A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Experimental, Numerical and Application Analysis of Hydrokinetic Turbine Performance with Fixed Rotating Blades
guner, faruk/0000-0002-3438-0553 ; WOS: 000522489000259 ; In this study, a hydrokinetic turbine is designed for the high-altitude regions where local electricity network lines are difficult to reach. If there was a stream flow around, electricity production could be possible and necessary because of environmental reasons. The performance of the hydrokinetic turbine was investigated experimentally and numerically. The numerical analyses of the turbine system were performed via MATLAB/Simulink version R2014a. Except power-based performance characteristics, efficiency of the system in terms of installation and necessary investment costs were also investigated. It is calculated that the system to be established on a river with a water flow rate of 30 m(3)/h will meet the investment cost in approximately 8 years.
Experimental, Numerical and Application Analysis of Hydrokinetic Turbine Performance with Fixed Rotating Blades
guner, faruk/0000-0002-3438-0553 ; WOS: 000522489000259 ; In this study, a hydrokinetic turbine is designed for the high-altitude regions where local electricity network lines are difficult to reach. If there was a stream flow around, electricity production could be possible and necessary because of environmental reasons. The performance of the hydrokinetic turbine was investigated experimentally and numerically. The numerical analyses of the turbine system were performed via MATLAB/Simulink version R2014a. Except power-based performance characteristics, efficiency of the system in terms of installation and necessary investment costs were also investigated. It is calculated that the system to be established on a river with a water flow rate of 30 m(3)/h will meet the investment cost in approximately 8 years.
Experimental, Numerical and Application Analysis of Hydrokinetic Turbine Performance with Fixed Rotating Blades
Guner, Faruk (author) / Zenk, Hilmi (author) / Belirlenecek
2020-01-01
3
Article (Journal)
Electronic Resource
English
DDC:
690
Simulation-based time-dependent reliability analysis for composite hydrokinetic turbine blades
| British Library Online Contents | 2013