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Heschl, Christian
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Official Name
Heschl, Christian
Alternative Name
Heschl, C
Main Affiliation
Akademische Titel
Prof.(FH) Dipl.-Ing. (FH) Dr.
Email
christian.heschl@fh-burgenland.at
Scopus Author ID
50161591800
Status
staff
Research Outputs
Now showing 1 - 10 of 24
- Publication
154 1 - PublicationInstationäre Simulation der thermischen Behaglichkeitsparameter im Sommerfall mit CFD(2011)
; ; ; ;Nikolics, M.Velikovsky, R.130 2 - PublicationPrecipitation of Coarse Fly Ash Particles in Wood Chip Boilers - A Comparison of Experimental and Numerical Investigations(2015-06-01)
;Lamprecht, M. ;Hofmeister, G126 1 - PublicationTowards non-invasive temperature measurements in HVAC: A characterization and correction approach(IEEE, 2019-06)
; ; ; ; ;Sauter, ThiloTreytl, AlbertThe existing building stock within the European Union is responsible for a considerably huge amount of the total energy consumed. This has prompted legislative actions that focus on increasing the efficiency of Heating, Ventilation and Air Conditioning facilities by employing building automation and electronic monitoring systems. The fluid flow temperature in the hydraulic grid of a building is therefore an essential parameter to be measured, where clamp-on temperature sensors are often applied due to their simple and cost-effective installation. As the plumbing industry heads towards non-metal pipe materials with low thermal conductivity, the applicability of non- invasive measurement procedures diminishes. In this context, a characterization approach of non-invasive temperature measurements that is linked to a thermal resistance model is experimentally validated. Based on that, a correction algorithm to reduce the deviation between measured surface and the fluid flow temperature for steady state conditions is derived and tested. The presented approach provides sufficient characterization and correction performance, albeit several limitations have to be taken into consideration.423 1Scopus© Citations 1 - PublicationCharacterization of non-invasive pipe flow temperature measurement(2017-10)
; ;Derler, Bernhard ;Seidl, Christian6 3 - Publication
156 1 - PublicationDevelopment of an innovative blind control strategy to increase the thermal comfort of an office building(Konferenzbeitrag zur internationalen Konferenz „Indoor Climate of Buildings 2019“, 2019)
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