Your search keyword '"Andrés Guggeri"' showing total 8 results

1. Large Eddy Simulation of an Onshore Wind Farm with the Actuator Line Model Including Wind Turbine’s Control below and above Rated Wind Speed

Author

Andrés Guggeri and Martín Draper

Subjects

large eddy simulation, actuator line model, wind energy, wind turbine, power control, Technology

Abstract

As the size of wind turbines increases and their hub heights become higher, which partially explains the vertiginous increase of wind power worldwide in the last decade, the interaction of wind turbines with the atmospheric boundary layer (ABL) and between each other is becoming more complex. There are different approaches to model and compute the aerodynamic loads, and hence the power production, on wind turbines subject to ABL inflow conditions ranging from the classical Blade Element Momentum (BEM) method to Computational Fluid Dynamic (CFD) approaches. Also, modern multi-MW wind turbines have a torque controller and a collective pitch controller to manage power output, particularly in maximizing power production or when it is required to down-regulate their production. In this work the results of a validated numerical method, based on a Large Eddy Simulation-Actuator Line Model framework, was applied to simulate a real 7.7 MNW onshore wind farm on Uruguay under different wind conditions, and hence operational situations are shown with the aim to assess the capability of this approach to model actual wind farm dynamics. A description of the implementation of these controllers in the CFD solver Caffa3d, presenting the methodology applied to obtain the controller parameters, is included. For validation, the simulation results were compared with 1 Hz data obtained from the Supervisory Control and Data Acquisition System of the wind farm, focusing on the temporal evolution of the following variables: Wind velocity, rotor angular speed, pitch angle, and electric power. In addition to this, simulations applying active power control at the wind turbine level are presented under different de-rate signals, both constant and time-varying, and were subject to different wind speed profiles and wind directions where there was interaction between wind turbines and their wakes.

Published

2019

2. Wake steering strategies for combined power increase and fatigue damage mitigation: an LES study

Author

Bruno Lopez, Andrés Guggeri, Martín Draper, and Filippo Campagnolo

Subjects

Paper, History, Environmental science, Fatigue damage, Wake, Automotive engineering, ddc, Computer Science Applications, Education, Power (physics)

Abstract

The impact of wake steering control strategy on power production and loads for a cluster of two wind turbines is analysed in this work. The power and loads data base are generated by means of high resolution simulations using an ALM-LES model along with an aeroelastic code for multibody analysis, while the optimal yaw misalignment values are obtained, for different wind directions and performance requirements, using a weighted cost function that accounts for both power production and fatigue damage on main wind turbine components. The sensitivity of the results regarding the inflow conditions, in terms of turbulence intensity, is also analysed. The overall results show that when accounting for both power production and fatigue damage, greater values of optimal yaw misalignment are obtained. This indicates that standard yaw misalignment strategies that accounts only for power production reduce at the same time the loading damage on the wind turbine, compared to greedy configuration.

Published

2020

3. A Large Eddy Simulation framework to assess wind farm power maximization strategies: Validation of maximization by yawing

Author

Bruno Lopez, A. Díaz, Filippo Campagnolo, Gabriel Usera, Andrés Guggeri, and Martín Draper

Subjects

0209 industrial biotechnology, History, Mathematical optimization, Computer science, 020209 energy, 02 engineering and technology, Maximization, Computer Science Applications, Education, Power (physics), ddc, 020901 industrial engineering & automation, 0202 electrical engineering, electronic engineering, information engineering, Large eddy simulation

Published

2017

4. Actuator Line Model simulations to study active power control at wind turbine level

Author

Andrés Guggeri, Bruno Lopez, Gabriel Usera, and Martín Draper

Subjects

History, Wind power, Computer science, business.industry, Rotor (electric), Aerodynamics, Wind direction, Turbine, Wind speed, Computer Science Applications, Education, law.invention, Gain scheduling, Control theory, law, business

Abstract

Wind energy is expanding rapidly worldwide, being horizontal axis wind turbines the technology of larger installed capacity. Modern multi-MW wind turbines have a torque controller and a collective pitch controller to control their power output, particularly when the wind speed is greater than the rated one, or when it is required to down-regulate the turbines’ production. In this work we show results of a validated numerical method [1], based on a Large Eddy Simulation-Actuator Line Model framework, applied to evaluate active power control on a real 7.7MW [2][3] onshore wind farm of Uruguay. We describe the implementation of these controllers in the caffa3d solver [4] and present the methodology we applied to obtain the controller parameters, such as the gain scheduling of the closed loop Proportional-Integral pitch controller. For validation, the simulation results are compared with 1Hz data obtained from the Supervisory Control and Data Acquisition System of the wind farm, focusing on the temporal evolution of the following variables: wind velocity, rotor angular speed, pitch, aerodynamic and electric torque and power. We analyze the Active Power Control response under different de-rate signals, both constant and time-varying, and subject to two wind profiles and two different wind directions, one of them with significant influence of wakes on one wind turbine. The dependence of the wake on the de-rate value is also evaluated, assessing the streamwise velocity component and the turbulence intensity in the wake.

Published

2019

5. Simulation of a 7.7 MW onshore wind farm with the Actuator Line Model

Author

Gabriel Usera, Andrés Guggeri, and Martín Draper

Subjects

History, Engineering, Wind power, 010504 meteorology & atmospheric sciences, Planetary boundary layer, business.industry, 020209 energy, 02 engineering and technology, Inflow, Wind direction, 01 natural sciences, Computer Science Applications, Education, Sea breeze, 0202 electrical engineering, electronic engineering, information engineering, Sensitivity (control systems), business, Actuator, Image resolution, 0105 earth and related environmental sciences, Marine engineering

Abstract

Recently, the Actuator Line Model (ALM) has been evaluated with coarser resolution and larger time steps than what is generally recommended, taking into account an atmospheric sheared and turbulent inflow condition. The aim of the present paper is to continue these studies, assessing the capability of the ALM to represent the wind turbines' interactions in an onshore wind farm. The 'Libertad' wind farm, which consists of four 1.9MW Vestas V100 wind turbines, was simulated considering different wind directions, and the results were compared with the wind farm SCADA data, finding good agreement between them. A sensitivity analysis was performed to evaluate the influence of the spatial resolution, finding acceptable agreement, although some differences were found. It is believed that these differences are due to the characteristics of the different Atmospheric Boundary Layer (ABL) simulations taken as inflow condition (precursor simulations).

Published

2017

6. Modelling one row of Horns Rev wind farm with the Actuator Line Model with coarse resolution

Author

Martín Draper, Gabriel Usera, and Andrés Guggeri

Subjects

History, Engineering, Wind power, 010504 meteorology & atmospheric sciences, business.industry, 020209 energy, Line model, 02 engineering and technology, Wind direction, Resolution (logic), 01 natural sciences, Computer Science Applications, Education, Wind flow, 0202 electrical engineering, electronic engineering, information engineering, Sensitivity (control systems), Actuator, business, Image resolution, Simulation, 0105 earth and related environmental sciences, Marine engineering

Abstract

Actuator models have been used to represent the presence of wind turbines in a simulation in the past few years. The Actuator Line Model (ALM) has shown to reproduce with reasonable accuracy the wind flow through wind turbines under different operational conditions. Nevertheless, there are not many simulations of wind farms performed with the ALM mainly because of its computational cost. The aim of the present paper is to evaluate the ALM in spatial resolutions coarser than what is generally recommended, also using larger time steps, in a simulation of a real wind farm. To accomplish this, simulations of one row of Horns Rev wind farm are performed, for different wind directions. It is concluded that the ALM is able to capture the main features of the interaction between wind turbines relaxing its resolution requirements. A sensitivity analysis is performed to assess the influence of the smearing factor and the spatial resolution.

Published

2016

7. Validation of the Actuator Line Model with coarse resolution in atmospheric sheared and turbulent inflow

Author

Martín Draper, Gabriel Usera, and Andrés Guggeri

Subjects

History, Engineering, Wind gradient, 010504 meteorology & atmospheric sciences, Meteorology, Planetary boundary layer, Astrophysics::High Energy Astrophysical Phenomena, 020209 energy, 02 engineering and technology, Wake, 01 natural sciences, Turbine, Education, Physics::Fluid Dynamics, Wind profile power law, 0202 electrical engineering, electronic engineering, information engineering, Physics::Atmospheric and Oceanic Physics, 0105 earth and related environmental sciences, Wind tunnel, Wind power, business.industry, Computer Science Applications, Boundary layer, Physics::Space Physics, business, Marine engineering

Abstract

Wind energy has become cost competitive in recent years for several reasons. Among them, wind turbines have become more efficient, increasing its size, both rotor diameter and tower height. This growth in size makes the prediction of the wind flow through wind turbines more challenging. To avoid the computational cost related to resolve the blade boundary layer as well as the atmospheric boundary layer, actuator models have been proposed in the past few years. Among them, the Actuator Line Model (ALM) has shown to reproduce with reasonable accuracy the wind flow in the wake of a wind turbine with moderately computational cost. However, its use to simulate the flow through wind farms requires a spatial resolution and a time step that makes it unaffordable in some cases. The present paper aims to assess the ALM with coarser resolution and larger time step than what is generally recommended, taking into account an atmospheric sheared and turbulent inflow condition and comparing the results with the Actuator Disk Model with Rotation (ADM-R) and experimental data. To accomplish this, a well known wind tunnel campaign is considered as validation case.

Published

2016

8. ADVANCES IN THE CHARACTERIZATION OF HIGH WIND EVENTS IN URUGUAY

Author

Sofía Orteli, Andrés Guggeri, and Valeria Durañona

Subjects

Geography, Frequency of occurrence, Meteorology, business.industry, Wind gust, Climatology, Convective storm detection, Cyclogenesis, General Earth and Planetary Sciences, Distribution (economics), National level, business, General Environmental Science

Abstract

Uruguay belongs to the second most prone region of the world to the occurrence of severe convective storms, which also includes the south of Brazil, north-eastern Argentina and part of Paraguay; and to the region of South America that presents the highest frequency of occurrence of intense cyclogenesis events. Both meteorological processes produce high winds in the country. In spite of its strength, the last study at national level of high winds in the whole country had been conducted more than 30 years ago, during the development of the national wind code still in use. The installation along the last years of a network of automatic meteorological stations that measure continuously with a good temporal resolution, geographical distribution and data quality offered adequate information to start a characterization and new analysis of these events. The analysis of their data clearly showed that most high wind events (defined as those with wind gust speeds at 45m height ≥ 22.2m/s) are non-synoptic and usually occur during severe convective activity. Higher winds and more frequent high wind events are found to the northwest of Uruguay. On the other hand, around 70% of the high wind events occur during spring and summer.

Published

2016