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Magnetic resonance velocimetry-based diagnosis-modification-validation framework for flow and acoustic improvement in heat pump tumble dryer machine room

Authors
Dong, HangfeiYi, GyuyoungKang, ChihoKi, SunghyunCho, Jee-HyunPark, JunhongSong, Simon
Issue Date
Sep-2026
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Keywords
Magnetic resonance velocimetry (MRV); Turbulent kinetic energy (TKE); Flow-induced noise; Vibro-acoustic; Heat pump tumble dryer
Citation
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER, v.178, pp 1 - 17
Pages
17
Indexed
SCIE
SCOPUS
Journal Title
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
Volume
178
Start Page
1
End Page
17
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/218038
DOI
10.1016/j.icheatmasstransfer.2026.111743
ISSN
0735-1933
1879-0178
Abstract
Complex internal flow passages in heat pump tumble dryers often generate flow separation and secondary motions that degrade flow and thermal performance and increase flow-induced vibration and noise. This study presents a comprehensive diagnosis-modification-validation framework that integrates magnetic resonance velocimetry (MRV), omni-directional integration (ODI), and direct vibro-acoustic measurements. MRV measurements of a 0.4-scale three-dimensional printed reference model identified pronounced separated flow, large-scale secondary flow, recirculation, and elevated turbulent kinetic energy (TKE). Based on this diagnosis, four targeted passive structural modifications were introduced. The modified design exhibited substantially improved flow uniformity, marked suppression of secondary flow and separation, and more than 50% reduction in high-TKE regions. ODI-based reconstruction of the three-dimensional pressure field further demonstrated enhanced pressure recovery in the inlet, mid, and outlet regions. In addition, a surrogate indicator derived from the volumetric mean velocity field was proposed for rapid design screening and was found to correlate well with the reduction ratio of average TKE. Direct vibro-acoustic measurements showed that the flow improvement translated into broadband attenuation of structural vibration and a 3.2 dB reduction in overall radiated noise. These results demonstrate that the proposed framework provides an effective and generalizable experimental methodology for diagnosing and improving complex opaque internal flow systems.
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