Harmonic Interactions in HVAC-connected Offshore Windfarms
Harmonic Interactions in HVAC-connected Offshore Windfarms

Author: Lara Depla

Publisher:

Published: 2019

Total Pages:

ISBN-13:

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The connection of new Offshore Wind Power Plants (OWPP) in the existing Dutch transmission system gives rise to many technical challenges. For example, it is expected that harmonic issues will occur more frequently when the number of large offshore wind farms increases. Cases have already been reported in which resonances were triggered in HVDC- or HVAC-connected OWPPs and the wind farms had to be taken out of operation. Recently developed offshore wind farms contain wind turbines which are connected to the system with a full-scale back-to-back Voltage Source Converter, which is responsible for inserting harmonics into the system. The onshore grid is also responsible for injecting harmonics. Since the wind turbine converter is an active element, where the control loops actively determine its electrical behaviour, it interacts with other converters and with the background harmonics inserted from the network. The initial harmonic emissions and the harmonic interactions can lead to an excitation of a resonance frequency. The cables, transformers, capacitor banks and filters are responsible for shifting the resonance frequencies. Especially a long HV export cable can strongly alter the resonance frequencies of the system. To analyze the impact of connecting an increasing amount of wind farms to the same Point of Connection on the harmonic emission levels, a Harmonic Impact Assessment was performed for three offshore wind farms in the Dutch North Sea. Since the wind turbine converters are active elements, its electrical behaviour can be captured with an equivalent impedance, or Norton Equivalent. This Norton Equivalent was utilized in the Harmonic Impact Assessment to include the active behaviour of the converter. When comparing this novel approach to the conventional methodology, the expected peaks in the Total Harmonic Distortion (THD) are shifted. When an increasing amount of wind farms is connected, peaks in the THD shifted to lower frequencies. Then, depending on the specific profile of the background harmonics and the impedance profiles of the grid and the OWPP, this translates into the disappearance of appearance of an exceedance of the emission limits. The effect of connecting two wind farms to the same Point of Connection instead of a single wind farm on the harmonic stability, was assessed. Frequency sweeps of the two assessed wind farms made clear that the presence of an additional filter in a wind farm leads to a small shift in the series resonance points. When multiple wind farms are connected instead of solely one wind farm, series resonance frequencies are shifted to lower frequencies and less damping appears to be present in the system. Lastly, the postive-net damping criteria was applied to assess the stability of a system in which a varying number of wind farms is connected. Time-domain simulations in PSCAD were performed to varify the results. It can be concluded that a system becomes less damped, and therefore less stable, when an increasing amount of wind farms is connected. This effect arises since the various wind farms are placed in parallel and the total resistance of the wind farms becomes smaller than the sum of the resistances of each wind farm. Moreover, when less wind turbines are in operation, less damping is present in the system since the resistance of a single OWPP is then decreased.

Harmonics in Offshore Wind Power Plants
Harmonics in Offshore Wind Power Plants

Author: Jakob Bærholm Glasdam

Publisher: Springer

Published: 2015-10-26

Total Pages: 219

ISBN-13: 3319264761

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This book reports on cutting-edge findings regarding harmonic stability assessment for offshore wind power plants (OWPPs). It presents a timely investigation of the harmonic stability interaction between OWPPs on the one hand, and associated control systems in the wind turbines and other power electronic devices in the transmission system on the other. The book particularly focuses on voltage-sourced converter high-voltage direct current (VSC-HVDC) and static compensator (STATCOM) systems. From a practical perspective, the book reports on appropriate models for power electronic devices. It describes how the frequency domain evaluation approach can be assessed by comparing results obtained with the Nyquist stability criterion against the more detailed electromagnetic transient based model realized in the PSCAD/EMTDC simulation program. The book also provides a concise yet complete overview of large OWPPs that incorporate power electronic devices on a broad scale, and highlights selected challenges and opportunities in the context of real-world applications.

Energy Transmission and Grid Integration of AC Offshore Wind Farms
Energy Transmission and Grid Integration of AC Offshore Wind Farms

Author: Markel Zubiaga

Publisher: BoD – Books on Demand

Published: 2012-03-21

Total Pages: 262

ISBN-13: 9535103687

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This book analyses the key issues of the offshore wind farm's energy transmission and grid integration infrastructure. But, for this purpose, there are not evaluated all the electric configurations. In the present book is deeply evaluated a representative case. This representative case is built starting from three generic characteristics of an offshore wind farm: the rated power, the distance to shore and the average wind speed of the location. Thus, after a brief description of concepts related to wind power and several subsea cable modeling options, an offshore wind farm is modeled and its parameters defined to use as a base case. Upon this base case, several analyses of the key aspects of the connection infrastructure are performed. The first aspect to analyze is the management of the reactive power flowing through the submarine cable. Then, the undesired harmonic amplifications in the offshore wind farms due to the resonances and after this, transient over-voltage problems in the electric infrastructure are characterized. Finally, an offshore wind farm connection infrastructure is proposed in order to achieve the grid code requirements for a specific system operator, but not as a close solution, as a result of a methodology based on analyses and simulations to define the most suitable layout depending on the size and location of each offshore wind farm.

Harmonic Propagation Studies in Offshore Wind Power Clusters
Harmonic Propagation Studies in Offshore Wind Power Clusters

Author: Marco Vinicio Chavez Baez

Publisher:

Published: 2019

Total Pages: 0

ISBN-13:

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The recent growth of new renewable energy sources has necessitated fresh avenues for research that searches for new methods to optimise the electrical network and reduce power losses. As this issue represents a combinational problem, the larger electrical systems present more complexity - the reason why this problem remains unsolved. This research aims to develop an algorithm that suggests a set of configurations in large offshore wind power clusters to maintain harmonics at levels that let the clusters operate without operational problems caused by harmonics. The major case studies of harmonics in offshore wind farms are focused on the importance of harmonic analysis for obtaining better performance from the design of the components. The interactions between the components of the system affect harmonic performance, which, in turn, may yield adverse effects such as resonances that can cause instability and operational problems that could shut off one or more wind turbines, causing a significant fault if not controlled promptly. Consequently, it is essential to reduce these adverse effects, and it is in this context that this study locates the proposed algorithm. This research pays attention to harmonic minimisation in combination with power losses minimisation, thus implementing an evolutionary algorithm to be applied to offshore wind power clusters. The project is divided into two primary goals: First, developing the objective functions to calculate power flow and harmonic propagation. Second, implementing the objective functions to develop a multi-objective evolutionary algorithm that can minimise harmonic propagation and power losses between the different components of a grid. Once it is obtained a set of better configurations of the offshore wind farm, data is used and helps to the designer to make recommendations for possible control strategies in large offshore wind farm projects that will deliver the offshore capacity generated into the onshore AC grid.

Offshore Wind Energy Generation
Offshore Wind Energy Generation

Author: Olimpo Anaya-Lara

Publisher: John Wiley & Sons

Published: 2014-06-03

Total Pages: 306

ISBN-13: 1118539621

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The offshore wind sector’s trend towards larger turbines, bigger wind farm projects and greater distance to shore has a critical impact on grid connection requirements for offshore wind power plants. This important reference sets out the fundamentals and latest innovations in electrical systems and control strategies deployed in offshore electricity grids for wind power integration. Includes: All current and emerging technologies for offshore wind integration and trends in energy storage systems, fault limiters, superconducting cables and gas-insulated transformers Protection of offshore wind farms illustrating numerous system integration and protection challenges through case studies Modelling of doubly-fed induction generators (DFIG) and full-converter wind turbines structures together with an explanation of the smart grid concept in the context of wind farms Comprehensive material on power electronic equipment employed in wind turbines with emphasis on enabling technologies (HVDC, STATCOM) to facilitate the connection and compensation of large-scale onshore and offshore wind farms Worked examples and case studies to help understand the dynamic interaction between HVDC links and offshore wind generation Concise description of the voltage source converter topologies, control and operation for offshore wind farm applications Companion website containing simulation models of the cases discussed throughout Equipping electrical engineers for the engineering challenges in utility-scale offshore wind farms, this is an essential resource for power system and connection code designers and pratitioners dealing with integation of wind generation and the modelling and control of wind turbines. It will also provide high-level support to academic researchers and advanced students in power and renewable energy as well as technical and research staff in transmission and distribution system operators and in wind turbine and electrical equipment manufacturers.

Analysis and Mitigation of Broadband Oscillation in Renewable Energy Generation and AC/DC Transmission Systems
Analysis and Mitigation of Broadband Oscillation in Renewable Energy Generation and AC/DC Transmission Systems

Author: Weisheng Wang

Publisher: Springer Nature

Published: 2023-12-05

Total Pages: 729

ISBN-13: 9819915686

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With the growth of the installed capacity and the proportion of REG, mainly including wind power and PV power generation, the stable operation of REG and AC/DC transmission systems has become a technical bottleneck for the sustainable development of REG. Since 2009, broadband oscillation incidents have occurred frequently in REG and AC/DC transmission systems in China and some foreign countries, resulting in severe consequences such as large-scale tripping-off of REG units, damaging equipments, and an increasing curtailment of wind and PV power generation. However, there are great difficulties and challenges for the analysis and mitigation of broadband oscillation. This book focuses on the analysis and mitigation of broadband oscillation in renewable energy generation and AC/DC transmission systems. The theoretical knowledge and practical approaches to solve this issue are explored through the contents of 4 parts, 18 chapters. Part I is Small-signal Modeling of Converters, containing four chapters. The frequency-domain small-signal modeling method and impedance modeling of three types of basic converters commonly used in power electronic devices, including the two-level converter, modular multilevel converter, and thyristor converter are introduced. Part II is Impedance Model and Characteristics Analysis of REG and HVDC Transmission, containing six chapters. The impedance model and characteristics analysis of the full power conversion wind turbine, DFIG-based wind turbines, PV unit, SVG, LCC-HVDC, and MMC-HVDC are introduced. Part III is Broadband Oscillation Analysis in REG and AC/DC Transmission Systems, containing three chapters. The impedance modeling and characteristics analysis of REG plants, and oscillation analysis of REG connected into AC and HVDC transmission systems are introduced. Part IV is Broadband Oscillation Mitigation in REG and AC/DC Transmission Systems, containing five chapters. The impedance reshaping of the REG unit, SVG, LCC-HVDC, and MMC-HVDC as well as project cases are presented. This book can be used by the researchers engaged in the design, technology research and development, and operation management of electrical engineering and renewable energy engineering, which can also be a reference book for teachers and students of electrical engineering in colleges and universities.

Smart Grids
Smart Grids

Author: Stuart Borlase

Publisher: CRC Press

Published: 2017-11-22

Total Pages: 806

ISBN-13: 1498799566

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The latest edition features a new chapter on implementation and operation of an integrated smart grid with updates to multiple chapters throughout the text. New sections on Internet of things, and how they relate to smart grids and smart cities, have also been added to the book. It describes the impetus for change in the electric utility industry and discusses the business drivers, benefits, and market outlook of the smart grid initiative. The book identifies the technical framework of enabling technologies and smart solutions and describes the role of technology developments and coordinated standards in smart grid, including various initiatives and organizations helping to drive the smart grid effort. With chapters written by leading experts in the field, the text explains how to plan, integrate, implement, and operate a smart grid.

Wind Farm
Wind Farm

Author: Gastón Orlando Suvire

Publisher: BoD – Books on Demand

Published: 2011-07-28

Total Pages: 346

ISBN-13: 9533074671

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During the last two decades, increase in electricity demand and environmental concern resulted in fast growth of power production from renewable sources. Wind power is one of the most efficient alternatives. Due to rapid development of wind turbine technology and increasing size of wind farms, wind power plays a significant part in the power production in some countries. However, fundamental differences exist between conventional thermal, hydro, and nuclear generation and wind power, such as different generation systems and the difficulty in controlling the primary movement of a wind turbine, due to the wind and its random fluctuations. These differences are reflected in the specific interaction of wind turbines with the power system. This book addresses a wide variety of issues regarding the integration of wind farms in power systems. The book contains 14 chapters divided into three parts. The first part outlines aspects related to the impact of the wind power generation on the electric system. In the second part, alternatives to mitigate problems of the wind farm integration are presented. Finally, the third part covers issues of modeling and simulation of wind power system.