Skip to main navigation
Skip to search
Skip to main content
Universitas Indonesia Home
Home
Profiles
Research units
Research output
Equipments
Projects
Activities
Press/Media
Search by expertise, name or affiliation
Computational analysis of flow field on cross-flow hydro turbines
Warjito
, Budiarso, Dendy Adanta
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
5
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Computational analysis of flow field on cross-flow hydro turbines'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Cross-flow
100%
Computational Analysis
100%
Nozzle
100%
Hydro Turbine
100%
Flow Field Analysis
100%
Cross-flow Turbine
50%
Flow Field
50%
Computational Fluid Dynamics Modeling
50%
Vortex
50%
Reynolds Stress
50%
Water Energy
33%
Momentum Flux
33%
Shear Wall
33%
Turbulent Model
16%
Reynolds number
16%
Six Degrees of Freedom
16%
Two Dimensional
16%
Energy Loss
16%
Friction
16%
Upper Part
16%
Flow Pattern
16%
Energy Minimization
16%
Velocity Magnitude
16%
Velocity Profile
16%
Lift Force
16%
Nozzle Geometry
16%
Turbulent Kinetic Energy
16%
Turbulent Dissipation Rate
16%
Turbulent Boundary Layers
16%
Shear Stress Transport
16%
Rotating Flows
16%
Energy Profile
16%
Air Phase
16%
Eddy Viscosity
16%
Direction-optimizing
16%
Turbulent Shear Stress
16%
Shear Distribution
16%
Nozzle Shape
16%
Optimum Geometry
16%
Pressure-based Solver
16%
Unsteady Simulation
16%
Turbulent Energy Dissipation Rate
16%
Boundary Layer Profile
16%
Engineering
Energy Engineering
100%
Flow Field
100%
Computational Analysis
100%
Vortex
75%
Computational Fluid Dynamics
75%
Flow Turbine
75%
Dynamic Method
75%
Turbulent Kinetic Energy
75%
Momentum Flux
50%
Reynolds Stress
50%
Two Dimensional
25%
Reynolds' Number
25%
Energy Dissipation
25%
Degree of Freedom
25%
Velocity Profile
25%
Lift Force
25%
Dissipation Rate
25%
Turbulent Boundary Layer
25%
Energy Dissipation Rate
25%
Rotational Flow
25%
Wall Shear Stress
25%
Reynolds-Stress Profile
25%
Eddy Viscosity
25%
Shear Walls
25%