CFD Simulations for Sensitivity Analysis of Different Parameters to the Wake Characteristics of Tidal Turbine - Open Journal of Fluid Dynamics

OJFD > Vol.2 No.3, September 2012

Open Journal of Fluid Dynamics

Volume 2, Issue 3 (September 2012)

ISSN Print: 2165-3852 ISSN Online: 2165-3860

Google-based Impact Factor: 0.63 Citations h5-index & Ranking

CFD Simulations for Sensitivity Analysis of Different Parameters to the Wake Characteristics of Tidal Turbine ()

HTML

Download as PDF (Size: 923KB) PP. 56-64

DOI: 10.4236/ojfd.2012.23006 5,808 Downloads 10,406 Views Citations

Author(s)

Mulualem G. Gebreslassie, Gavin R. Tabor, Michael R. Belmont

Affiliation(s)

Department College of Engineering, Mathematic and Physical Sciences, University of Exeter, Exeter, UK.

ABSTRACT

This paper investigates the sensitivity of width proximity and mesh grid size to the wake characteristics of Momentum Reversal Lift (MRL) turbine using a new computational fluid dynamics (CFD) based Immersed Body Force (IBF) model. This model has been added as a source term into the large eddy simulation (LES), which is developed for solving two phase fluids. The open source CFD code OpenFOAM was used for the simulations. The simulation results showed that the grid size and width proximity have had massive impact on the flow characteristics and the computational cost of the tidal turbine. A fine grid size and large width inflicted longer computational time. In contrast, a coarse grid size and small width reduced the computational time but showed poor description of the flow features. In addition, a close proximity of the domain’s wall boundary to the turbine affected the free surface, the air body, and the flow characteristics at the interface between the two phases. These results showed that careful investigation of a suitable grid size and spacing between the wall boundary and the turbine is important to minimise the effect of these parameters on the simulation results.

KEYWORDS

IBF Model; LES; MRL Turbine; Grid Size; Width Proximity

Share and Cite:

Gebreslassie, M. , Tabor, G. and Belmont, M. (2012) CFD Simulations for Sensitivity Analysis of Different Parameters to the Wake Characteristics of Tidal Turbine. Open Journal of Fluid Dynamics, 2, 56-64. doi: 10.4236/ojfd.2012.23006.

Cited by

[1]	Modelling dynamic loadings of a tidal stream turbine in combined wave-current-turbulence environment
	Sustainable Energy Technologies and …, 2022

[2]	Performance investigation of a drag-based hydrokinetic turbine considering the effect of deflector, flow velocity, and blade shape
	Ocean Engineering, 2022

[3]	PDE solution to UAV/UGV trajectory planning problem by spatio-temporal estimation during wildfires
	Chinese Journal of …, 2021

[4]	The analysis of viscous resistance towards various configuration of angle of attack and chord length of the foil towards the creation of the bubble on drag reduction of …
	2020

[5]	Numerical simulation on hydrodynamic performance of parallel twin vertical axis tidal turbines
	2019

[6]	Numerical Investigation of a Novel Blade for Use in Vertical Axis Wind Turbines.
	2019

[7]	Numerical simulation on hydrodynamic performance of parallel twin vertical axis tidal current turbines
	2019

[8]	Maritime Technology and Research
	2019

[9]	Simulation of vertical tidal turbine based on OpenFOAM and influence of inlet turbulence
	2019

[10]	A comparative study of RANS-based turbulence models for an upscale wind turbine blade
	2019

[11]	Natural summer ventilation strategies for energy-saving in high-rise buildings: a case study in the Netherlands
	2019

[12]	CFD Analysis and Optimisation of Tidal Turbine Arrays Using OpenFOAM $$^{\textregistered} $$
	2019

[13]	Sustainable High-rises
	2018

[14]	Analysis of Hydrodynamic Characteristics of Ocean Ship Two-unit Vertical Axis Tidal Current Turbines with Different Arrangements
	Journal of Coastal Research, 2018

[15]	Hydrodynamic Performance Analysis of the Vertical Axis Twin-Rotor Tidal Current Turbine
	2018

[16]	串列竖轴水轮机尾流场影响 CFD 模拟分析
	2018

[17]	Sustainable High-rises: Design Strategies for Energy-efficient and Comfortable Tall Office Buildings in Various Climates
	A+ BE\| Architecture and the Built Environment, 2018

[18]	Hydrodynamic Analysis of the Momentum-Reversal and Lift Tidal Turbine
	2017

[19]	Experimental and CFD analysis of the wake characteristics of tidal turbines
	International Journal of Marine Energy, 2016

[20]	CHAPTER FORTY-SIX INVESTIGATING THE FLOW CONDITIONS AND WAKE INTERACTIONS OF MOMENTUM-REVERSAL-LIFT TIDAL TURBINE USING CFD
	2016

[21]	Investigation of the performance of a staggered configuration of tidal turbines using CFD
	Renewable Energy, 2015

[22]	Parabolised model of the turbulent wake behind marine turbines
	Renewable Power Generation, IET, 2015

[23]	Lift Force Reduction by Means of a Diffuser for Gravity Base Foundations in Waves and Currents
	International Journal of Offshore and Polar Engineering, 2015

[24]	Computational Flow Analysis Of A Flapping Micro-flyer Wing For Cycle-averaged Force Production
	2015

[25]	Grid convergence study of a Savonius wind turbine model
	2014

[26]	Comparison of Analytical and CFD Modelling of the Wake Interactions of Tidal Turbines
	MG Gebreslassie, MR Belmont, GR Tabor - blogs.exeter.ac.uk, 2014

[27]	A Virtual Free Surface (VFS) model for efficient wave–current CFD simulation of fully submerged structures
	Coastal Engineering, 2014

[28]	Lift Force Optimization of Gravity Base Offshore Foundations Using CFD
	2014

[29]	Large Eddy Simulation of turbulent supersonic combustion and characteristics of supersonic flames
	2014

[30]	DESIGN AND OPTIMIZATION OF A CENTRIFUGAL PUMP AS PART OF MECHANICALLY PUMPED FLUID LOOP COOLING SYSTEM FOR SPACECRAFT

Journals Menu

Follow SCIRP

	+1 323-425-8868
	customer@scirp.org
	+86 18163351462(WhatsApp)
	1655362766

	Paper Publishing WeChat

Journals Menu

Home

About SCIRP

Service

Policies