淡江大學 |
2001-02 |
Hydrodynamic Permeability of Activated Sludge and Cupric Hydroxide Flocs
|
Wu, R. M.; Tsou, G. W.; Lee, D. J. |
淡江大學 |
1996-11-30 |
Hydrodynamic Response of Activated Sludge Floc Moving Towards a Flat Plate
|
Wu, R. M.; Feng, W. H.; Tsai, I. H.; Lee, D. J. |
淡江大學 |
1999-08-16 |
Hydrodynamic response of highly Porous Sphere
|
Wu, R. M. ; Tsou, G. W; Lee, D. J. |
國家衛生研究院 |
2019-04 |
Hydrodynamic shuttling for deterministic high-efficiency multiple single-cell capture in a microfluidic chip
|
He, CK;Chen, YW;Wang, SH;Hsu, CH |
國立臺灣海洋大學 |
2017-04 |
Hydrodynamic Simulation of an Orbital Shaking Test for the Degradation Assessment of Blood-Contact Biomedical Coatings
|
Zuo-Syuan Dong; Chau-Chang Chou; Wen-Hsien Wu; Chi-Hsio Yeh |
國立成功大學 |
2020-06 |
Hydrodynamic Simulation of the Semi-Submersible Wind Float by Investigating Mooring Systems in Irregular Waves
|
Lin;Yu-Hsien;Yang;Cheng-Hao |
臺大學術典藏 |
2020-04-28T07:11:15Z |
Hydrodynamic single-cell trapping for cellular assays
|
Lin, C.M.; Tseng, C.C.; Chen, C.L.; Wo, A.M.; ANDREW WO |
臺大學術典藏 |
2019-12-27T01:16:53Z |
Hydrodynamical Simulations of Colliding Jets: Modeling 3c 75
|
Molnar, S. M.;Schive, H.-Y.;Birkinshaw, M.;Chiueh, T.;Musoke, G.;Young, A. J.; Molnar, S. M.; Schive, H.-Y.; Birkinshaw, M.; Chiueh, T.; Musoke, G.; Young, A. J.; TZI-HONG CHIUEH |
臺大學術典藏 |
2020-01-14T02:58:26Z |
HYDRODYNAMICAL SIMULATIONS of COLLIDING JETS: MODELING 3C 75
|
Molnar, S.M.;Schive, H.-Y.;Birkinshaw, M.;Chiueh, T.;Musoke, G.;Young, A.J.; Molnar, S.M.; Schive, H.-Y.; Birkinshaw, M.; Chiueh, T.; Musoke, G.; Young, A.J.; HSI-YU SCHIVE |
國立成功大學 |
2017-12 |
Hydrodynamically efficient micropropulsion through a new artificial cilia beating concept
|
Wu;Yu-An;Panigrahi;Bivas;Chen;Chia-Yuan |
國立臺灣大學 |
2001 |
Hydrodynamics and mass transfer in three-phase magnetic fluidized beds
|
Chen, Chia-Min; Leu, Lii-Ping |
中原大學 |
1998 |
Hydrodynamics in a Flat-Plate Crossflow Filter and Particle Trajectory with Electric Fields Imposed on the Filter
|
Ching-Jung Chuang;Chuan-Wei Hsu |
國立臺灣大學 |
2009-03 |
Hydrodynamics of Geldart group A particles in gas-solid fluidized beds
|
Leu, LP; Tsai, FC |
臺大學術典藏 |
2019-12-19T07:12:12Z |
Hydrodynamics of gravity currents down a ramp in linearly stratified environments
|
He, Z.; Zhao, L.; Lin, T.; Hu, P.; lv, Y.; Ho, H.-C.; Lin, Y.-T.; HAO-CHE HO |
國立臺灣大學 |
1972 |
Hydrodynamics of Subsurface Return Flow
|
顏清連; Yen, Chin-Lien |
國立成功大學 |
2019-03 |
Hydrodynamics of the wind float OC3-Hywind with mooring loads estimated by the modular system
|
Lin;Yu-Hsien;Hsu;Chao-Li;Kao;Shin-Hung |
國立成功大學 |
2005-01 |
Hydrodynamics-based gene delivery to the liver by bile duct injection of plasmid DNA - the impact of lasting biliary obstruction and injection volume
|
Chen, Chiung-Yu; Liu, Hsiao-Sheng; Lin, Xi-Zhang |
國立臺灣大學 |
1994 |
Hydroelectric generation scheduling using self-organizing feature maps
|
Liang, Ruey-Hsun; Hsu, Yuan-Yih |
臺大學術典藏 |
2020-06-11T06:43:24Z |
Hydroelectric generation scheduling using self-organizing feature maps
|
Liang, R.-H.;Hsu, Y.-Y.; Liang, R.-H.; Hsu, Y.-Y.; YUAN-YIH HSU |
臺大學術典藏 |
1990 |
Hydroelectric generation scheduling with an effective differential dynamic programming algorithm
|
Chang, S.C.;Chen, C.H.;Kong Fong, I.;Luh, P.B.; Chang, S.C.; Chen, C.H.; Kong Fong, I.; Luh, P.B.; SHI-CHUNG CHANG |
國立臺灣大學 |
1991 |
Hydroelectric Generation Scheduling with an Effective Differential Dynamic Programming Algorithm
|
張時中; Chen, C. H.; 馮蟻剛; Luh, Peter B.; Chang, Shi-Chung; Chen, C. H.; Fong, I-Kong; Luh, Peter B. |
臺大學術典藏 |
2018-09-10T03:51:55Z |
Hydrofluoric acid burns caused by incompatible laboratory wastes
|
Shiau, C.-Y.;Chen, P.-C.;Wang, J.-D.;Cheng, T.-J.; Pau-Chung CHEN |
臺大學術典藏 |
2018-09-10T03:42:32Z |
Hydrofluoric acid burns caused by incompatible laboratory wastes
|
Shiau, C.-Y.;Chen, P.-C.;Wang, J.-D.;Cheng, T.-J.; TSUN-JEN CHENG |
臺大學術典藏 |
2022-03-31T02:39:59Z |
Hydrofluoric acid burns caused by incompatible laboratory wastes
|
Shiau C.-Y.; PAU-CHUNG CHEN; Wang J.-D.; Cheng T.-J. |
臺大學術典藏 |
2022-03-31T06:38:30Z |
Hydrofluoric acid burns caused by incompatible laboratory wastes
|
Shiau C.-Y.; Chen P.-C.; Wang J.-D.; TSUN-JEN CHENG |