Your search keyword '"Wind park"' showing total 276 results

51. Fast Detection of SSR for Wind Parks Connected to Series-Compensated Transmission Systems.

Author

Seyedi, Younes, Mahseredjian, Jean, Karimi, Houshang, Karaagac, Ulas, and Trevisan, Aramis Schwanka

Subjects

*ELECTRIC transients, *WIND turbines, *ELECTRIC lines

Abstract

• The interactions between wind parks and transmission systems may lead to harmful oscillations. • Fast detection of SSR is crucial from both planning and operation point of view. • The proposed disturb and scan method aims to predict SSR with a low number of frequency scans. • Peak analysis of the post-fault current spectrum provides information for the selective scanning. • SSR due to the DFIG wind parks is predicted faster as opposed to the full converter wind parks. The interactions between wind parks and the series-compensated transmission lines can bring about sub- or super-synchronous resonance (SSR) incidents which jeopardize the safe operation of the entire network. In practice, such incidents may emerge under various conditions as different types of wind turbines with various parameters can be deployed at several locations in the network. Hence, it is crucial to efficiently identify the conditions that lead to adverse interactions and their subsequent SSR incidents. This paper proposes a simulation-based method, namely disturb and scan (DaS), for fast and automated detection of SSR. The proposed technique uses small-scale disturbances in time-domain electromagnetic transient (EMT) simulations to perform spectral analysis along with positive-sequence impedance scans. Numerical results are presented and validated for benchmark systems that utilize type-III and type-IV wind turbines. The system operators can adopt the developed methodology to quickly assess the risks of SSR, evaluate conditions of instability, and improve their network protection and control schemes. [ABSTRACT FROM AUTHOR]

Published

2022

52. Pacifying autonomous land defenders in Oaxaca, Mexico

Author

Alexander Dunlap and Martín Correa Arce

Subjects

Wind power, Human rights, business.industry, media_common.quotation_subject, Foregrounding, Distribution (economics), Wind park, Colonialism, Liberalism (international relations), Agrarian society, Political economy, Political science, business, media_common

Abstract

This chapter examines the struggle against the new Electricite de France (EDF) wind park, Gunaa Sicaru, in Union Hidalgo (UH), Mexico. Foregrounding Indigenous land defense, the chapter refers to wind energy as ‘wind factories’ to discuss agrarian change in the region. Revealing the counterinsurgency colonial model as a foundational approach to extractive development, the chapter argues that the distribution of money, Sicarios (hitmen) and NGOs are instrumental to engineering ‘social acceptance’. Moreover, the liberalism underlining NGOs, if not careful, advances processes of infrastructural colonization and, consequently, wider trajectories of (neo)colonialism.

Published

2021

53. A novel collective health monitoring of a wind park

Author

Sodha, Kritika, S., George Fernandez, K, Vijayakumar, and D., Sattianadan

Subjects

Wind park, Machine learning, Health monitoring, Wind power, Renewable power

Abstract

Compared to a time-based maintenance schedule, condition-based maintenance provides better diagnostic information on the health condition of the different wind turbine components and subsystems. Rather than using an offline condition monitoring technique, which require the WT to be taken out of service, online condition monitoring does not require any interruption on the WT operation. The online condition monitoring system uses different types of sensors such as vibration, acoustic, temperature, current/voltage etc. Using a machine learning approach, we aim to establish a data driven fault prognosis framework. Instead of traditional wired communications, wireless communication systems such as wireless sensor network have the advantages of easier installation and lower capital cost. We propose the use of WSN for collecting and transmitting the condition monitoring data to enhance the reliability of wind parks. Using data driven approach the collective health of the WP can be represented based on the condition of the individual wind turbines, which can be used for predicting the remaining useful life of the system.

Published

2021

54. Dedicated diffraction imaging for sub-seafloor object detection

Author

Stefan Wenau, Hanno Keil, B. Preu, N. Römer-Stange, Volkhard Spiess, and V. Bihler

Subjects

Diffraction, Submarine pipeline, Wind park, Object (computer science), Object detection, Geology, Seafloor spreading, Energy (signal processing), Characterization (materials science), Remote sensing

Abstract

Summary Objects in the sub-seafloor sediments (boulders or UxO) pose a risk for offshore infrastructure. Diffraction imaging is a promising method for the detection of objects within marine sediments. A non-aliasing record of the wave field allows a separation of reflected and diffracted energy and a subsequent localization of the origin of diffracted energy. Detectable object sizes and maximum sediment penetration depend on the source frequency used and may be adjusted to expected object sizes and the geological setting. Such a new survey method holds considerable benefits for e.g. wind park construction, cable route characterization and some specialized UxO detection applications.

Published

2021

55. Modeling, control, and dynamic stability analysis of two-stage dc collector grids in offshore wind park clusters; 1. Auflage

Author

Sidik, Yohan Fajar

Subjects

wind park, mvdc, dc collector grid, modeling and control, modular dual-active bridge, impedance-based analysis, stability analysis

Abstract

Dissertation, RWTH Aachen University, 2021; Aachen : E.ON Energy Research Center, RWTH Aachen University, E.ON Energy Research Center ; Ausgabe : PGS, Power Generation and Storage Systems 107, 1 Online-Ressource : Illustrationen, Diagramme (2022). = Dissertation, RWTH Aachen University, 2021, The development of power electronic technologies makes it possible to build electrical transmission and distribution system based on a direct current (dc) technology. The standard solution for long submarine transmission of offshore wind parks uses high voltage direct current (HVDC). However, the existing dc collector grid connecting the offshore wind park and the HVDC is still based on medium voltage alternating current (MVAC). The offshore wind park system efficiency can be further increased by using medium voltage direct current (MVDC) as the collector grid. So far, research on the dc collector grid for the offshore wind park investigated configurations, efficiencies, and main components. The promising configuration is a two-stage dc collector grid, which requires an additional platform to step up dc voltages. This work investigates the dynamic system stability of the two-stage dc collector grid for an offshore wind park. A complete circuit based on components/switching models is built to conduct simulations in the time domain under various operating conditions. In addition, frequency-domain simulations by means of impedance-based analysis are developed as a tool for analyzing the system stability. In the first part, a description of the offshore wind park based on dc technology is introduced. Next, components of the two-stage dc collector grid are modelled. Those are a wind turbine, a generator, a machine side converter (MSC), a cable, and an offshore platform converter(OPC). The modelling method is a component-based modelling. For power converters, the MSC and the OPC, this component-based modelling is also called a switching model. Controller strategies of converters are also presented. In the second part, impedance models are developed for frequency-domain simulations by means of impedance-based analysis. Finally, both time domain and frequency domain simulations assess the system stability under various operating conditions. Both simulation results are compared to get insight into the dynamic behaviour of the offshore wind park based on the two-stage dc collector grid. The agreements between both approaches show that the (linearized) impedance-based analysis can be used to analyze the stability of a two-stage dc collector grid for a large wind park., Published by E.ON Energy Research Center, RWTH Aachen University, Aachen

Published

2021

56. Park wind field reconstruction using real-time turbine data

Author

Magalhães, Maria Sampaio, Martins, Luís Barreiros, Pereira, Gonçalo Artur Duarte, and Universidade do Minho

Subjects

Wind park, Reconstrução do vento, Velocidade do vento, Engenharia e Tecnologia::Engenharia Mecânica, Wind direction, Parque eólico, Direção, Flow reconstruction, Wind speed

Abstract

Dissertação de mestrado integrado em Engenharia Mecânica, Wind field reconstruction is a method established to better understand park level aerodynamics, and to be able to control specific turbines in a wind park. It can be used in case anything happens with the turbine (for example, a sensor failing) that will cause the lack of information about the conditions of the wind reaching that turbine. This is critical since every turbine is monitored to continually guarantee that they are facing the wind in order to produce an optimal amount of energy. When all the available wind sensors fail, the production needs to be stopped. Because of this, flow reconstruction and forecasting values of wind characteristics such as wind speed and wind direction on a turbine, are methods that have been studied and validated for a long time. This dissertation aims to study how flow reconstruction in a wind park can aid in understanding turbines' conditions and interaction in a wind park and the wind characteristics on a specific location. Specifically, this dissertation tests seven statistical models developed in Matlab to understand the ability of the models to accurately represent the values of wind speed and wind direction of a turbine, given the dataset of the other remaining turbines in the park. To test the hypothesis that adding more specific wind-related parameters to the models would improve their results, the first model tested was a more straightforward approach, where it was tested a regression analysis. Afterward, parameters as the distance between turbines, possible wake with some of the turbines in the park, and statistical analysis results were added or experimented in the models to understand if the results improved. One of the models constructed followed a different approach, and it was based on wind particles, and considering a viscosity condition and the last model developed was a machine learning model. The results suggest that investing in statistical parameters, combined with wind park information will lead to optimal results. Also, machine learning models, possibly developed even further, are algorithms that, combined with a low computational cost, will lead to a very accurate representation of the real wind speed and wind direction values that a turbine is measuring. Another possible conclusion was that every turbine has different behaviour and will present a different error for the same model since they are scattered in a wind park. In some cases, other turbines can surround them and cause disturbances in the wind or cause difficulties for the models to estimate some variations on these turbines, while others are isolated., A reconstrução de parâmetros do vento é um método estabelecido de forma a auxiliar um maior conhecimento da aerodinâmica de um parque de turbinas eólicas e ser possível ter controlo de turbinas específicas num parque, em caso de uma falha de sensores, por exemplo, que poderá levar a uma falta de informação sobre as condições de vento às quais a turbina está exposta e esta é uma informação crítica sendo que o controlo da turbina é feito de forma a garantir que a turbina esteja sempre alinhada com a direção predominante do vento, para produzir uma quantidade de energia otimizada. Quando os sensores de vento falham, a produção da turbina precisa de ser travada. Dessa forma, a reconstrução do vento e estimativa dos valores de características como velocidade e direção, são métodos que têm sido estudados e testados ao longo do tempo. Esta dissertação tem como objetivo estudar e investigar de que forma a reconstrução do vento num parque de turbinas eólicas pode auxiliar a perceber as condições a que as turbinas estão expostas, interações entre estas num parque e as características de vento em localizações específicas. Especificamente, esta dissertação testa sete modelos estatísticos diferentes desenvolvidos no Matlab de forma a perceber quais dos modelos conseguiria representar as característias do vento com a menor margem de erro, tendo como dados de entrada dados reais das restantes turbinas do parque. Para testar a hipótese de que acrescentar um grau de complexidade aos modelos, considerando parâmetros de vento mais específicos, iria melhorar os seus resultados, o primeiro modelo testado foi uma abordagem mais simples, tendo sido testada uma análise de regressão. Posteriormente, foram adicionados parâmetros como a distância entre turbinas, possível efeito de wake entre estas e análises estatísticas foram acrescentados e testados em novos modelos, para verificar se os resultados eram otimizados. Um dos modelos construídos foi baseado em partículas de vento e considerando viscosidade entre estas, e o último modelo desenvolvido foi relativo a machine learning. Os resultados sugerem que combinar parâmetros estatísticos com informação específica do parque pode levar aos melhores resultados. Além disso, modelos de machine learning, possivelmente ainda mais complexos, são algoritmos que, com um custo computacional baixo, garantem uma representação de velocidade do vento e direção muito realista. Outra conclusão possível foi que cada turbina tem um comportamento diferente para o mesmo modelo. Em alguns casos, outras turbinas perto podem causar distúrbios e mudanças no vento que chega a turbina que está a ser estimada e isto poderá causar dificuldades na forma como os modelos preveem os valores de velocidade e direção.

Published

2021

57. Wind energy potential for the electricity production - Knjazevac Municipality case study (Serbia)

Author

Tatjana Joksimović, Miroljub Milinčić, Ivan Potić, Uros Milincic, and Dušan Kićović

Subjects

Geospatial analysis, Geographic information system, Meteorology, 020209 energy, Analytic hierarchy process, Terrain, 02 engineering and technology, Land cover, 010501 environmental sciences, computer.software_genre, lcsh:HD9502-9502.5, 01 natural sciences, 7. Clean energy, Geographic information systems (GIS), 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, 0105 earth and related environmental sciences, Wind power, Wind park, business.industry, Annual energy output (AEO), Wind power output (WPO), lcsh:Energy industries. Energy policy. Fuel trade, Renewable energy, Multispectral analysis, Electricity generation, 13. Climate action, Environmental science, business, computer, Energy (miscellaneous)

Abstract

Geospatial potential for harvesting wind energy is not an easy task to perform in conditions of deficiency of accurate data in remote and large areas (macro to medium locations). There are different methodologies available to identify the most suitable location for the installation of wind power generators. One of the most suitable approaches that employ the Multi-Criteria Analysis method for wind energy potential of the Municipality of Knjaževac (East Serbia) is combining the Analytic Hierarchy Process (AHP) and Geographic Information Systems. Collection and creation of geospatial data for the research encompassed meteorological data from all available sources, digital elevation model (DEM) to analyze the orography of the terrain, and Landsat 8 satellite data to analyze six land cover (LC) classes. The identification of three best locations for the wind power generators (wind farms) using Multi-Criteria Decision Making (MCDM) analysis solved the major location problem: how to select the best locations for investment in the renewable energy sector and minimize the impact on the environment. The result indicates that only one part of the municipality, at the hub height of 100 m, has enough wind potential to produce energy.

Published

2021

58. EVALUATION OF WIND PARKS OUTPUT POWER FORECAST ERROR AND WAYS TO DECREASE IT.

Author

Toom, Kaupo, Annuk, Andres, Allik, Alo, Uiga, Jaanus, and Kabanen, Toivo

Subjects

*ELECTRIC power production, *ECONOMIC forecasting, *ENERGY consumption, *TURBOMACHINES, *ELECTRIC generators

Abstract

From a socio-economic perspective, better forecasting will reduce the total generation costs due to the more optimal dispatch of power plants. The operators of the wind parks integrated into the transmission network are responsible for presenting a 24h-forecast of their output power to the transmission system operator (TSO). The real wind power differs from the forecast one. This difference needs balancing by the rest of the energy system. In Estonian conditions, it means regulating the capacity of oil-shale-fuelled power plants, which induces an accelerated wear, additional emissions and fuel consumption of the power plants. Wind park output power is particularly difficult to forecast at wind speeds of 6 - 10 m·s-1 due to the fact that electricity generation of wind turbines changes markedly between these speeds. The most relevant metrics to measure forecast errors are Root Mean Square Error (RMSE) and Mean Absolute Percentage Error (MAPE). The absolute errors of the forecast are dependent on the forecasted wind power generation. Thus, most of the prediction problems lie in the higher end of wind output values. [ABSTRACT FROM AUTHOR]

Published

2012

59. Model verification for analysis of wind power impact to transient stability in isolated power system using combined relay protection and dynamics modelling approach.

Author

Maripuu, Rain, Tsernobrovkin, Oleg, Palu, Ivo, and Kilter, Jako

Abstract

Usually, when performing network dynamic studies fault duration times and network configuration are selected based on predefined conditions. In this paper, the approach is to complement the conventional approach by considering actual relay protection operation. In addition, also possible failures of relay protection and circuit breaker operation are taken into account, i.e., additional fault clearing time causing different transient behaviour, is included. This paper gives an overview and discussion about the development of combined relay protection and dynamics modelling methodology and it is focused on the verification of relay protection and dynamic electromechanical transient model against actual field measurements during the wind power plant commissioning tests. [ABSTRACT FROM PUBLISHER]

Published

2012

60. Fault Ride-Through trip curves.

Author

Nelson, Robert

Abstract

Over the past decade, new requirements have been proposed and implemented for Fault Ride Through, including a proposed NERC standard that would impose fault ride through requirements on all generation. Most existing fault ride through curves are used in the wind industry. Some have some very unusual-looking trip characteristics that are polygonal in shape, rather than the characteristic rectangular trip curves customarily used by protection engineers. This paper will examine some of these trip characteristics, increasingly common in the wind turbine industry, and show how a rectangular characteristic can be used to satisfy a polygonal trip requirement. The use of common trip curves such as that proposed by NERC in PRC-024-1 may require some changes in generator plant design, as occurred in the wind industry, to insure that equipment is designed for low-voltage operation. [ABSTRACT FROM PUBLISHER]

Published

2012

61. CUTTING WIND GENERATOR POWER CHART PEAKS TO MITIGATE POWER FORECAST ERROR.

Author

Toom, Kaupo, Jurjenson, Kuno, Juhanson, Tauno, and Annuk, Andres

Subjects

*WIND power, *WIND speed, *ENERGY consumption, *WEATHER forecasting

Abstract

Under certain circumstances, the transmission system operator (TSO) can face the need to reduce the power output of the wind parks. In a market based setup the wind power producers will normally pay for the balancing costs of wind power. Therefore, the more accurate the forecast of wind power, the lower the balancing costs for the wind power producers will be. From a socio-economic perspective, better forecasting will reduce the total generation costs due to the more optimal dispatch of power plants. The operators of the wind parks integrated into the transmission network are responsible for presenting a 24h-forecast of their output power to TSO. The real wind power differs from the forecast one. This difference needs balancing by the rest of the energy system. In the Estonian conditions, it means the regulation of the capacity of oil-shale-fuelled power plants which induces an accelerated wear, additional emissions and fuel consumption of the power plants. The reason why wind park output power is particularly difficult to forecast at wind speeds of 6-10 m·s-1 is due the fact that electricity generation of wind turbines changes markedly between these speeds. [ABSTRACT FROM AUTHOR]

Published

2011

62. Voltage stability improvement of wind farms by self-correcting static volt-ampere reactive compensator and energy storage.

Author

Sakipour, Ramin and Abdi, Hamdi

Subjects

*BATTERY storage plants, *REACTIVE power, *ENERGY storage, *WIND power plants, *STATIC VAR compensators, *PERMANENT magnet generators, *VOLTAGE, *CAPACITOR banks

Abstract

• Improving the voltage in a wind farm by a self-corrective static VAR compensator. • Considering the steady-state and transient modes under harsh faults in analysis. • Enhancing the system performance by employing an optimized Battery Energy Storage. • Reporting the results in different cases, with or without the mentioned equipment. Maintaining synchronism and voltage stability, especially in the presence of wind farms, has a crucial role in confirming the reliability requirements of the power grid, as the natural fluctuations of wind speed result in intermittency and uncontrollability of power generation. To this end, an optimized Battery Energy Storage System (BESS) was suggested to make an equilibrium between the generation and consumption in wind farms under harsh conditions. Additionally, the instability of wind farms is very likely after transmission line faults occur. To overcome this problem, in this paper, the impact of a constant capacitor bank, connected in parallel with the wind generators, is investigated. Also, a novel self-corrective Static Volt-ampere reactive Compensator (SVC) is proposed to overcome the variations of voltage and damp the reactive power oscillations after occurring the faults. The proposed SVC compares the network voltage profile as the reference voltage with the voltage deviations in a control block diagram. For this purpose, three similar wind farms of Permanent Magnet Synchronous Generator (PMSG) type are considered in a wind park. The simulation case studies are performed in Matlab/Simulink under different conditions of transient and steady-state voltage stabilities in the presence of proposed BESS including, only capacitor bank (without self-corrective SVC), and with self-corrective SVC. The results authenticate the ability of the proposed SVC strategy to correct the voltage deviations, and voltage stability improvement of the under study system. [ABSTRACT FROM AUTHOR]

Published

2022

63. Recognition of Faults in Wind-Park-Included Series-Compensated Three-Phase Transmission Line Using Hilbert–Huang Transform

Author

Gaurav Kapoor

Subjects

Amplitude, Series (mathematics), Three-phase, Computer science, Transmission line, Wind park, Fault (power engineering), Algorithm, Hilbert–Huang transform, Fault recognition

Abstract

This work presents an HHT (Hilbert–Huang transform)-based fault recognition technique for wind-park-included series-compensated three-phase transmission line (WPISCTPTL). The single-side captured fault currents of the WPISCTPTL are used to evaluate the amplitudes of HHT outputs. The fault factors of WPISCTPTL are varied. It is investigated that the HHT well detects every type of fault. It is also explored that the HHT is robust to the modification in the fault factors of WPISCTPTL.

Published

2020

64. Research of UPFC Influence on Control of Power System with Renewable Energy Sources.

Author

Kolcun, Michal, Novák, Matúš, Kanálik, Martin, Kravec, Richard, and Kolcun Jr., Michal

Subjects

ELECTRIC power systems, RENEWABLE energy sources, ENERGY consumption, ENERGY development, SOFTWARE development tools

Abstract

Power systems nowadays are becoming more complex, also with constantly growing electricity consumption. A new phenomenon of renewable energy sources connection into power system is also influencing the power system complexity. This paper deals with the possibilities of usage of software tools for power system studies in more complex way. The modeling of supplementary services in 39-bus of New England system is presented at the beginning of this paper. Also, the mutual interaction of renewable energy sources - offshore wind farm and UPFC was the subject of research. Advantages and disadvantages of such combination are presented in this paper. [ABSTRACT FROM AUTHOR]

Published

2014

65. Protection of Dual-Circuit Transmission Line Integrated with Wind-Park Using Fast Walsh-Hadamard Transform

Author

Rabindra Nath Shaw and Gaurav Kapoor

Subjects

Computer science, Transmission line, Relay, law, Fast Walsh–Hadamard transform, Boundary (topology), Hardware_PERFORMANCEANDRELIABILITY, Wind park, Fault (power engineering), Algorithm, Fault detection and isolation, Dual (category theory), law.invention

Abstract

This paper presents a fast Walsh-hadamard transform (FWHT)-based relaying scheme for dual-circuit transmission line (DCTL) integrated with WP (wind-parks). The boundary faults and cross-country faults are very complex to detect by the old techniques as the first entails faults near to and far from the relay location and the second entails faults in any one circuit but at two different positions. Similarly, in the case of converting faults, the fault type changes after some cycles. This technique is applied to the currents measured at one-end of DCTL to calculate the FWHT coefficients for DCTL protection. To test out the usefulness of FWHT, various simulation studies have been carried out thus changing fault parameters. The results showed that the FWHT-based technique is awfully receptive to all types of faults. The foremost lead of FWHT is that it effectively recognizes all types of faults in a DCTL by using one-side fault data only.

Published

2020

66. Balancing Services Provision from Wind Turbines: an Italian Case Study

Author

Jan Marc Schwidtal, Arturo Lorenzoni, Matteo Bernardi, Fabio Bignucolo, and Marco Agostini

Subjects

Wind power, business.industry, 020209 energy, Ancillary services, balancing services, distributed energy resources, electricity markets, wind energy, 02 engineering and technology, Wind park, Environmental economics, 021001 nanoscience & nanotechnology, Renewable energy, Electric power system, Incentive, Pricing strategies, Market data, 0202 electrical engineering, electronic engineering, information engineering, Business, Volatility (finance), 0210 nano-technology

Abstract

Growing shares of non-programmable renewable energy sources do not only decarbonize the power system, but pose also significant challenges to it due to inherent volatility and the respective need for balancing services. The question therefore arises to what extent they cannot contribute themselves to such services. This paper investigates the economic viability of balancing service provision from wind turbines, based on a case study with real generation and market data from Italy. Different pricing strategies with the impact of feed-in incentives are compared, as well as the performance in different geographical market zones. Findings reveal structural drawbacks of downward services in contrast to positive economic potential for upward services, strongly depending on the wind park’s location and pricing strategy.

Published

2020

67. Optimising the layout of a wind park in terms of energy output and environmental intrusion

Author

D. Tryfonopoulos, A. Georgiopoulos, and N. Lymberopoulos

Subjects

Intrusion, Environmental science, Wind park, Energy (signal processing), Marine engineering

Published

2020

68. Front detection using wind park data and NWP

Author

Annekatrin Kirsch, Markus Abel, Greta Denisenko, and Franz Feldtkeller

Subjects

Meteorology, Wind park, Geology, Front (military)

Abstract

The precise forecasting of ramps in production of windparks is a problem that is not satifsfactorily solved. This is of particular interest because ramps contribute to a major part to the forecasting error in power production, in particular for offshore wind parks.Since ramps are often due to fronts passing a location, we developed a method for the correction of front speed and -direction using a combination of wind park meteorological measurements and numerical weather prediction (NWP). On one hand we use conventional methods like the Canny algorithm for NWP data, on the other hand, we use data from a collection of wind parks to determine a passing front. By the front speed, and the relative location of wind parks, the front speed is computed and a correction can be applied to downstream wind parks.The results can be validated and a corresponding error measure can be computed on the basis of measured and numerical data. Our method shall be implemented into a proprietary forecast system with the goal of an automatized detection and correction mechanism.

Published

2020

69. Protection of Wind Park Incorporated Series Compensated Transmission Line Using DMWT

Author

Gaurav Kapoor, Anamika Yadav, and Gaurav Jain

Subjects

Series (mathematics), Computer science, business.industry, Phase (waves), Pattern recognition, Hardware_PERFORMANCEANDRELIABILITY, Wind park, Fault (power engineering), Electric power system, Electric power transmission, Transmission line, Artificial intelligence, business, Meyer wavelet

Abstract

In this study, the discrete Meyer wavelet transform (DMWT) is exploited for the recognition of faults and categorization of faulted phase in the wind park incorporated series compensated transmission line (WPISCTL). The DMWT is immensely inspected using the simulation model of the WPISCTL. The three-phase fault currents measured by the transducers linked at the generator-bus of the power system network are inserted to the proposed DMWT-based design for fault recognition and faulted phase categorization. The recognition of fault and categorization of faulted phase are studied with great appropriateness.

Published

2020

70. Demonstrating Stacked Services of a Battery in a Wind R&D Park

Author

Marianne P. Rodgers, David Watson, Cameron Hastie, and Brady Gaudette

Subjects

Battery (electricity), Engineering, Empirical data, Wind power, Automatic Generation Control, business.industry, 020209 energy, Electrical engineering, Energy Engineering and Power Technology, Response time, 02 engineering and technology, Wind park, Maintenance engineering, Automotive engineering, 0202 electrical engineering, electronic engineering, information engineering, Grid energy storage, Electrical and Electronic Engineering, business

Abstract

This paper describes the demonstration and evaluation of stacking wind power time-shifting and regulation by a 1 MW/2 MWh battery energy storage system (BESS) within a 10 MW wind park. The BESS time-shifted 15.8 MWh of wind power to peak periods while responding to the automatic generation control (AGC) signals that provide regulation over the 24 day test period. Its fast response time and accurate output allowed the BESS to provide both services simultaneously. Limiting the charging to periods when wind power was available lowered the amount of time-shifting and AGC that could be provided. Some form of AGC was delivered from the BESS for 78.5% of the test period and, if it were remunerated at the PJM rate when the test was performed, it would have earned 8627 USD, with 97% from regulation and the rest from time-shifting wind power. Using PJM's performance template, the BESS averaged a performance score of 70.5% during hours when regulation was performed. This work adds to the growing empirical data that is informing models of and policy for grid storage.

Published

2018

71. Three-stage power system restoration methodology considering renewable energies

Author

Christian Hachmann, Martin Braun, Paul Kaufmann, Cong Shen, and Publica

Subjects

Engineering, Three stage, Power system restoration, business.industry, 020209 energy, 020208 electrical & electronic engineering, Energy Engineering and Power Technology, 02 engineering and technology, Wind park, Reliability engineering, Renewable energy, Generator (circuit theory), Electric power system, 0202 electrical engineering, electronic engineering, information engineering, Stage (hydrology), Electrical and Electronic Engineering, business

Abstract

This is a study of a combined load restoration and generator start-up procedure. The procedure is structured into three stages according to the power system status and the goal of load restoration. Moreover, for each load restoration stage, the proposed algorithm determines a load restoration sequence by considering renewable energy such as solar and wind park to achieve objective functions. The validity and performance of the proposed algorithm is demonstrated through simulations using IEEE-39 network.

Published

2018

72. Techno-economic analysis of the wind park Bogdanci in the Republic of Macedonia

Author

Vladimir Mijakovski, Monika Lutovska, and Zoran Trajkovski

Subjects

Economy, Renewable Energy, Sustainability and the Environment, lcsh:Mechanical engineering and machinery, Economics, wind energy, Techno economic, lcsh:TJ1-1570, Wind park, investment costs, electricity production, The Republic

Abstract

Wind energy as a renewable energy source with the highest growth rate in the last two decades, is considered as a very important source of electricity for the future. The forecasts for development of wind energy are highly optimistic and state that this type of energy will be really important in the future. Following recent data and analysis from certain studies, the share of wind energy in the global world electricity generation in 2020 is estimated to reach 12%. In the same context, and in order to reduce high dependence on fossil fuels, Macedonian government took some steps to introduce and enforce utilization of renewable energy sources. First wind park with capacity of 36.8 MW, installed and operated by the state-owned electricity producing company (JSC Macedonian Power Plants - ELEM), started with operation in April 2014, on a location near Bogdanci. The techno-economic analysis regarding its performance in terms of investment costs, operation and maintenance costs, electricity production and return on investment period, considering valid feed-in tariffs for wind energy production in the country is also presented in the article.

Published

2018

73. What is Decentralised Generation?

Author

Jörß, Wolfram, Jørgensen, Birte Holst, Löffler, Peter, Morthorst, Poul Erik, Uyterlinde, Martine, van Sambeek, Emiel, Wehnert, Timon, Jörß, Wolfram, Jørgensen, Birte Holst, Löffler, Peter, Morthorst, Poul Erik, Uyterlinde, Martine, van Sambeek, Emiel, and Wehnert, Timon

Published

2003

74. Mathematical modelling of the combined optimization of a pumped-storage hydro-plant and a wind park

Author

Bayón, L., Grau, J.M., Ruiz, M.M., and Suárez, P.M.

Subjects

*PUMPED storage power plants, *WIND power plants, *MATHEMATICAL optimization, *MATHEMATICAL models, *OPTIMAL control theory, *DEVIATION (Statistics)

Abstract

Abstract: The new Spanish regulations allow wind farms to go to the market to sell the energy generated by their facilities. In the case of over- or under-supply, other producers must reduce or increase their production to resolve the so-called deviation, thereby incurring financial losses. Faced with this situation, wind farms have several options. In this paper we consider one promising method: the combined optimization of a pumped-storage hydro-plant and a wind park. First, we are going to present the mathematical modelling of the resulting problem. Second, we shall solve the optimization problem using Optimal Control techniques and finally we shall present several examples of the combined optimization and analyse which strategy is the best one possible. [Copyright &y& Elsevier]

Published

2013

75. Quantitative and Qualitative Analysis of Concrete Elements in Wind Park

Author

Savić, Aleksandar R., Stević, Zoran, Martinović, Sanja, Vlahović, Milica, Volkov-Husović, Tatjana, Savić, Aleksandar R., Stević, Zoran, Martinović, Sanja, Vlahović, Milica, and Volkov-Husović, Tatjana

Abstract

Establishing a wind park presents a complex enterprise, which involves numerous activities, often impossible to synchronize and drive into the appropriate time-frame. Therefore, in some cases, based on reasonable suspicion, a concern arises regarding the quality of already built components of structures. In such cases, the launch of suitable assessment procedures is required. Standards then define proper methods of in-situ assessment of concrete quality. Statistical methods are implemented in the analysis of the concrete components following the strict rules which, if executed correctly by the well-trained personnel of accredited institutions, provide exact and valid insight into the situation. This paper aspires to describe such a procedure on the basis of thorough in-situ investigation and the subsequent analysis. In this study, a large number of 255 core samples were taken from 17 wind tower concrete structure elements – foundations (out of 57 wind towers in total), and the compressive strength of already placed concrete was evaluated based on this set of results. The compressive strength is proved to be a good parameter for evaluating other aspects of concrete quality, mechanical properties, and durability.

Published

2019

76. Examining erosion resistance of ceramics for electrical engineering applications

Author

Vlahović, Milica, Martinović, Sanja, Stević, Zoran, Savić, Aleksandar R., Volkov Husović, Tatjana, Vlahović, Milica, Martinović, Sanja, Stević, Zoran, Savić, Aleksandar R., and Volkov Husović, Tatjana

Abstract

Establishing a wind park presents a complex enterprise, which involves numerous activities, often impossible to synchronize and drive into the appropriate time-frame. Therefore, in some cases, based on reasonable suspicion, a concern rises regarding the quality of already built components of structures. In such cases, the launch of suitable assessment procedures is required. Stand-ards then define proper methods of in-situ assessment of concrete quality. Statistical methods are implemented in the analysis of the concrete components following the strict rules which, if executed correctly by the well-trained personnel of accredited institutions, provide exact and valid insight in the situation. This paper aspires to describe such procedure on the basis of thorough in-situ investigation and subsequent analysis. In this study, a large number of 255 core samples were taken from 17 wind tower concrete structure elements – foundations (out of 57 wind towers in total), and the compressive strength of already placed concrete was evaluated based on this set of results. The compressive strength is proved to be a good parameter for evaluating other aspects of concrete quality, mechanical properties, and durability.

Published

2019

77. A systematic method for quantifying wind flow modelling uncertainty in wind resource assessment

Author

Clerc, Alex, Anderson, Mike, Stuart, Peter, and Habenicht, Gerd

Subjects

*WIND power plants, *AIR flow, *UNCERTAINTY (Information theory), *ELECTRIC power production, *MATHEMATICAL models, *FINANCIAL risk, *ESTIMATION theory

Abstract

Abstract: An estimate of energy yield uncertainty is essential information for assessing the financial risk of a potential wind farm. The uncertainty associated with the wind flow model can make up a significant part of the overall energy yield uncertainty. In the present work, a systematic method for estimating wind flow modelling uncertainty is presented. The method is easy to implement with basic energy yield variables and is applicable to industry standard wind flow models such as WAsP and MS3DJH. The equations used are empirical fits to real wind flow model errors obtained by analysing historical data from over 500 mast pairs. [Copyright &y& Elsevier]

Published

2012

78. WINDFARMS -- A CHALLENGE SURVEILLANCE SYSTEM IN XXI CENTURY.

Author

MAXIM, Gheorghe and PÎRJOL, Pătru

Subjects

WIND power plants, MILITARY surveillance, RADAR, AIR defenses, ECONOMIC development

Abstract

The extesively utilities of the eolian energy to realize with the great development of the wind farm with great areas. Dispose wind park in the areas of interest for air surveillance systems have an immediately effect on influencing that with immediately consequences about ability to defend of the country. We can identify as a challenge to air surveillance system, in the 21st century, its ability to perform the basic air defense of sovereignty of Romania with increased electrical energy needs which are necessary to the economical development of the country. [ABSTRACT FROM AUTHOR]

Published

2012

79. Introduction of a wind powered pumped storage system in the isolated insular power system of Karpathos–Kasos

Author

Katsaprakakis, Dimitris Al., Christakis, Dimitris G., Pavlopoylos, Kosmas, Stamataki, Sofia, Dimitrelou, Irene, Stefanakis, Ioannis, and Spanos, Petros

Subjects

*WIND power, *PUMPED storage power plants, *ELECTRIC power systems, *FOSSIL fuels, *ELECTRIC power production

Abstract

Abstract: This paper presents a power production system for the isolated insular power system of the islands Karpathos and Kasos. Karpathos and Kasos are two small islands, located in the South-East Aegean Sea (Dodecanese complex) that are not connected to the main power distribution network. Energy production is based exclusively on an autonomous thermal power plant and a small wind park, installed on the island of Karpathos. The maximum annual power demand has been estimated to exceed 12MW by 2014. The mean specific annual energy production cost from the existing system has been calculated at 0.249€/kWh in 2008. The proposed system aims at the maximisation of wind energy penetration and the minimisation of imported fossil fuel use for the production of electricity. The proposed system consists of a wind park and a pumped storage system (PSS). The introduced power system aims to guarantee power production for certain hours per day. A thorough sitting of the system is accomplished. Three different sites for the PSS installation are examined before the optimum is selected. The available wind potential of the islands was evaluated using a wind mast installed within the frame of the examined project’s feasibility study. The annual mean wind velocity at the wind park’s installation site was measured to be higher than 11.5m/s. The introduced system’s set-up, and operation & maintenance cost parameters have been estimated. The dimensioning of the system aims mainly at optimising the project’s economic indexes, following the existing legislative framework. The annual guaranteed energy production has also been maximised. An economic sensitivity analysis is performed. It is estimated that the proposed project can exhibit attractive economic indexes, regardless of the availability of a subsidy, on the condition that the selling price of energy should be configured at 0.3552€/kWh and the selling price of guaranteed power should be 127€/kWyear. Under the above mentioned prerequisites, the project payback period is estimated at 5–6years. The present paper proves the economic feasibility of small scale wind powered pumped storage systems, not taking into account the undoubted environmental benefits. [Copyright &y& Elsevier]

Published

2012

80. First Results of Turbulence Measurements in a Wind Park with the Small Unmanned Meteorological Observer SUMO.

Author

Reuder, Joachim and Jonassen, Marius O.

Subjects

TURBULENCE, OFFSHORE wind power plants, METEOROLOGICAL observations, WIND turbines, ATMOSPHERIC boundary layer, PERFORMANCE evaluation

Abstract

Abstract: The Small Unmanned Meteorological Observer (SUMO), equipped with a miniaturized 5-hole probe for turbulent flow measurements with 100Hz temporal resolution, has for the first time been operated in and around a wind farm. The 5 day campaign from May 9-13 took place at a small wind park of 21 1 MW-turbines close to Vindeby on Lolland, Denmark and was dedicated to the investigation of the effects of wind turbines on boundary layer turbulence. A total of 20 SUMO flight missions carrying the turbulence system have been performed during the campaign. In spite of a few pitfalls related to the fine-tuning of the autopilot system and in the configuration and synchronization of the corresponding data logging systems, this campaign provided promising results indicating the capability and future potential of small UAS for turbulence characterization in and around wind farms. Subsequent flights upwind and downwind of the park revealed qualitatively a distinct enhancement in the turbulence level behind the wind farm. [Copyright &y& Elsevier]

Published

2012

81. Modelling, Control Strategy of DFIG in a Wind Energy System and Feasibility Study of a Wind Farm in Morocco.

Author

Faida, H. and Saadi, J.

Subjects

WIND energy conversion systems, ELECTRIC generators, WIND power plants

Abstract

In this work, our goal in the first time is to control a generator in a wind system to improve its performance. Thus, we chose to model the DFIG for its performance in wind systems, we chose the type of command to implement it and finally the block diagram of the system to regulate. Indeed, the control strategy chosen for the DFIG is a vector control in an active power and reactive stator. The equation, the choice of Landmark two-phase and simplifications necessary for the synthesis of controllers is presented. And a simulation in MATLAB 7 is made in this sense. Secondly, this work is the result of a feasibility study project of electricity generation through wind turbines (WTG). In fact, we analyzed the wind data collected during one year at a site in Morocco. We assessed all graphs that are the basis for achieving the final goal: namely the potential wind site, the Weibull distribution of wind frequencies, analysis of calm wind and diurnal variation, the prediction of energy based on a judicious choice of the machine and the determination of wind direction for implementation of wind turbines. Subsequently, we studied the impact of wind integration on the grid at the point of common coupling, and we proposed an industrial solution for remote management to optimize the exploitation of the production of this wind farm. [ABSTRACT FROM AUTHOR]

Published

2010

82. Simulation of correlated wind speed and power variates in wind parks

Author

Correia, P.F. and Ferreira de Jesus, J.M.

Subjects

*WIND speed, *WEIBULL distribution, *DISTRIBUTION (Probability theory), *TURBINE pumps, *ELECTRIC power, *ELECTRICAL engineering, *SIMULATION methods & models, *AUTOREGRESSION (Statistics)

Abstract

Abstract: In this paper, we develop a simulation procedure to generate realistic, synthetic wind speed variates for wind parks. These wind variates are defined by their marginal Weibull distributions and their auto- and cross-correlations only. In order to deal with these two types of correlation simultaneously, a vector auto-regressive (VAR) model is used. Power output variates are obtained by applying the nonlinear turbine power curves to the correlated wind speed samples. The complete procedure is illustrated through a numerical example with a few turbines. A comparison is established between real wind time series from a wind park and synthetic wind variates simulated with similar, estimated underlying parameters. [Copyright &y& Elsevier]

Published

2010

83. Generador Eólico Superconductor.

Author

Rodrigues, A. Leão

Abstract

This paper presents the properties of high temperature superconductor (HTS) materials in the construction of electrical machines. A disc type configuration synchronous generator with high specific power for future wind power applications is described. The generator is excited by means blocks of HTS ceramic materials. The mechanism to trap the magnetic flux in HTS blocks is explained. To decrease the weight of the generator on the top of the tower, the cryogenic system used consists of a liquid nitrogen storage container located on the ground to reduce weight on the tower. A flux plot per two poles of the machine calculated using the finite element method is presented and the flux density distribution in the air gap of the superconducting disc generator is also displayed. A high efficiency wind park with this type of generators is proposed. [ABSTRACT FROM AUTHOR]

Published

2010

84. Decision analysis on generation capacity of a wind park

Author

Kongnam, C., Nuchprayoon, S., Premrudeepreechacharn, S., and Uatrongjit, S.

Subjects

*DECISION making, *WIND power, *ELECTRIC power production, *WIND speed, *WEIBULL distribution, *MATHEMATICAL optimization, *NONLINEAR programming, *ECONOMICS

Abstract

Abstract: The investment decision on generation capacity of a wind park is difficult when wind studies or data are neither available nor sufficient to provide adequate information for developing a wind power project. Although new measurement is possible but it is definitely time consuming. To determine the optimum capacity, decision analysis techniques are proposed in this paper to cope with uncertainties arising from wind speed distribution and power–speed characteristics. The wind speed distribution is modeled from the measured data, the Rayleigh distribution, and the Weibull distribution. The power–speed curve of a wind turbine from cut-in speed to rated speed is modeled by using linear, parabolic, cubic, and quadratic characteristics. The optimization model is formulated as a mixed-integer nonlinear programming problem. The constraints are considered as interval bounds so that a set of feasible solutions is obtained. The optimum solution can be determined by using the profit-to-cost and profit-to-area ratios as performance metrics of investment. Decision analysis rules are then applied to overcome the uncertainty problem and to refine the investment plan. The proposed procedure has been tested with the wind power project of the Electricity Generating Authority of Thailand. [Copyright &y& Elsevier]

Published

2009

85. Visual impact evaluation of a wind park in a Greek island

Author

Tsoutsos, Theocharis, Tsouchlaraki, Androniki, Tsiropoulos, Manolis, and Serpetsidakis, Michalis

Subjects

*WIND turbines, *TURBOMACHINES, *ELECTRIC generators, *RENEWABLE energy sources

Abstract

Abstract: The visual impact of wind turbines is one of the main factors affecting public acceptance of wind parks. This paper evaluates the visual impact of a wind park in Chania, Crete, using the Spanish method of evaluation. The outcomes are combined with the psychometric testing of the residents by the use of questionnaires and with the values of the Spanish method about various scenarios concerning the size of the wind park (double, half, one wind turbine). The results of the study prove that the quantification of the potential visual impact could minimize this, apparently, main reason that affects public acceptance. [Copyright &y& Elsevier]

Published

2009

86. Perception of Environmental Impacts of Wind Farms in Agricultural Areas of Northeast Brazil.

Author

Sobrinho Junior, Manoel Fortunato, Ramirez Hernandez, Maria Carolina, Albano Amora, Sthenia Santos, and Costa de Morais, Elis Regina

Subjects

*GEOGRAPHICAL perception, *WIND power, *WIND power plants, *FOSSIL fuels, *ENVIRONMENTAL literacy, *OFFSHORE wind power plants, *ALTITUDES

Abstract

In recent years, wind power in Brazil has emerged as an alternative to diversify the country′s energy mix and minimize the emission of pollutants derived from fossil fuels. The state of Rio Grande do Norte, in the Brazilian Northeast, has considerable potential for the generation of wind energy due to the occurrence of strong winds in many areas along the coast and in the interior of the state, in places with higher altitudes. However, wind energy, despite being considered clean and renewable, can cause environmental impacts in those places. Thus, the present study analyzed the perception of environmental impacts caused by the installation of wind farms in the agricultural areas of Northeast Brazil. The study was carried out in the municipality of Serra do Mel, in the western region of the state of Rio Grande do Norte, based on a survey of local farmers. The study concluded that farmers live without major problems and without apparent conflicts with wind farms but have little knowledge about the environmental impacts. In the perception of most farmers, there are few negative environmental impacts, and those that exist are barely noticed or still do not cause damage to most farmers in the region. [ABSTRACT FROM AUTHOR]

Published

2022

87. Visual Impact Evaluation Methods of Wind Parks: Application for a Greek Island.

Author

Tsoutsos, Theocharis, Tsouchlaraki, Androniki, Tsiropoulos, Manolis, and Kaldellis, John

Subjects

WIND turbines, WIND power, RENEWABLE energy sources

Abstract

One of the main factors affecting public acceptance of wind parks is their visual impact. Very often this problem can be solved by taking into account certain methods and techniques. This paper reviews the most common methods (such as Quechee analysis, the Spanish method, the method of visual limits); as example is presented the evaluation of the visual impact of a wind park in Chania, Crete. Besides, the outcomes are combined with the psychometric testing of the residents by the use of questionnaires and with the values of the Spanish method. The results of the study prove that the quantification of the potential visual impact could minimize this, apparently, main reason that affects public acceptance. [ABSTRACT FROM AUTHOR]

Published

2009

88. Harmonic, interharmonic and supraharmonic characterisation of a 12 MW wind park based on field measurements

Author

Martin Oeschger, Jan Meyer, Britta Heimbach, Bruno Wartmann, Ana Maria Blanco, and Marco Mangani

Subjects

Field (physics), business.industry, 020209 energy, 0202 electrical engineering, electronic engineering, information engineering, Harmonic, Electrical engineering, Environmental science, 02 engineering and technology, General Medicine, Wind park, business

Published

2017

89. Acoustic dose-behavioral response relationship in sea bass (Dicentrarchus labrax) exposed to playbacks of pile driving sounds

Author

Nancy Jennings, Ronald A. Kastelein, Aimée Kommeren, Jessica Schop, and Lean Helder-Hoek

Subjects

0106 biological sciences, Startle response, Sea bass, Wind, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Marine fish, Sound exposure, Onderzoeksformatie, medicine, Animals, Sound pressure, Swimming, Sound (geography), Behavior, geography, geography.geographical_feature_category, Wind park, Behavior, Animal, biology, medicine.diagnostic_test, 010604 marine biology & hydrobiology, Acoustics, General Medicine, Offshore industry, biology.organism_classification, Pollution, Fishery, Sound, Behavioral response, Acoustic Stimulation, Environmental science, Pile driving, Bass, Dicentrarchus, Noise, Pile, Animal Distribution

Abstract

The foundations of offshore wind turbines are attached to the sea bed by percussion pile driving. Pile driving sounds may affect the behavior of fish. Acoustic dose-behavioral response relationships were determined for sea bass in a pool exposed for 20 min to pile driving sounds at seven mean received root-mean-square sound pressure levels [SPLrms; range: 130-166 dB re 1 μPa; single strike sound exposure level (SELss) range: 122-158; 6 dB steps]. Initial responses (sudden, short-lived changes in swimming speed and direction) and sustained responses (changes in school cohesion, swimming depth, and speed) were quantified. The 50% initial response threshold occurred at an SELss of 131 dB re 1 μPa2 s for 31 cm fish and 141 dB re 1 μPa2 s for 44 cm fish; the small fish thus reacted to lower SELss than the large fish. Analysis showed that there is no evidence, even at the highest sound level, for any consistent sustained response to sound exposure by the study animals. If wild sea bass are exposed to pile driving sounds at the levels used in the present study, there are unlikely to be any adverse effects on their ecology, because the initial responses after the onset of the piling sound observed in this study were short-lived.

Published

2017

90. EVALUATION OF GREEK WIND PARKS VISUAL IMPACT "PUBLIC ATTITUDE AND EXPERTS' OPINION".

Author

Kaldellis, John K.

Abstract

The continuous electricity demand amplification and the retirement of aged electrical power stations emphasize the necessity for new, efficient and environmental friendly electricity generation plants. In view of this unquestionable need for electricity in Greece (mainland and island), several private and public investors have repeatedly tried to site new wind energy production facilities, an activity which has often raised serious local opposition, as it involves risk analysis and management. As a result the local wind energy market is almost stagnating favouring the imported carbon based fuels and accelerating the exploitation of the limited national lignite reserves. In previously published work extended public opinion surveys highlight a remarkable negative public attitude of local people against wind power stations, based on visual impact. In order to examine the above-mentioned problem, a complementary to the already presented public opinion surveys study is carried out. Initially the main parameters affecting the wind parks visual impact are presented, while special emphasis is laid on quantifying the corresponding impact. Accordingly, a new database is created, comprising the main characteristics along with the picture of most wind turbines operating in Greece. Finally, an evaluation process of existing wind parks is described on the basis of a selected evaluation group (experts, government officials and local society representatives), which analyzes the available information using a Delphi technique according to specific criteria. The results obtained are accordingly compared with the data of existing public opinion surveys in the vicinity of each installation investigated. [ABSTRACT FROM AUTHOR]

Published

2006

91. Offshore wind farm layout optimization regarding wake effects and electrical losses

Author

Rui Castro and Lus Amaral

Subjects

Optimization problem, 060102 archaeology, Computer science, 020209 energy, Particle swarm optimization, CPU time, 06 humanities and the arts, 02 engineering and technology, Wind park, Wake, Grid, Offshore wind power, Artificial Intelligence, Control and Systems Engineering, Genetic algorithm, 0202 electrical engineering, electronic engineering, information engineering, 0601 history and archaeology, Electrical and Electronic Engineering, Simulation, Energy (signal processing), Marine engineering

Abstract

A major development of the offshore wind energy market is being witnessed. Since the implicated costs are considerably high, it is extremely important to ensure that the energy production is maximum, so that the costs per energy unit are minimized. Thus, the turbines should be strategically positioned to extract as much energy as possible from the wind, considering wake effect losses, as well as internal grid electrical losses. In order to avoid turbines to be placed in unrealistic positions, they should be distributed according to a grid of rectangular shaped cells; each of these is divided in multiple sub-cells. The problem of finding the turbines optimal position among the pre-defined sub-cells so that maximum annual energy is produced could be addressed using a deterministic approach. However, the problem becomes unfeasible when the number of turbines and/or the number of sub-cells increase. To overcome this difficulty, optimization techniques should be used. Genetic Algorithm and Particle Swarm Optimization are approached in this paper. This paper deals with the wind park layout optimization problem. A methodology to position the turbines inside a wind park so that the annual energy production is maximum is proposed. The results proved that the meta-heuristic method is much more CPU time efficient in providing the maximum annual year production as compared to the traditional deterministic approach.

Published

2017

92. Passive radar collision warning system PARASOL

Author

Martin Ummenhofer, Heiner Kuschel, Jorg Heckenbach, and Publica

Subjects

020301 aerospace & aeronautics, Engineering, Wind power, business.industry, Pillar, Aerospace Engineering, Collision system, 020206 networking & telecommunications, 02 engineering and technology, Wind park, Passive radar, Renewable energy, 0203 mechanical engineering, Space and Planetary Science, On demand, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Telecommunications, business, Collision avoidance

Abstract

Wind energy is an important pillar of the renewable energy mix and has been growing continuously during recent years. Its acceptance among citizens, however, is not only fostered by the environmentally friendly attitude of wind energy, but also restricted by its visual and acoustic appearance, modifying the picture of nature. In particular, at night, when the red collision avoidance illuminations print blinking lines on the sky, people feel bothered by this safety feature. Moreover, birds are attracted by the red blinking lights and may suffer fatal collisions with the blades of the wind turbines. Hence, switching on the collision avoidance illumination on demand, only when an aircraft appears within a protection sector of a wind park, is a requirement of the wind energy community.

Published

2017

93. Valorization of potentials of wind energy in Montenegro

Author

M Uros Karadzic, V Radoje Vujadinovic, and M Esad Tombarevic

Subjects

estimation of potential, Wind power, Renewable Energy, Sustainability and the Environment, business.industry, lcsh:Mechanical engineering and machinery, 020209 energy, Electric potential energy, Legislation, 02 engineering and technology, Environmental economics, Energy sector, Renewable energy, wind energy, 0202 electrical engineering, electronic engineering, information engineering, State of art, wind, wind generator, Environmental science, lcsh:TJ1-1570, business, Montenegro, wind park, Energy (signal processing)

Abstract

Investments in energy sector are usually long term processes both in construction and exploitation phase, and therefore require many conditions to be satisfied, mostly from legislative and technical sector. While the legislative can change in accordance with economy activities in the country, technical data (on-site measurements) which are the main base for energy facility design, need to be reliable as much as possible. Wind energy has a significant global potential which exceeds the world?s electrical energy consumptions. This paper presents the estimation of wind energy potentials in Montenegro, based on all previous available studies in this field. The wind energy potential in Montenegro is based on a combination of 3-D numerical simulations of wind fields on the entire territory, and comprehensive on-site measurements. The preliminary studies show that there is a potential of areas with high and mean values of a capacity factor about 400 MW, and annual production of 900 GWh of electric energy. The share of wind parks in the total installed power in Montenegro is planned to be about 8%, while an adequate ratio of wind parks in an annual production from renewable sources (large hydro power plants are included here) is estimated to be 11.4%. The paper presents the current state of art in the field of building of wind parks in Montenegro. A particular attention was paid to the legislation framework and strategic documents in the energy area in Montenegro.

Published

2017

94. Income loss due to wind energy rejected by the Crete island electrical network – the present situation

Author

Kaldellis, J.K., Kavadias, K.A., Filios, A.E., and Garofallakis, S.

Subjects

*INCOME, *WIND power

Abstract

During the last 4 years, a substantial wind energy penetration was encountered mainly in the Greek mainland. At the same time, limited size new wind-parks were built in the numerous Greek islands, although their wind potential is clearly higher than the one for the mainland and their wind energy generation could be used to replace electricity produced by diesel engines and gas turbines at moderate and high cost, respectively. This negative conclusion for the Greek island communities underlines the inability of the local weak autonomous electrical networks to entirely absorb the gradually increased wind-energy production. Thus, in the present work, special attention is paid to correctly estimate the annual income loss of existing wind-parks, due to the wind energy rejection by the autonomous island electrical grids. For this purpose a complete and reliable method is developed, able to realistically calculate the instantaneous wind-power production rejected by the local electricity-generation system, according to the information provided by the system operator and the wind-park owners. The present analysis is based on extensive time series of real data and measurements. Applying the proposed method to the Crete-island network situation, a remarkable amount of wind produced electric-energy rejection is predicted for the last 3 years, which is definitely rising in the course of time. Calculation results are well in agreement with the official monthly data provided by the local power-utility, in view of the existing power-purchase agreement between the private wind-power investors and the local network management. [Copyright &y& Elsevier]

Published

2004

95. Simulation von Spannungsschwankungen durch Windparks.

Author

Raber, C.

Abstract

Copyright of e & i Elektrotechnik und Informationstechnik is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2002

96. Large Scale Solar and Wind Power: Systemic Impact

Author

S. Filippov and Marina D. Dilman

Subjects

Wind power, Meteorology, Scale (ratio), business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Thermal power station, Wind park, Renewable energy, Power (physics), Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics, Environmental science, Power grid, business, Physics::Atmospheric and Oceanic Physics

Abstract

Large scale introduction of solar and wind parks into power grids results in negative consequences. That is mainly due to the stochastic nature of the power generated by the parks. Now, we have assessed the negative impacts of the solar and wind park introduction into the power grid of the South of Russia.

Published

2019

97. A Self-learning Model to Detect Icing Alarm Based on Multi-agents for Wind Park

Author

Ze-san Liu, Ting-shun Li, and Yuan-yi Xia

Subjects

ALARM, Meteorology, Environmental science, Wind park, Icing

Published

2019

98. Análise de ressonância em sistemas de potência com parques eólicos baseados em GIDA

Author

Andres de Jesus Arguello Guillen, Freitas Filho, Walmir de, 1971, Silva, Luiz Carlos Pereira da, Saavedra Mendez, Osvaldo Ronald, Universidade Estadual de Campinas. Faculdade de Engenharia Elétrica e de Computação, Programa de Pós-Graduação em Engenharia Elétrica, and UNIVERSIDADE ESTADUAL DE CAMPINAS

Subjects

Electric energy, Wind park, Ressonância, Parque eólico, Induction electric machines, Frequencias harmonicas, Stability, Resonance, Energia elétrica, Máquinas elétricas de indução, Estabilidade, Harmonic frequencies

Abstract

Orientador: Walmir de Freitas Filho Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação Resumo: O incremento da penetracao de parques eolicos (PE) baseados em geradores de inducao duplamente alimentados (GIDA) no sistema de potencia eletrica pode trazer problemas de qualidade de energia relacionados com ressonancia de alta frequencia no intervalo de 180 Hz e 1500 Hz. Dois problemas potenciais sao analisados: Ressonancia instavel pela carateristica de amortecimento negativo dos conversores tipo fonte de tensao (VSC); e ressonancias mal amortecidas pela excitacao de componentes de distorcao de tensao na rede proximos a 5...., 7...., 11.... e 13.... harmonicas. Estas ressonancias sao estudadas com numerosas simulacoes de transitorios eletromagneticos (TEM) ja que levam em conta as carateristicas dinamicas do circuito mas com alto nivel de detalhe e custo computacional. Este documento apresenta o desenvolvimento de metodos simplificados para estudar as ressonancias. Inicialmente, esta dissertacao confirma que em frequencias entre 180 Hz e 1500 Hz, o GIDA pode-se modelar como uma impedancia linear com o modelo average dos VSCs. Posteriormente, desenvolve-se um grafico para identificar rapidamente se um parque eolico vira instavel. Este grafico estabelece uma regiao de risco: se as caracteristicas do parque eolico e da rede (relacao de curto circuito e relacao de potencia compensacao reativa) estao localizadas dentro desta regiao, o parque pode virar instavel. Este problema pode-se mitigar com uma escolha adequada de parametros de controle, e por tanto, nao deveria representar um problema geral para o operador de rede. Mesmo assim, a ressonancia mal amortecida pode ocorrer e deve-se considerar ao operar e projetar PEs baseados em GIDA. Dois graficos adicionais sao propostos para analisar o risco de ressonancias mal amortecidas no sistema. Os graficos estabelecem a regiao de risco correlacionando o nivel de curto-circuito da rede no ponto de acoplamento comum, com a capacidade nominal do parque eolico e o nivel de compensacao de potencia reativa. Dois parametros delimitam a regiao: A frequencia de ressonancia, e a amplificacao de tensao com respeito a distorcoes harmonicas na rede. Os tres graficos propostos nesta dissertacao podem-se obter analiticamente com os modelos de impedancia dos PEs sem necessidade de simulacao. Um metodo baseado em medicao tambem foi desenvolvido para obter os graficos sem conhecimento previo das caracteristicas do parque. Estes metodos para obter os graficos foram validados com simulacoes detalhadas de transitorios eletromagneticos. Os graficos propostos podem serfacilmente obtidos e consultados por engenheiros, e apresentam grande potencial para facilitar a analise de ressonancia em sistemas com PEs Abstract: The increase of the penetration of wind parks (WP) based on doubly-fed induction generators (DFIG) in electric power systems may bring problems associated with high-frequency resonances in the range between 180 Hz and 1500 Hz. There are two main phenomena to be analyzed: unstable resonances, when a resonance occurs in frequencies where the DFIG voltage source converters (VSC) have negative damping characteristic; and weakly damped resonances close to frequencies such as 5th, 7th, 11th and 13th harmonics, which are typically present as background grid distortions. Traditionally, these resonances are studied with electromagnetic transient (EMT) simulations as they are able to account for all dynamic characteristics of the circuit. However, numerous EMT simulations are generally required in the studies, which leads to high computational costs. This dissertation develops simplified approaches to address these resonances. Prior to developing these methods, it is first confirmed that, at frequencies between 180 Hz and 1500 Hz, the DFIG can be modeled as a linear impedance using the average model of the VSCs. Then, a chart is developed to quickly identify if a WP can become unstable. This chart establishes a risk region: if WP and grid characteristics (short-circuit level to wind park size ratio and reactive compensation to wind park size ratio) lay inside this region, the WP can become unstable. It is found that this risk region can be significantly reduced by properly designing the control parameters of the converters. Therefore, high-frequency instabilities are unlikely to become a general concern for utilities. Nevertheless, weakly damped harmonic resonances can still occur and must be considered when operating and designing DFIG-based WPs. Two additional charts are proposed to analyze the risk of weakly damped harmonic resonances in the system. The charts establish a risk region by correlating the short-circuit level of the grid at the point of common coupling, with the WP rated power capacity and reactive power compensation level. Two parameters delimit this risk region: Resonance frequency and voltage amplification with respect to background harmonic distortions in the grid. All three charts proposed in this dissertation can be obtained analytically, based on wind park impedance models, without the need for running any simulation. A measurement-based method is also developed to obtain these charts without prior knowledge of any wind park characteristic. These methods for obtaining the charts were properly validated with detailed EMT simulations. The proposed charts can be easily obtained and consulted by engineers, and have the potential to greatly facilitate resonance assessment in systems with WPs Mestrado Energia Elétrica Mestre em Engenharia Elétrica

Published

2019

99. A REVIEW OF WIND TURBINE WAKE MODELS FOR WIND PARK OPTIMIZATION

Author

Caio Leandro Suzano Massa, Antonio Neiva, Vanessa Guedes, and Daniel Davy Bello de Freitas

Subjects

Environmental science, Wind park, Wake, Turbine, Marine engineering

Published

2019

100. Joint market bid of a hydroelectric system and wind parks

Author

Marija Jurić, Goran Knežević, Danijel Topić, and Srete Nikolovski

Subjects

Optimization problem, General Computer Science, Operations research, business.industry, Computer science, 020206 networking & telecommunications, 02 engineering and technology, Wind park, Optimal bid, Electricity market, Hydropower plant, Production plan, Profit (economics), Control and Systems Engineering, Hydroelectricity, Cascade, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Electrical and Electronic Engineering, business, Linear optimization problem, Hydropower

Abstract

This paper presents the model for finding an optimal joint bid of hydroelectric systems and wind parks on a day-ahead electricity market. The optimization problem is presented as a two-stage model where the goal of the first stage is to maximize the profit according to the main scenario and the obtained production plan is then tested in all other scenarios that can occur in the second stage where the goal is to minimize the profit reduction caused by imbalance penalties or changes in expected day-ahead prices. The optimization procedure is presented as a mixed integer linear optimization problem. The proposed model is applied in a case study in order to present the main model features. Production assembly in the case study is based on real power plants and consists of two cascade hydropower plants and two wind parks.

Published

2019