Study on the relationship between secondary flow intensity and synergy effects in the helical groove tube: A multiscale analysis of flow-heat synergy
Key Points
Secondary flow intensity enhances flow-heat synergy effects in helical groove tubes, resulting in improved efficiency and performance.
Experimental data indicates a correlation where increased secondary flow intensity uplifts heat transfer by approximately 30%.
Multiscale analysis highlights the importance of secondary flow in optimizing thermal management in advanced heating systems.
Findings suggest potential for significant thermal efficiency improvements in engineering applications through tailored designs.
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Study on the relationship between secondary flow intensity and synergy effects in the helical groove tube: A multiscale analysis of flow-heat synergy | Synapse