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Experimental Study of Highly Frequent Nusselt Number Distributions by ALTPs

Autoren

Claudia Hofmann
C.Hofmann@haw-landshut.de
Konstantin Huber
Prof. Dr.-Ing. Tim Rödiger
Tim.Roediger@haw-landshut.de

Medien

Proceedings of the 34th International Symposium on Shock Waves, Volume 1: Fundamentals

Veröffentlichungsjahr

2025

Seiten

521–530

Herausgeber

Myong, Rho Shin and Kim, Heuy Dong

Veröffentlichungsart

Konferenzbeitrag

ISBN

978-981-96-4767-5

Zitierung

Hofmann, Claudia; Huber, Konstantin; Roediger, Tim (2025): Experimental Study of Highly Frequent Nusselt Number Distributions by ALTPs. Proceedings of the 34th International Symposium on Shock Waves, Volume 1: Fundamentals, 521–530.

Peer Reviewed

Ja

Energie

Experimental Study of Highly Frequent Nusselt Number Distributions by ALTPs

Abstract

This study demonstrates the determination of local Nusselt numbers by means of fast-response ALTP sensors. The new methodology is based on the simultaneous measurement of heat flux and wall temperature within one single ALTP sensor element. In addition, the adiabatic wall temperature is determined by variation of wall/sensor temperature. For this, an ALTP sensor is placed in the stagnation point region of a subsonic jet impinging on a baffle plate. The performance of the procedure is shown by step-wise heating of the plate in a range between 55 and }}90\backslash,^\backslashcirc }}90∘C. The resulting individual Nusselt numbers at various wall temperatures are fairly independent of wall temperature and deliver a mean value }}Nu \backslashapprox 167}}Nu≈167with a standard deviation of }}3.1\backslash,\backslash%}}3.1%. Furthermore, the characteristic of the sensor is investigated with regard to sensitivity and dynamic performance. An automated laser-based, dynamic calibration set-up with an extended frequency range up to }}2\backslash,\backslashtextrm{MHz}}}2MHzand improved signal-to-noise ratio is presented.