[1]. Performance score based multi-objective optimization for thermal design of partially filled high porosity metal foam pipes under forced convection , Int. J. Heat and Mass Transfer 182/ - 121911 (2022年) [査読] 有 [国際共著論文] 該当する [責任著者・共著者の別] 責任著者 [著者] P. H. Jadhava, N. Gnanasekaran, M. Mobedi [2]. Numerical assessment of thermal characteristics of metal foams of orderly varied pore density and porosity under different convection regimes Int. J. Thermal Science, 173/ - 107288 (2022年) [査読] 有 [国際共著論文] 該当する [責任著者・共著者の別] 責任著者 [著者] G. Trilok, K. Kumar, N. Gnanasekaran, M. Mobedi [3]. Correlations and Numerical Modeling of Stacked Woven Wire-Mesh Porous Media for Heat Exchange Applications ENERGIES 15/7 - 2371 (2022年) [査読] 有 [国際共著論文] 該当する [責任著者・共著者の別] 責任著者 [著者] : Trilok, G., Srinivas, KES, Harikrishnan, D, Gnanasekaran, N, Mobedi, M. [4]. The effect of porosity and number of unit cell on applicability of volume average approach in closed cell porous media INTERNATIONAL JOURNAL OF NUMERICAL METHODS FOR HEAT & FLUID FLOW 32/8 2778-2798 (2022年) [査読] 有 [国際共著論文] 該当する [責任著者・共著者の別] 責任著者 [著者] Wang, CY; Zheng, XH ; Zhang, T ; Chen, HS ; Mobedi, M . [5]. Performance evaluation of partially filled high porosity metal foam configurations in a pipe Applied Thermal Engineering 194/ - 117081 (2021年) [査読] 有 [国際共著論文] 該当する [責任著者・共著者の別] 責任著者 [著者] Prakash H. Jadhava, N. Gnanasekaran, D. Arumuga Perumal, MoghtadaMobedi [DOI]
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[1]. Solid/liquid thermal energy storage: modeling and applications CRC, Taylor and Francis group (2022年) [著書の別]著書(研究) [単著・共著・編著等の別] 共著 [著者]M. Mobedi, K. Hooman, W.Q. Tao [担当範囲] Lead editor [総頁数] 340
[2]. An introduction to solid-liquid thermal energy storage by systems, (Chapter 1) Edited M. Mobedi, K. Hooman, W.Q. Tao: Solid/liquid thermal energy storage: modeling and applications CRC, Taylor and Francis group (2022年) [著書の別]著書(研究) [単著・共著・編著等の別] 共著 [著者]M. Mobedi, K. Hooman, W.Q. Tao [担当範囲] Chapter 1 : 1-14 [総頁数] 14 [3]. Structural classification of PCM heat exchangers (Chapter 10), Edited M. Mobedi, K. Hooman, W.Q. Tao: Solid/liquid thermal energy storage: modeling and applications CRC, Taylor and Francis group (2022年) [著書の別]著書(教育) [単著・共著・編著等の別] 共著 [著者] M. Mobedi, C.Y. Wang [担当範囲] Chapter 10 : 217-247 [総頁数] 20
[4]. Pore Scale Analysis in Forced Convection Heat Transfer in Porous Media (Chapter 9) Edited Y. Mahmoudi, K. Hooman, K. Vafai : Convective Heat Transfer in Porous Media CRC Press (2019年) [著書の別]著書(教育) [単著・共著・編著等の別] 共著 [著者]Celik H., Mobedi M., Nakayama A. [総頁数] 381 [5]. Heat and fluid flow of gases in porous media with microspores: slip flow regime (Chapter 16), Edited by M. Rebay, S. Kakaç, R. Cotta in Microscale and nanoscale heat transfer: analysis, design, and application, CRC Press (2016年) [著書の別]著書(教育) [単著・共著・編著等の別] 単著 [著者]M. Mobedi, M. Barisik, A. Nakayama |
[1]. Comparison of solid/liquid phase change heat transfer in open and closed cell porous metal structures, The 32nd International Symposium on Transport Phenomena, Tianjin, China (2022年3月) 招待講演以外 [発表者]C. Wang, T. Sugiura, M. Mobedi, H. Chen, T [2]. Local thermal non-equilibrium model for analyzing heat transfer in a closed cell porous medium The 30th International Symposium on Transport Phenomena (2019年11月1日) 招待講演 [発表者]C. Wang, M. Mobedi [3]. A numerical study on effect of size and number of cells of a porous medium on validation of volume averaged results The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow (2019年9月3日) 招待講演以外 [発表者]C. Wang, M. Mobedi, F. Kuwahara [4]. A study on comparison of volume averaged and pore scale results of solid/liquid phase change assisted by porous media, 16th International Heat Transfer Conference, No: IHTC16-22702, Beijing, China. (2018年8月) 招待講演以外 [発表者]C. Wang, M. Mobedi, F. Kuwahara, A. Nakayama, [5]. Computational determination of volume averaged transport properties of heat and fluid flow in porous media using micro-tomography images 7th International Symposium on Advances in Computational Heat Transfer (CHT-17), (2017年5月1日) 招待講演以外 [発表者]H. Celik, M. Mobedi, A. Nakayama, U. Ozkol,
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[1]. A novel heat transfer enhancement method: Combination of Nano-encapsulated PCM and metal foam ( 2022年4月 ~ 2025年4月 ) 基盤研究(C) 代表 [2]. An Innovative Technology for Enhancement of Heat Transfer: 3D Lattice Metal Frame Porous Media ( 2017年4月 ~ 2020年4月 ) 基盤研究(C) 代表
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[1]. Enhancement of heat transfer from battery pack of Electric Vehicles by using Single Pore Layer Micro Porous Media (2018年4月 - 2019年4月 ) [提供機関] Suzuki foundation [担当区分] 研究代表者 |
[1]. Adsorption cycle system for household type refrigerators (2013年3月7日) [特許番号] EP 2775236 A1 |