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 目次目錄誌謝 i摘要 iiABSTRACT iii目次 iv圖次 v表次 viii符號索引 ix第一章 緒論 1第一節 研究背景與動機 1第二節 油霧回收機的分類與介紹 3第三節 研究目的與方法 6第四節 論文大綱 8第二章 文獻回顧 9第三章 理論分析與研究方法 20第一節 統御方程式 20第二節 研究步驟 21第三節 模型建立 23一、 邊界條件與初始條件 33二、材料建立 33第四節 模型擬合與網格分析 33一、模型擬合 33二、網格分析 37第四章 結果與討論 52一、入口直徑 52二、流道設計 55第五章 結論 58參考文獻 60
 [1] 吳國熏，油霧過濾裝置，新型專利，專利號M510190, 10/11, 2015。[2] 張吉瑞，油霧處理抽排裝置，新型專利，專利號M411986, 09/21, 2011。[3] 黃信超，油霧回收機，新型專利，專利號M492782, 01/01, 2015。[4] 朱連傳，油霧回收機，新型專利，專利號M487808, 10/11, 2014。[5] 李棟材，高效油霧回收機，新型專利，專利號M510786, 10/21, 2015。[6] 林書寬，油霧回收機，新型專利，專利號M530723, 10/21, 2016。[7] 李棟材，油霧過濾器，新型專利，專利號M503259, 6/21, 2105。[8] J.C. Hsieh, David T.W. Lin, and C.H. Cheng, 2011, Optimization of thermal management by the integration of SCGM, finite element method and experiment on the high power LED array, IEEE Transaction on Electron Devices, Volume 58, No. 4, pp. 1141-1148.[9] Baofang Song, Carlos Plana, Jose M. Lopez c , Marc Avila "Phase-field simulation of core-annular pipe flow " International Journal of Multiphase Flow, Volume 117, Pages14-24, April 2019.[10] Wenkai Li, Qinglei Zhang, Chao Wang, Xiaohui Yan, Shuiyun Shen, Guofeng Xia, Fengjuan Zhu, Junliang Zhang, " Experimental and numerical analysis of a three-dimensional flow field for PEMFCs, Volume195, Pages278-288, March 2017.[11] Chao Wang, Qinglei Zhang, Chao Wang, Jiabin Lu, Shuiyun Shen, Xiaohui Yan, Fengjuan Zhu, Xiaojing Cheng, Junliang Zhang "Effect of height/width-tapered flow fields on the cell performance of polymer electrolyte membrane fuel cells," ScienceDirect, Volume 42, Pages 23107-23117, August 2017.[12] Weiliang Wang, Junfu Lyu , Hai Zhang, Qing Liu, Guangxi Yue, Weidou Ni, " A performance enhancement of a natural draft dry cooling tower in crosswind via inlet flow field reconstruction," Energy & Buildings, Volume 164, Pages 121-130, January 2018.[13] Shizhong Chen, Xuyang Zhang, Hongtan Liu, "Effect of pressure difference between adjacent channels in an adjustable flow field in PEM fuel cells," ScienceDirect, Volume 42, Pages 4667-4672, December 2016.[14] Nathanial J. Cooper, Travis Smith, Anthony D. Santamaria, Jae Wan Park, "Experimental optimization of parallel and inter digitated PEMFC flow-field channel geometry," ScienceDirect, Volume 41, Pages 1213-1223, December 2015.[15] Zhuwei Gao. Juan Wang, Jiangyun Wang, Yu Mao, Yaodong Wei, "Analysis of the effect of vortex on the flow field of a cylindrical cyclone separator," Separation and Purification Technology, Volume 211, Pages 438-437, March 2019.[16] Mona Abdelwaly, Hesham El-Batsh, Magdy Bassily Hanna, "Numerical study for the flow field and power augmentation in a horizontal axis wind turbine," Sustainable Energy Technologies and Assessments, Volume 31, Pages 245-253, December 2018.[17] Yasuyuki Nishi, Genki Sato, Daishi Shiohara, Terumi Inagaki, Norio Kikuchi "A study of the flow field of an axial flow hydraulic turbine with a collection device in an open channel," Renewable Energy, Volume 130, Pages 1036-1048, July 2018.[18] Mengda Jia, DiWang, Chaoyu Yan, Jianfei Song, Qiang Han, Fengyu Chen, Yaodong Wei"Analysis of the pressure fluctuation in the flow field of a large-scale," Powder Technology, Volume 343, Pages 49-57 , November 2018.[19] Qiang Zhao, Baoyu Cui, DezhouWei, Tao Song, Yuqing Feng"Numerical analysis of the flow field and separation performance in hydrocyclones with different vortex finder wall thickness," Powder Technology, Volume 345, Pages 478-491 , January 2019.[20] Baofang Song, Carlos Plana, Jose M. Lopez, Marc Avila, "Phase-field simulation of core-annular pipe flow," International Journal of Multiphase Flow, Volume 117, Pages 14-24 , April 2019.[21] Zijiang Yang, Zhuoran Dang, Xiaohong Yang, Mamoru Ishii, Jianqiang Shan," Downward two phase flow experiment and general flow regime transition criteria for various pipe sizes," International Journal of Heat and Mass Transfer, Volume 125, Pages 179-189 , April 2018.[22] Y. Vazifeshenas, K. Sedighi, M. Shakeri," Heat transfer in PEM cooling flow field with high porosity metal foam insert," Applied Thermal Engineering, Volume 147, Pages 81-89 , October 2018.[23] ChengenLi, GuobiaoCai, PengfeiWang, HuiTian "Flow field and injector heat characteristics of hybrid rocket motor with annular-gap injector," Aerospace Science and Technology, Volume 93, August 2019.[24] A.Giannadakis, A.Naxakis, A.Romeos, K.Perrakis, Th.Panidis "An experimental study on a coaxial flow with inner swirl: Vortexevolution and flow field mixing attributes," Aerospace Science and Technology, Volume 94, Page 105373, September 2019.[25] Yasuyuki Nishi, Genki Sato, Daishi Shiohara, Terumi Inagaki, Norio Kikuchi "A study of the flow field of an axial flow hydraulic turbine with a collection device in an open channel," Renewable Energy, Volume 130 , Pages 1036-1048 , July 2018.[26] Chong Peng, Guofang Xu, Wei Wu, Hai-sui Yu, Chun Wang "Multiphase SPH modeling of free surface flow in porous media with variable porosity," Computers and Geotechnics, Volume 81, Page 239–248, August 2016.[27] Wenping Peng, Min Xu, Xiulan Huai, Zhigang Liu, Xiaoshu Lü "Performance evaluation of oscillating flow regenerators filled with particles, wire screens and high porosity open-cell foams," Applied Thermal Engineering, Volume 112, Page 1612–1625, October 2016.[28] Shabina Ashraf, Jyoti Phirani "A generalized model for spontaneous imbibition in a horizontal, multi-layered porous medium," Chemical Engineering Science, Volume 209, Page 115175, August 2019[29] Pengcheng Zhu, Zhining Wu, Yuyuan Zhao "Hierarchical porous Cu with high surface area and fluid permeability," Scripta Materialia, Volume 172, Page 119-124, July 2019[30] Z.F. Huang, A. Nakayama, K. Yang , C. Yang , W. Liu"Enhancing heat transfer in the core flow by using porous medium insert in a tube," International Journal of Heat and Mass Transfer, Volume 53, Page 1164-1174, December 2009.[31] Nao Kuniyoshi, Minoru Yaga, Isao Teruya , Masaaki Ishikawa "Experimental study of interaction between supersonic duct flow and jets surrounded by the porous cavity," Experimental Thermal and Fluid Science, Volume 40, Page 185-194, March 2012.[32] E. Jahanshahi Javaran, S.A. Gandjalikhan Nassab, S. Jafari "Thermal analysis of a 2-D heat recovery system using porous mediaincl uding lattice Boltzmann simulation of fluid flow," International Journal of Thermal Sciences, Volume 49, Page 1031-1041, January 2010.[33] Konstantin Ilin, Andrey Morgulis, "Inviscid instability of an incompressible flow between rotating porous cylinders to three-dimensional perturbations," European Journal of Mechanics B/Fluids, Volume 61, Page 46-60, October 2016.[34] Jiuhui Han, Cheng Li, Zhen Lu, Hao Wang, Zhili Wang, Kentaro Watanabe, Mingwei Chen, "Vapor phase dealloying: A versatile approach for fabricating 3D porous materials," Acta Materialia, Volume 163, Page161-172, October 2018.[35] Zhenxing Wu, Parisa Mirbod, "Instability analysis of the flow between two parallel plates where the bottom one coated with porous media," Advances in Water Resources, Volume 130, Page 221-228, June 2019.[36] Jun Song Kim, Peter K. Kang, "Anomalous transport through free-flow-porous media interface:Pore-scale simulation and predictive modeling," Advances in Water Resources, Volume 135, January 2020.[37] Minh Tuan Ho, Lianhua Zhu, Lei Wu, Peng Wang, Zhaoli Guo, Jingsheng Ma, Yonghao Zhang,"Pore-scale simulations of rarefied gas flows in ultra-tight porous media," Fuel, Volume 249, Page 341-351, March 2019.[38] R.F. Mardanov, S.K. Zaripov, V.F. Sharafutdinov, S.J. Dunnett "A Stokes–Brinkman model of the fluid flow in a periodic cell with a porous body using the boundary element method," Engineering Analysis with Boundary Elements, Volume 88, Page 54-63, December 2017.[39] Farshad Gharibi, Saeed Jafari, Mohammad Rahnama, Behnam Khalili , Ebrahim Jahanshahi Javaran "Simulation of flow in granular porous media using combined Lattice Boltzmann Method and Smoothed Profile Method," Computers and Fluids, Volume 177, Page 1-11, October 2018.[40] Shreen El-Sapa "Effect of permeability of Brinkman flow on thermophoresis of a particle in a spherical cavity," European Journal of Mechanics / B Fluids, Volume 79, Page 315-323, September 2019[41] Akil J. Harfash, Huda A. Challoob "Slip boundary conditions and through flow effects on double-diffusive convection in internally heated heterogeneous Brinkman porous media," Chinese Journal of Physics, Volume 56, Page 10-22, November 2017.[42] A. A. El-Zehairy , M. Mousavi Nezhad , V. Joekar-Niasar , I. Guymer , N. Kourra , M. A. Williams "Pore-network modelling of non-Darcy flow through heterogeneous porous media," Advances in Water Resources, Volume 131, July 2019.[43] Guido Kanschat , Raytcho Lazarov , Youli Mao "Geometric Multigrid for Darcy and Brinkman models of flows in highly heterogeneous porous media: A numerical study," Journal of Computational and Applied Mathematics, Volume 310, page 174-185, May 2016.
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