• Title/Summary/Keyword: Maximum wind speed

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Comparison of Response Properties Determined in Two Torque Control Methods for a 2.75-MW Wind Turbine Under Turbulence Wind Speed (난류풍속에 대한 MW급 풍력터빈의 토크제어 방법에 따른 응답 특성 비교)

  • Lim, Chae-Wook;Seo, Kang-Yoon
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.34 no.12
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    • pp.1885-1891
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    • 2010
  • Torque control of wind turbines is important when the wind speed is below the rated speed. The main objective of torque control is to extract the maximum power from the potential aerodynamic power of the wind. Torque control methods for wind turbines are classified as torque-mode control and speed-mode control. In torque-mode control, which is well known and traditionally used in many wind turbines, the torque demand of the generator is proportional to the square of the generator speed. In speed-mode control, a PI controller is used to generate the appropriate torque demand of the generator. In this study, the two torque control methods mentioned above are applied to a 2.75-MW wind turbine; simulation results for real turbulence wind speeds are presented, and the response properties are compared.

Maximum Output Power Control for Stand-Alone Wind Power Generation System Using Cage-Type Induction Generators (농형 유도발전기를 이용한 독립형 풍력발전시스템의 최대출력제어)

  • 김형균;이동춘;석줄기
    • The Transactions of the Korean Institute of Power Electronics
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    • v.9 no.1
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    • pp.73-80
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    • 2004
  • In this paper, a maximum output power control of stand-alone cage-type induction generator systems for wind power generation is proposed. The induction generator is operated in a vector-controlled mode, which is excited with d-axis current and of which torque is controlled with q-axis current. The generator speed is controlled by this torque, along which speed the generator produces the maximum output power. The generated power charges the battery bank for energy storage through an ac/dc PWM converter. The proposed scheme has been verified for the wind turbine simulator system which consists of M-G set.

Variation of Capacity Factors by Weibull Shape Parameters (와이블 형상계수에 따른 이용률 변화)

  • Kwon, Il-Han;Kim, Jin-Han;Paek, In-Su;Yoo, Neung-Soo
    • Journal of the Korean Solar Energy Society
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    • v.33 no.1
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    • pp.32-39
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    • 2013
  • Effects of Weibull shape parameter, k, on capacity factors of wind turbines were investigated. Wind distributions with mean wind speeds of 5 m/s, 6 m/s, 7 m/s and 8 m/s were simulated and used to estimate the annual energy productions and capacity factors of a 2MW wind turbine for various Weibull shape parameters. It was found from the study that the capacity factors of wind turbines are much affected by Weibull shape parameters. When the annual mean wind speed at the hub height of a wind turbine was about 7 m/s, and the air density was assumed to be 1.225 $kg/m^3$, the maximum capacity factor of a 2 MW wind turbine having a rated wind speed of 13 m/s was found to occur with the shape parameter of 2. It was also found that as the mean wind speed increased, the Weibull k parameter which yielded the maximum capacity factor increased. The simulated results were also validated by predictions of capacity factors of wind turbines using wind data measured in complex terrain.

Grid faults characteristics simulation of inverter-fed induction generator (인버터 부착형 농형 유도발전기의 계통고장특성 모의)

  • Hong, Jitae;Kwon, Soonman;Kim, Chunkyung;Lee, Jongmoo;Cheon, Jongmin;Kim, Hong-Ju;Kim, Heeje
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.11a
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    • pp.43.1-43.1
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    • 2011
  • The detail simulation modeling of fully-fed induction generator is investigated through PC based MATLAB/Simulink environment. Generator's stator currents are controlled by indirect vector control method. In this method, generator side converter controls the maximum excitation (air gap flux) by stator d-axis current and controls generator torque by stator q-axis current. Induction generator speed is controlled by tip speed ratio (TSR) upon the wind speed variations in order to generate the maximum output power. The generator torque model is specified as a 3-blade wind turbine with rating, then, the model is simulated under normal operating condition and three different fault conditions. The matlab model designed for fully-fed induction generator based wind farm provides good performance under normal and grid fault conditions. It provides good results for different pwm techniques and fault conditions except the single-phase line to ground fault, which should be verified with real time data from wind farms.

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Conceptual Design Study of a Low-Speed Wind Tunnel for Performance Test of Wind Turbine (풍력터빈 성능시험을 위한 풍동 개념연구)

  • Kang, Seung-Hee;Choi, Woo-Ram;Kim, Hae-Jeong;Kim, Yong-Hwi
    • 한국신재생에너지학회:학술대회논문집
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    • 2009.11a
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    • pp.431-434
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    • 2009
  • Conceptual study of an open-circuit type low-speed wind tunnel for test of wind turbine blade is conducted. The tunnel is constituted of a settling chamber, a contraction, closed and open test sections, a diffuser, two corners, a cross leg and a fan and motor. For the performance test, the closed test section width of 1.8 m, height of 1.8 m and length of 5.25 m is selected. The open test section with dimension width of 1.8 m, height of 1.8 m and length of 4.14 m is adopted for aeroacoustic test. The contraction ratio is 9 to 1 and maximum speed in the closed test section is 67 m/sec. Input power in the tunnel is about 238 kW and its energy ratio is 3.6. The wind tunnel designed in present study will be an effective tool in research and development of wind turbine.

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Model-Based Loss Minimization Control for Induction Generators - in Wind Power Generation Systems (모델 기반의 풍력발전용 유도발전기의 최소 손실 제어)

  • Abo-Khalil, Ahmed G.;Lee, Dong-Choon
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.55 no.7
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    • pp.380-388
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    • 2006
  • In this paper, a novel control algorithm to minimize the power loss of the induction generator for wind power generation system is presented. The proposed method is based on the flux level reduction, where the flux level is computed from the machine model for the optimum d-axis current of the generator. For the vector-controlled induction generator, the d-axis current controls the excitation level in order to minimize the generator loss while the q-axis current controls the generator torque, by which the speed of the induction generator is controlled according to the variation of the wind speed in order to produce the maximum output power. Wind turbine simulator has been implemented in laboratory to validate the theoretical development. The experimental results show that the loss minimization process is more effective at low wind speed and that the percent of power loss saving can approach to 25%. Experimental results are shown to verify the validity of the proposed scheme.

Modeling of Grid-connected Wind Energy Conversion System Using PSCAD/EMTDC (PSCAD/EMTDC를 이용한 계통연계형 풍력발전시스템 모델링)

  • Kim, Seul-Ki;Kim, Eung-Sang
    • Proceedings of the KIEE Conference
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    • 2002.11d
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    • pp.320-322
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    • 2002
  • The paper presents an electrical model of a grid-connected wind energy conversion system (WECS) with a variable speed drive, a fixed pitch angle, a synchronous generator as a wind generator and AC-DC-AC conversion scheme for simulating dynamic behaviors and performance responding to varying wind speed input. The electric output of the WECS is controlled by the AC-DC-AC conversion scheme, the objective of which is to capture the maximum active power under varying wind conditions and to keep the voltage of WECS terminal bus at a specific level. Aerodynamic models are used to incorporate the power characteristics to wind speed. The modeling and simulation of the WECS are realized on PSCAD/EMTDC environment.

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Development of hardware simulator for PMSG wind power system composed of anemometer and motor-generator set (풍속계와 Motor-Generator를 이용한 영구자석동기발전기 풍력발전시스템 하드웨어 시뮬레이터 개발)

  • Jeong, Jong-Kyou;Han, Byung-Moon
    • Proceedings of the KIPE Conference
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    • 2010.11a
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    • pp.248-249
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    • 2010
  • This paper describes development of hardware simulator for the PMSG(Permanent Magnet Synchronous Generator) wind power system, which was designed using real wind data. The simulator consists of a realistic wind turbine model using anemometer, vector drive, induction motor. The turbine simulator generates torque and speed signals for a specific wind turbine with respect to given wind speed. This torque and speed signals are scaled down to fit the input of 3kW PMSG. The PMSG-side converter operates to track the maximum power point and the grid-side inverter controls the active and reactive power supplied to the grid. The operational feasibility was first verified by computer simulations with PSCAD/EMTDC. The feasibility of real system implementation was confirmed through experimental works with a hardware set-up.

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Study on Reserve Requirement for Wind Power Penetration based on the Cost/Reliability Analysis

  • Shin, Je-Seok;Kim, Jin-O;Bae, In-Su
    • Journal of Electrical Engineering and Technology
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    • v.12 no.4
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    • pp.1397-1405
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    • 2017
  • As the introduction of wind power is steadily increasing, negative effects of wind power become more important. To operate a power system more reliable, the system operator needs to recognize the maximum required capacity of available generators for a certain period. For recognizing the maximum capacity, this paper proposes a methodology to determine an optimal reserve requirement considering wind power, for the certain period in the mid-term perspective. As wind speed is predicted earlier, the difference of the forecasted and the actual wind speed becomes greater. All possible forecast errors should be considered in determining optimal reserve, and they are represented explicitly by the proposed matrix form in this paper. In addition, impacts of the generator failure are also analyzed using the matrix form. Through three main stages which are the scheduling, contingency and evaluation stages, costs associated with power generation, reserve procurement and the usage, and the reliability cost are calculated. The optimal reserve requirement is determined so as to minimize the sum of these costs based on the cost/reliability analysis. In case study, it is performed to analyze the impact of wind power penetration on the reserve requirement, and how major factors affect it.

The Spatial and temporal distributions of NET(Net Effective Temperature) with a Function of Temperature, Humidity and Wind Speed in Korea (한반도의 날씨 스트레스 지수 NET(Net Effective Temperature) 분포의 특성)

  • 허인혜;최영은;권원태
    • Journal of the Korean Geographical Society
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    • v.39 no.1
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    • pp.13-26
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    • 2004
  • This paper examined the possibility of NET application for a relative weather stress index in Korea. The characteristic of NET distribution used temperature, relative humidity, wind speed which forecasting at Korean Meteorological Administration were analyzed. Regional critical values of daily maximum NET of stress index for summer resembled the distribution of daily maximum temperature because were not impacted wind and humidity but temperature. Regional critical values of daily minimum NET of stress index for winter distributed variously compared with summer. The highland region and the northern region of Seoul were impacted of low temperature and coastal region which strong wind. The occurrences of stressful days did not vary in summer, but obviously increased in winter after mid-1990s.