8911 |
90-1
|
期刊論文
|
盧博堅
教授
|
A reevaluation and discussion on the threshold limit for hemolysis in a turbulent shear flow
|
8912 |
87-1
|
期刊論文
|
盧博堅
教授
|
Investigation of interference effects for a group of finite cylinders
|
8913 |
88-2
|
期刊論文
|
盧博堅
教授
|
Turbulence Characteristics Downstream of Bileaflet Aortic Valve Prostheses
|
8914 |
84-2
|
期刊論文
|
盧博堅
教授
|
雙葉片人工心瓣放大模型之流場研究
|
8915 |
86-1
|
期刊論文
|
盧博堅
教授
|
Turbulence measurements in the vicinity of bileaflet aortic valve prostheses in steady flow
|
8916 |
92-2
|
期刊論文
|
盧博堅
教授
|
The closing behavior of mechanical aortic heart valve prostheses
|
8917 |
88-1
|
期刊論文
|
盧博堅
教授
|
Reynolds shear stresses in pulsatile jet flows
|
8918 |
87-1
|
期刊論文
|
盧博堅
教授
|
Measurement of retrograde flow field of bileaflet artificial heart valves
|
8919 |
76-2
|
期刊論文
|
盧博堅
教授
|
Investigation of Pulsatile Flow Downstream from Aortic Valve Prostheses
|
8920 |
87-1
|
期刊論文
|
盧博堅
教授
|
Experiments on flow inside enlarged models of bileaflet artificial heart valves
|
8921 |
97-2
|
期刊論文
|
盧博堅
教授
|
Study on sound propagation in long enclosures with a vertical or inclined branch of different dimensions
|
8922 |
96-2
|
期刊論文
|
盧博堅
教授
|
Squeeze flow measurements in mechanical heart valves
|
8923 |
75-2
|
期刊論文
|
高思懷
教授
|
臺北市水環境中汞污染之調查研究
|
8924 |
90-1
|
期刊論文
|
高思懷
教授
|
Modeling of leachate and characteristics of adsorption and desorption for landfill of incineration ashes
|
8925 |
82-2
|
期刊論文
|
高思懷
教授
|
都市垃圾焚化灰渣掩埋高度對滲出水水質之影響
|
8926 |
84-1
|
期刊論文
|
高思懷
教授
|
垃圾掩埋場設計與操作之關鍵
|
8927 |
84-1
|
期刊論文
|
高思懷
教授
|
Fenton法之原理與應用
|
8928 |
86-2
|
期刊論文
|
高思懷
教授
|
Landfill leachate characteristics and modeling of municipal solid wastes combined with incinerated residuals
|
8929 |
86-2
|
期刊論文
|
高思懷
教授
|
Influence of ligands on metals leachability from landfilling bottom ashes
|
8930 |
84-1
|
期刊論文
|
高思懷
教授
|
Improved fenton method to remove recalcitrant organics in landfill leachate
|
8931 |
86-2
|
期刊論文
|
許中杰
教授
|
Flow at 90° equal-width open-channel junction
|
8932 |
87-1
|
期刊論文
|
許中杰
教授
|
Subcritical Open-Channel Junction Flow
|