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Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H
( Vol-5,Issue-9,September 2018 )
Author(s):

Titik Nurhayati, Agus Margiantono

Keywords:

Energy, Computating Fluid Dynamic (CFD), Darrieus Turbine Type H, Tidal, Model Simulation.

Abstract:

The depletion of fossil energy reserves and environmental issues currently play an important role in developing the concept of renewable energy, so that the search for new renewable energy is carried out very intensively. One type of renewable new energy that has the potential to be developed in Indonesia is the energy of river estuary flows, considering that Indonesia is an archipelagic country.This study, discusses renewable energy derived from the river mouth of the Bedono village of Demak Regency. The results of the observations that have been made, the tidal currents of the river which occur 2 times in 24 hours with an average current velocity at 0.953m/s. The biggest current velocity at 14.00-16.00 is 2.5 m/s and the lowest is 0.5 m/s at 06.00-08.00. Using the Computating Fluid Dynamic (CFD) model simulation and the Darrieus Type H turbine, with specifications; Diameter 1m, chord length 0.1m, turbine length 1 m, number of blade 3 and type of blade Hydrofill: NACA 0018 obtained the greatest power occurs at 14.00-16.00 at 8007.813Watt with a torque of 3540.470Nm and the lowest power of 83.726Watt with torque amounting to 14,663Nm at 04.00-06.00.

ijaers doi crossref DOI:

10.22161/ijaers.5.9.32

Paper Statistics:
  • Total View : 90
  • Downloads : 31
  • Page No: 281-283
Cite this Article:
MLA
Titik Nurhayati et al ."Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H". International Journal of Advanced Engineering Research and Science(ISSN : 2349-6495(P) | 2456-1908(O)),vol 5, no. 9, 2018, pp.281-283 AI Publications, doi:10.22161/ijaers.5.9.32
APA
Titik Nurhayati, Agus Margiantono(2018).Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H. International Journal of Advanced Engineering Research and Science(ISSN : 2349-6495(P) | 2456-1908(O)),5(9), 281-283. http://dx.doi.org/10.22161/ijaers.5.9.32
Chicago
Titik Nurhayati, Agus Margiantono. 2018,"Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H". International Journal of Advanced Engineering Research and Science(ISSN : 2349-6495(P) | 2456-1908(O)).5(9):281-283. Doi: 10.22161/ijaers.5.9.32
Harvard
Titik Nurhayati, Agus Margiantono. 2018,Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H, International Journal of Advanced Engineering Research and Science(ISSN : 2349-6495(P) | 2456-1908(O)).5(9), pp:281-283
IEEE
Titik Nurhayati, Agus Margiantono."Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H", International Journal of Advanced Engineering Research and Science(ISSN : 2349-6495(P) | 2456-1908(O)),vol.5,no. 9, pp.281-283,2018.
Bibtex
@article {titiknurhayati2018tidal,
title={Tidal Speed Simulation of Seawater against Torque (τ) and Power (P) Produced by the Darrieus Turbine Type H},
author={Titik Nurhayati, Agus Margiantono},
journal={International Journal of Advanced Engineering Research and Science},
volume={5},
year= {2018},
}
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References:

[1] Agus Margiantono, Titik Nurhayati, Wahib Hasbullah, 2017, “Estimation Of Electricity Generated From Tidal Energy In Bedono Village Of Demak Regency”, International Journal of Engineering Technologies and Management Research (IJETMR),Vol.4 (Iss9), Indore, INDIA.
[2] Firman Tuakia, 2008, "Basic Basis of CFD Using Fluent", Informatics Publisher, Bandung.
[3] M.wahid, Andrianto, 2009,“Technical Study on the Selection of Kobold Turbines in Submarine Flow Power Plants in the Madura Strait”
[4] Md Nahid Perveza and Wael Mokhtar, 2012,“CFD Study of a Darreous Vertical Axis Wind Turbine”
[5] R. F. Nicholls-Lee, S. R. Turnock, 2007, “The Use Of Computational Fluid Dynamics In The Optimisation Of Marine Current Turbines”.