What question did this study set out to answer?

The aim is to understand the flow behavior of hydrogen on a heated substrate in varying conditions.

March 26, 2026Open Access

Visualization of time-dependent flow patterns in impinging jet on heated substrate

Key Points

The aim is to understand the flow behavior of hydrogen on a heated substrate in varying conditions.
Used PIV analysis and FFT analysis to examine flow characteristics.
Varying hydrogen flow rate (3 to 9 slm) and nozzle diameter (10 to 180 mm).
Focused on the interaction between flow rate and nozzle-diameter ratios.
Identified flow separation occurs at approximately 2.3 seconds under specific conditions.
Observed flow separation does not solely depend on gas type or nozzle-to-substrate diameter ratio.
Operating conditions like flow rate and channel height also significantly influence flow behavior.

Abstract

In this study, we investigated the hydrogen upward flow on locally heated disc in a cylindrical flow channel. The diameter of the heated disc was 60 mm. The hydrogen flow rate Q and nozzle diameter dH were changed for 3 slm < Q < 9 slm and 10 mm < dH < 180 mm, respectively. From the PIV analysis and FFT analysis of the vorticity on the heated disc, it became clear that flow separation occurs at a period of approximately 2.3 seconds at Q = 3 slm and dH = 20 mm even when the diameter of the heated substrate was smaller than that of C. Shekhar et al.. On the other hand, the flow separation was not observed at Q = 3 slm and dH = 10 mm. This suggested that flow separation was not determined solely by the type of gas and the ratio of nozzle diameter to heating substrate diameter, but also could depend on operating conditions such as flow rate and channel height.

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Cite This Study

WANG et al. (Wed,) studied this question.

synapsesocial.com/papers/69c4cd73fdc3bde448919d3e https://doi.org/https://doi.org/10.1299/jsmemecj.2025.j052p-48

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