Y
Yongliang Zhang
Researcher at Qingdao University
Publications - 9
Citations - 315
Yongliang Zhang is an academic researcher from Qingdao University. The author has contributed to research in topics: Heat transfer & Pressure drop. The author has an hindex of 5, co-authored 6 publications receiving 220 citations.
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Research on heat transfer enhancement and flow characteristic of heat exchange surface in cosine style runner
TL;DR: In this paper, the steady state heat transfer and flow resistance performance in cosine style runners with different amplitudes were studied numerically and experimentally, and the authors concluded that the smaller the amplitude is, its field synergy is better.
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Experimental study on enhanced heat transfer and flow performance of magnetic nanofluids under alternating magnetic field
Xilong Zhang,Yongliang Zhang +1 more
TL;DR: The heat transfer and pressure drop performance of magnetic nanofluids (MNFs) under different alternating magnetic fields were investigated experimentally as discussed by the authors, and the results showed that the effect of alternating magnetic field on local heat transfer coefficient is better than that of unidirectional and non-magnetic fields along flow direction.
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Heat transfer and flow characteristics of Fe3O4-water nanofluids under magnetic excitation
Xilong Zhang,Yongliang Zhang +1 more
TL;DR: In this paper, numerical simulations were adopted to explore the heat transfer and flow characteristics of magnetic nanofluids under different magnetic field intensities, volume fractions, and magnetic field directions, and they found that the effect of heat transfer enhancement was small under a weak magnetic field, but it increased considerably under a strong magnetic field.
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Analysis of heat transfer and flow characteristics in typical cambered ducts
TL;DR: In this paper, the authors investigated the heat transfer and flow characteristics of the air-water cross flow over cambered ducts and found that the cosinoidal duct is superior to that of the rectangular duct by 7.3% to 28.1%.
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Semi-analytical study on an integrated-system with separated heaving OWC and breakwater: Structure size optimization and gap resonance utilization
TL;DR: In this article , a novel integrated system composed of an offshore heaving OWC device and a floating stationary breakwater with a certain length of gap between each other is proposed under the framework of potential flow theory, corresponding theoretical model is established and solved by decomposing the boundary-value problems into one wave scattering component and two radiation components.