of Pumping Velocity on Temperature Running in Chambers of Experimental System
Anglický název
The Impact of Pumping Velocity on Temperature Running in Chambers of Experimental System
Jazyk
en
Originální abstrakt
This article deals with the preparation of the experimental chamber on which, among other things, stagnation and static temperature will be measured. The results obtained from the measurements will be compared with the results of mathematical-physics analyzes of the Ansys Fluent system. Due to the expected temperature drop during pumping, the analyzes of the given pumping process were made for the selection of suitable probes for the cryogenic mode were also performed.
Anglický abstrakt
This article deals with the preparation of the experimental chamber on which, among other things, stagnation and static temperature will be measured. The results obtained from the measurements will be compared with the results of mathematical-physics analyzes of the Ansys Fluent system. Due to the expected temperature drop during pumping, the analyzes of the given pumping process were made for the selection of suitable probes for the cryogenic mode were also performed.
Dokumenty
BibTex
@inproceedings{BUT167531,
author="Anna {Maxová} and Jiří {Maxa} and Pavla {Šabacká}",
title="The Impact of Pumping Velocity on Temperature Running in Chambers of Experimental System",
annote="This article deals with the preparation of the experimental chamber on which, among other things, stagnation and static temperature will be measured. The results obtained from the measurements will be compared with the results of mathematical-physics analyzes of the Ansys Fluent system. Due to the expected temperature drop during pumping, the analyzes of the given pumping process were made for the selection of suitable probes for the cryogenic mode were also performed.",
booktitle="ABAF 21st issue of ECS Transactions",
chapter="167531",
doi="10.1149/09901.0317ecst",
edition="99",
howpublished="online",
number="1",
year="2021",
month="january",
pages="317--323",
type="conference paper"
}