著作管理系統
發表年月: 年 到
匯出:Excel格式



期刊論文
  1. W.K. Li; C.C. Liao* , “Evaluation of heat transfer transition for nanofluids within an enclosure based on magnetic field angles” , 2023 , Case Studies in Thermal Engineering , vol.50 , p.103480_01-11. (SCI, IF=6.8, 5/62, JCR-2022). (SCI期刊)
  2. Y.B. Lee; C.C. Liao* , “Numerical simulations on heat transfer enhancement of nanofluids in microchannel using vortex generator” , 2023 , Engineering Proceedings , vol.38 , p.68_01-08. (Scopus期刊)
  3. T.H. Chao; C.C. Liao* , “Degassing of medical powder plastics in fused deposition 3D printing” , 2023 , Engineering Proceedings , vol.38 , p.69_01-08. (Scopus期刊)
  4. K.C. Lin; C.C. Liao* , “Simulation of slurry residence time during chemical-mechanical polishing using 3-D computational fluid dynamics” , 2023 , Chemical Engineering Research and Design , vol.191 , p.375-386. (SCI, IF=3.9, 55/158, JCR-2022). (SCI期刊)
  5. C.Y. Lin; C.C. Liao* , “Numerical investigation of flow behaviors in chemical mechanical polishing processes” , 2023 , AIP Conference Proceedings , vol.2685 , p.050010_01-06. (EI期刊)
  6. Y.W. Chou; C.C. Liao* , “Numerical simulation of the pneumatic conveying of dilute particulate flows in a diffuser using Euler-Euler approach” , 2023 , AIP Conference Proceedings , vol.2685 , p.050011_01-06. (EI期刊)
  7. C.C. Liao*; W.K. Li , “Effect of different magnetic field angles on the relationship between nanofluid concentration and heat transfer” , 2022 , International Communications in Heat and Mass Transfer , vol.135 , p.106137_01-11. (SCI, IF=6.782, 6/138, JCR-2021). (SCI期刊)
  8. C.C. Liao; K.C. Lin , “A two-phase model for studying the complex interplay between natural convection and magnetic field in aluminum-oxide/water nanofluid” , 2022 , Numerical Heat Transfer, Part A: Applications , vol.82 , p.455-468. (SCI, IF=2.569, 31/63, JCR-2021). (SCI期刊)
  9. C.C. Liao*; W.K. Li; C.C. Chu , “Analysis of heat transfer transition of thermally driven flow within a square enclosure under effects of inclined magnetic field” , 2022 , International Communications in Heat and Mass Transfer , vol.130 , p.105817_01-09. (SCI, IF=6.782, 6/138, JCR-2021). (SCI期刊)
  10. K.C. Lin; C.C. Liao* , “Avoidance of particle accumulation in a coating diffuser during dilute-phase pneumatic conveying: A case study through CFD” , 2022 , Industrial & Engineering Chemistry Research , vol.61 , p.855-865. (SCI, IF=4.326, 52/142, JCR-2021). (SCI期刊)
  11. C.C. Liao*; W.K. Li , “Assessment of the magnetic field influence on heat transfer transition of natural convection within a square cavity” , 2021 , Case Studies in Thermal Engineering , vol.28 , p.101638_01-11. (IF=4.724, 7/60, JCR-2020). (SCI期刊)
  12. C.C. Chu; C.C. Liao* , “Influence of inclined magnetic field on heat transfer transitions of nanofluids flow” , 2021 , 2021 IEEE 3rd Eurasia Conference on Biomedical Engineering, Healthcare and Sustainability , p.243-246. (EI期刊)
  13. Y.J. Chang; Y.T Lin; C.C. Liao , “Chamfer-type capillary stop valve and its microfluidic application to blood typing tests” , 2019 , SLAS Technology , vol.24 , p.188-195. (IF=2.048, 46/84, JCR-2018). (SCI期刊)
  14. C.C. Liao* , “Heat transfer transitions of natural convection flows in a differentially heated square enclosure filled with nanofluids” , 2017 , International Journal of Heat and Mass Transfer , vol.115 , p.625-634. (IF=3.458, 9/133, JCR-2016). (SCI期刊)
  15. C.C. Liao; S.Y. Hu; C.P. Huang; Y. Kang , “Influences of lubricant viscosity ratio on static characteristics of hydrostatic thrust bearing” , 2017 , MATEC Web of Conferences , vol.114 , p.01006_01-07. (EI期刊)
  16. C.C. Liao; W.W. Hsiao; T.Y. Lin; C.A. Lin , “Simulations of two sedimenting-interacting spheres with different sizes and initial configurations using immersed boundary method” , 2015 , Computational Mechanics , vol.55 , p.1191-1200. (IF=2.525, 8/99, JCR-2014). (SCI期刊)
  17. C.C. Liao; C.A. Lin , “Influence of Prandtl number on the instability of natural convection flows within a square enclosure containing an embedded heated cylinder at moderate Rayleigh number” , 2015 , Physics of Fluids , vol.27 , p.013603_01-12. (IF=2.031, 25/137, JCR-2014). (SCI期刊)
  18. C.C. Liao; C.A. Lin , “Transitions of natural convection flows in a square enclosure with a heated circular cylinder” , 2014 , Applied Thermal Engineering , vol.72 , p.41-47. (IF=2.624, 10/128, JCR-2013). (SCI期刊)
  19. C.C. Liao; C.A. Lin , “Influences of Prandtl number on transition of steady natural convection flows in a square enclosure with a circular cylinder” , 2014 , Procedia Engineering , vol.79 , p.289-294. (EI期刊)
  20. Y.T. Lin; C.C. Liao; T.Y. Lin; C.A. Lin , “Simulations of flow resistances in circular and square hydrostatic bearings” , 2014 , Procedia Engineering , vol.79 , p.114-118. (EI期刊)
  21. C.C. Liao; C.A. Lin , “Mixed convection over a heated rotating cylinder in a square enclosure” , 2014 , International Journal of Heat and Mass Transfer , vol.72 , p.9-22. (IF=2.522, 10/139, JCR-2013). (SCI期刊)
  22. P.H. Chang; C.C. Liao; H.W. Hsu; S.H. Liu; C.A. Lin , “Simulations of laminar and turbulent flows over periodic hills with immersed boundary method” , 2014 , Computers and Fluids , vol.92 , p.233-243. (IF=1.532, 50/139, JCR-2013). (SCI期刊)
  23. C.C. Liao; C.A. Lin , “Influences of a confined elliptic cylinder at different aspect ratios and inclinations on the laminar natural and mixed convection flows” , 2012 , International Journal of Heat and Mass Transfer , vol.55 , p.6638-6650. (IF=2.407, 6/122, JCR-2011). (SCI期刊)
  24. K.H. Lin; C.C. Liao; S.Y. Lien; C.A. Lin , “Thermal lattice Boltzmann simulations of natural convection with complex geometry” , 2012 , Computers and Fluids , vol.69 , p.35-44. (IF=1.810, 25/132, JCR-2011). (SCI期刊)
  25. C.C. Liao; C.A. Lin , “Simulations of natural and forced convection flows with moving embedded object using immersed boundary method” , 2012 , Computer Methods in Applied Mechanics and Engineering , vol.213-216 , p.58-70. (IF=2.651, 5/90, JCR-2011). (SCI期刊)
  26. C.C. Liao; Y.W. Chang; C.A. Lin; J.M. McDonough , “Simulating flows with moving rigid boundary using immersed-boundary method” , 2010 , Computers and Fluids , vol.39 , p.152-167. (IF=1.270, 48/123, JCR-2009). (SCI期刊)