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查看斯高帕斯 (Scopus) 概要
呂 宗行
教授
民航研究所
電話
886 6 2757575 ext 63628
電子郵件
tsleu
mail.ncku.edu
tw
網站
http://www.iaa.ncku.edu.tw/~aeromems/
h-index
1517
引文
23
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
1990 …
2024
每年研究成果
概覽
指紋
網路
專案
(36)
研究成果
(92)
類似的個人檔案
(6)
監製作品
(27)
指紋
查看啟用 Tzong-Shyng Leu 的研究主題。這些主題標籤來自此人的作品。共同形成了獨特的指紋。
排序方式
重量
按字母排序
Engineering
Microchannel
100%
Fluid Flow
45%
Flow Velocity
39%
Condensation Heat Transfer
38%
Microelectromechanical System
38%
Boundary Condition
35%
Flow Rate
35%
Microsystem
34%
Micropump
34%
Fluidics
29%
Moving Part
29%
Copper Substrate
29%
Microscale
29%
Experimental Result
27%
Unsteady Flow
24%
Optimal Design
24%
Heat Pipe
24%
Flow Distribution
23%
Convergent
22%
Simulation Result
22%
Sideforce
19%
Atomisation
19%
Channel Geometry
19%
Microdynamics
19%
Image Sequence
19%
Diffusion Flame
19%
Heat Transfer Enhancement
19%
Thermal Protection
19%
Reynolds' Number
17%
Phase Difference
17%
Vertical Axis Wind Turbine
16%
Steady State Flow
15%
Experimental Measurement
14%
Nonuniform Electric Field
14%
Vortex Shedding
14%
Pressure Gradient
14%
Thermal Diffusion
14%
Microstructure
14%
Catalytic Combustor
14%
Actuator
13%
Actuation
13%
Airfoil
13%
Diffusers
13%
Micro-Electro-Mechanical System
12%
Design Parameter
12%
Graphic Card
12%
Electric Field
12%
Raman Spectra
12%
Optical Lithography
12%
Slender Body
12%
Keyphrases
Fluid Flow
24%
Squeeze Mode
19%
Meniscus Dynamics
19%
Micro-dynamics
19%
Sorter
19%
Thermal Protection Materials
19%
X-ray Microtomography
16%
Piezoelectric Inkjet
13%
Inkjet Devices
13%
Driving Signal
13%
Fluidics
12%
Drop-on-demand
12%
Internal Microstructure
11%
Slenderness Effect
9%
Sequence Data
9%
Side Force
9%
Slender Body
9%
No-moving-part Valve
9%
Dwell Time
9%
Microinjector
9%
Mixing Effect
9%
Unsteady Measurement
9%
Slant Surface
9%
Flexible Plate
9%
Pump-driven
9%
Pulsating Heat pipe
9%
Impingement Flow
9%
Piezoelectric Printhead
9%
Pattern-based
9%
Two-phase Flow Pattern
9%
Microchannel Size
9%
Catalytic Surface
9%
Dynamic Behavior
9%
Loop Heat pipe
9%
Microscale Reaction
9%
Reaction Efficiency
9%
Free Shear Layers
9%
Microchannel Flow
9%
Newton's Rings
9%
Microcapillary
9%
Micro-Matrix
9%
Pumped Loop
9%
Loose Coupling
9%
Dielectrophoretic
9%
Series Configuration
9%
Unsteady Flow
9%
Stall Angle
9%
Reduced Frequency
9%
Dynamic Stall
9%
Turbulence Effect
9%