A NEW METHOD FOR PROVIDING A MODEL TO ANALYZE A KITE WIND TURBINE
DOI:
https://doi.org/10.4314/jfas.v8i2s.143Keywords:
Kite wind turbine, Simulation, Static model, Dynamic model, Winch, TorqueAbstract
The ultimate purpose of simulating kite wind turbine is to predict the kite movement and the power generated by its mechanism. To simulate because when the initial estimate of the intended values is found, we may have to manipulate the simulation to find the most efficient design for manufacturing our system and then predict the final power generated for our mechanism. Simulation for the system is based on two parts: Simulation of steady-state and dynamic model, which include differential equations. In this paper, we have presented a novel idea for a proper simulation of the system based on the two static and dynamic parts in order to numerical solution of the required amount and to calculate the output power.Downloads
Published
2016-06-18
Issue
Section
Research Articles
License
All materials contained on this site are copyright protected and may not be reproduced; therefore, individuals may view, download, print, or save Journal content for the purposes of research, teaching, and/or private study, the Publisher holds the copyright on all materials published in website of the Journal of Fundamental and Applied Sciences . The following guidelines apply to individual users:
- Individuals may view, download, print, or save Journal content for the purposes of research, teaching, and/or private study.
- Customer or member account numbers are provided to individuals for their personal use only. Individuals may not share their username or password without the Publisher's permission.
- Any use and/or copies of this Journal in whole or in part, must include the customary bibliographic citation, including author attribution, date, article title, the Journal name and its web site address (http://www.jfas.info).
Disclaimer of Warranty
The Journal Online is under development and changes may be made in these publications and programs at any time.Â