Open Access
Issue
E3S Web Conf.
Volume 236, 2021
3rd International Conference on Energy Resources and Sustainable Development (ICERSD 2020)
Article Number 01027
Number of page(s) 7
Section Development, Utilization and Protection of Traditional Energy Resources
DOI https://doi.org/10.1051/e3sconf/202123601027
Published online 09 February 2021
  1. Y. Yan, H. Yan, L. Zhang, L. Li, J. Zhu, and Z. Zhang, Numerical investigation on combustion characteristics of methane/air in a micro-combustor with a regular triangular pyramid bluff body. International Journal of Hydrogen Energy, 43: 7581-7590,(2018). [Google Scholar]
  2. D.B. Tuckerman and R.F.W. Pease, High-Performance Heat Sinking for Vlsi. Electron Device Letters, 2: 126-129,(1981). [Google Scholar]
  3. G. Wang, Y. Gu, L. Zhao, J. Xuan, G. Zeng, Z. Tang, and Y. Sun, Experimental and numerical investigation of fractal-tree-like heat exchanger manufactured by 3D printing. Chemical Engineering Science, 195: 250-261,(2019). [Google Scholar]
  4. H. Liu, B. Li, and J. Hong, Generating constructalconduction-networks for cooling discs at macro and micro scales. International Communications in Heat and Mass Transfer, 109,(2019). [Google Scholar]
  5. X. -f. Yu, C.-p. Zhang, J.-t. Teng, S.-y. Huang, S.-p. Jin, Y.-f. Lian, C.-h. Cheng, T.-t. Xu, J.-c. Chu, Y.-J. Chang, D. Thanhtrung, and R. Greif, A study on the hydraulic and thermal characteristics in fractal treelike microchannels by numerical and experimental methods. International Journal of Heat and Mass Transfer, 55: 7499-7507,(2012). [Google Scholar]
  6. B. Li, J. Hong, and L. Ge, Constructal design of internal cooling geometries in heat conduction system using the optimality of natural branching structures. International Journal of Thermal Sciences, 115: 16-28,(2017). [Google Scholar]
  7. D.L. Jing and J. Song, Comparison on the hydraulic and thermal performances of two tree-like channel networks with different size constraints. International Journal of Heat and Mass Transfer, 130: 1070-1074,(2019). [Google Scholar]
  8. X.-Q. Wang, A.S. Mujumdar, and C. Yap, Thermal characteristics of tree-shaped microchannel nets for cooling of a rectangular heat sink. International Journal of Thermal Sciences, 45: 1103-1112,(2006). [Google Scholar]
  9. P. Xu, A.P. Sasmito, C. Li, and S. Qiu, Global and local transport properties of steady and unsteady flow in a symmetrical bronchial tree. International Journal of Heat and Mass Transfer, 97: 696-704,(2016). [Google Scholar]
  10. S. Xu, Y. Li, X. Hu, and L. Yang, Characteristics of heat transfer and fluid flow in a fractal multilayer silicon microchannel. International Communications in Heat and Mass Transfer, 71: 86-95,(2016). [Google Scholar]
  11. M. Liang, Y. Gao, L. Luo, B. Xiao, M. Pang, and Z. Wang, A study on the permeability for the tree-like branching network with polygonal loops based on the fractal network of leaf vein. Chemical Engineering Science, 207: 911-928,(2019). [Google Scholar]
  12. T.J. Miao, A.M. Chen, L.W. Zhang, and B.M. Yu, A novel fractal model for permeability of damaged tree-like branching networks. International Journal of Heat and Mass Transfer, 127: 278-285,(2018). [Google Scholar]
  13. D. Jing, S. Song, and L. He, Reexamination of Murray’s law for tree-like rectangular microchannel network with constant channel height. International Journal of Heat and Mass Transfer, 128: 1344-1350,(2019). [Google Scholar]
  14. H.-l. Liu, Y.-q.Shao, Z.-t. Chen, and Z.-l. Xie, Heat transfer and flow performance of a novel T type heat sink with GaInSn coolant. International Journal of Thermal Sciences, 144: 129-146,(2019). [Google Scholar]
  15. S. Xu, W. Wang, K. Fang, and C.-N. Wong, Heat transfer performance of a fractal silicon microchannel heat sink subjected to pulsation flow. International Journal of Heat and Mass Transfer, 81:33-40,(2015). [Google Scholar]
  16. S. Chester, C. Meneveau, and M.B. Parlange, Modeling turbulent flow over fractal trees with renormalized numerical simulation. J Comput Phys, 225: 427-448,(2007). [Google Scholar]
  17. V.S. Duryodhan, S.G. Singh, and A. Agrawal, Liquid flow through converging microchannels and a comparison with diverging microchannels. Journal of Micromechanics and Microengineering, 24,(2014). [Google Scholar]
  18. S.-S. Hsieh and J.-H. Liou, DNA molecule dynamics in converging-diverging microchannels. Biotechnol Appl Biochem, 52: 29-40,(2009). [PubMed] [Google Scholar]
  19. X.C. Xuan and D.Q. Li, Particle motions in low-Reynolds number pressure-driven flows through converging-diverging microchannels. Journal of Micromechanics and Microengineering, 16: 62-69,(2006). [Google Scholar]
  20. J. Samuelsson, O. Tammisola, and M.P. Juniper, Breaking axi-symmetry in stenotic flow lowers the critical transition Reynolds number. Physics of Fluids, 27,(2015). [Google Scholar]
  21. M.D. Griffith, T. Leweke, M.C. Thompson, and K. Hourigan, Effect of small asymmetries on axisymmetric stenotic flow. Journal of Fluid Mechanics, 721,(2013). [Google Scholar]
  22. M. Sarkar, S.B. Paramane, and A. Sharma, Periodically Fully Developed Heat and Fluid Flow Characteristics in a Furrowed Wavy Channel. Heat Transfer Engineering, 38: 278-288,(2017). [Google Scholar]
  23. J. Vetel, A. Garon, D. Pelletier, and M.I. Farinas, Asymmetry and transition to turbulence in a smooth axisymmetric constriction. Journal of Fluid Mechanics, 607: 351-386,(2008). [Google Scholar]
  24. X.Q. Wang, A.S. Mujumdar, and C. Yap, Numerical analysis of blockage and optimization of heat transfer performance of fractal-like microchannel nets. Journal of Electronic Packaging, 128: 38-45,(2006). [Google Scholar]
  25. Y. Yan, H. Yan, S. Yin, L. Zhang, and L. Li, Single/multi-objective optimizations on hydraulic and thermal management in micro-channel heat sink with bionic Y-shaped fractal network by genetic algorithm coupled with numerical simulation. International Journal of Heat and Mass Transfer, 129: 468-479,(2019). [Google Scholar]
  26. X.L. Xie, Z.J. Liu, Y.L. He, and W.Q. Tao, Numerical study of laminar heat transfer and pressure drop characteristics in a water-cooled minichannel heat sink. Applied Thermal Engineering, 29: 64-74,(2009). [Google Scholar]

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