Wind Turbine Wakes and Interference

R. Ganesh RajagopalanDepartment of Aerospace Eng.

Iowa State University

Research Needs in Wind Energy• Wind Turbines are Complex Aerodynamic

Machines.• The wind turbine wakes are unsteady and

interact strongly with each other.• The nature and shape of the terrain has

significant impact on the performance of the turbines.

• Need designs that survive 20 year fatigue loads• Turbines need to be stronger, smarter and less

expensive

Research Paradigm

• Obtaining an engineering solution to the complex physics that dictates these multi-dimensional class of problems.

• Need to produce solutions cost effectively, in a timely manner.

• Modularize the problem to allow parallel development.

Research Problem

• Turbines are designed as individual turbines.• In an aerodynamically interacting

environment their behavior and performance are not well understood.

• Interactions must be simulated with a goal to understand the basic physics and optimize performance.

Components of the Problem

• The Resource: Turbulent Wind• The Turbine: Complex Rotating Blades with

multiple degrees of freedom• The environment: Complex terrain• The Interaction: Unsteady wakes from

different turbines.

The Resource

• Assume that the flow is unsteady and that the direction and magnitude are stochastic.

The Terrain

• Allow for body conforming grids to account for topography changes (large and small)

The Rotating Blades

• An Engineering to Model to allow simulation of many turbines operating in the vicinity.

Basic Validation

• Integrated Performance (Power Coefficient).• Forces and Moments as the blades rotate.• Wakes

Multiple Turbine Interactions

30Iowa State University

NREL Combined Experiment :Two HAWTs relative to each other

• Considering only two NREL upwind rotors, without tower and nacelle

• Relative distance : 4 * Diameter

• Angle sweep: [0 to 90 deg]

• Rot3dc solutions presented

31Iowa State University

NREL Combined Experiment :Two HAWTs relative to each other

Cases Tested

32 Iowa State University

NREL Combined Experiment :Two HAWTs (Vo = 10 m/s)

Power Ratio vs. Angle between HAWTs(Psa = Power of a standalone HAWT under same conditions = 17.818 kW)

Case A Y = 00

Velocity magnitude in the wake

Case B Y = 150

Axial induced velocity on the rotor plane

Case A Y = 00

Case B Y = 150

Axial induced velocity on the rotor plane

Case C Y = 300

Case E Y = 600

Conclusions• Rot3dc : - accurate modeling of flows through HAWTs and VAWTS, including yaw effect - validated against field test data

• Interference studies : - demonstration of Rot3dc as an effective tool for qualitative and quantitative study of multiple turbine configurations - Further studies with parametric variations of relative distance and with an array of HAWTs required

Future Research

• Improve the cost of computation by smarter numerical algorithms.

• Use modern hardware such as GPU to do parallel computation to decrease the simulation time.

• Improve the physical representation of the turbines by allowing yaw based on wind conditions.

Wind Turbine Wakes and Interference

Documents

ANALYSIS OF INTERFERENCE FACTORS OF AIR TURBINE CASCADES

Journal of Wind Engineering & Industrial Aerodynamicswindeng.t.u-tokyo.ac.jp/ishihara/paper/2019-3.pdf · Numerical study of wind turbine wakes over escarpments by a modiﬁed delayed

Vindmøller. Opskalering, KoncepterBarthelmie et al. (2009) Modelling and Measuring Flow and Wind Turbine Wakes in Large Wind Farms Offshore.WindEnerg. 2009; 12:431–444 DTU Wind

A CFD code comparison of wind turbine wakes · A CFD code comparison of wind turbine wakes View the table of contents for this issue, or go to the journal homepage for more Home Search

Wind Turbine Wakes, Wake Effect Impacts, and Wind Leases

Wind Turbine Radar Interference Mitigation (WTRIM) Working ......5 • Purpose of the Wind Turbine Radar Interference Mitigation (WTRIM) Working Group (WG): The WG’s purpose is to

When The Sleeper Wakes

Offshore Wind Turbine Radar Interference Mitigation (WTRIM) … · 2 days ago · Offshore Wind Turbine Radar Interference Mitigation (WTRIM) Webinar #2 of a Series of Technical Interchange

Aerodynamics of wind turbine wakes

Wakes Hall Lodgeswakeslodges.co.uk/downloads/WakesHallLodgesGuestand... · 2019-04-12 · WAKES HALL LODGES Wakes Hall Lodges Guest and Tourist Information Guide 01206 563222 -07834

Federal Interagency Wind Turbine Radar Interference ... Interagency Wind Turbine Radar Interference Mitigation Strategy January 2016

Federal Interagency Wind Turbine Radar Interference Mitigation

Numerical computations of wind turbine wakes andwake …583107/... · 2013-01-07 · 5.4. Results 36 Chapter 6. Power control strategy 41 6.1. Inputandgoverningequations 42 6.2. Results

Federal Interagency Wind Turbine Radar Interference …...Through a set of collaborative activities and the coordination of each agency’s investments in outreach on the wind turbine

An alternative form of the super-Gaussian wind turbine wake model · 2020. 9. 28. · Wind turbine wakes are characterized by a reduction of the wind velocity and an increase in the

Europe wakes up 1

Modelling a Single-Blade Wind Turbine using Computational ... · Modelling a Single-Blade Wind Turbine using Computational Fluid Dynamics S. J. Wakes a, G. Gabriel b, P-Y. Potonnier

Characterizing Wind Turbine Inflow and Wakes Daniel A ...626/datastrea… · employed meteorological monitoring towers and remote sensing systems to provide a three dimensional spatio-temporal

Lidar measurements of yawed-wind-turbine wakes ......the power coefﬁcient of a waked wind turbine contributed signiﬁcantly to the model uncertainty. Lastly, the span-wise cross

Modelling tidal current turbine wakes using a coupled RANS ... · Experimental validation of such tidal turbine wake evolution predictions are limited, typically based on small scale