• 제목/요약/키워드: Power State

검색결과 5,841건 처리시간 0.039초

Study on Influences and Elimination of Test Temperature on PDC Characteristic Spectroscopy of Oil-Paper Insulation System

  • Liu, Xiao;Liao, Ruijin;Lv, Yandong;Liu, Jiefeng;Gao, Jun;Hao, Jian
    • Journal of Electrical Engineering and Technology
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    • 제10권3호
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    • pp.1107-1113
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    • 2015
  • Test temperature is an important factor affecting the measurement results of dielectric response of field power transformers. In order to better apply the polarization and depolarization current (PDC) to the condition monitoring of oil-paper insulation system in power transformers, the influences and elimination method of test temperature on PDC characteristic spectroscopy (PDC-CS) were investigated. Firstly, the experimental winding sample was measured by PDC method at different test temperatures, then the PDC-CS was obtained from the measurement results and its changing rules were discussed, which show that the PDC-CS appears a horizontal mobility with the rise of temperature. Based on the rules, the “time temperature shift technique” was introduced to eliminate the influence of test temperature. It is shown that the PDC-CS at different test temperatures can be converted to the same reference temperature coincident with each other.

A QEE-Oriented Fair Power Allocation for Two-tier Heterogeneous Networks

  • Ji, Shiyu;Tang, Liangrui;He, Yanhua;Li, Shuxian;Du, Shimo
    • KSII Transactions on Internet and Information Systems (TIIS)
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    • 제12권5호
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    • pp.1912-1931
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    • 2018
  • In future wireless network, user experience and energy efficiency will play more and more important roles in the communication systems compared to their roles at present. Quality of experience (QoE) and Energy Efficiency (EE) become the widely used metrics. In this paper, we study a combinatorial problem of QoE and EE and investigate a fair power allocation in heterogeneous networks. We first design a new metric, QoE-aware EE (QEE) to reflect the relationship of QoE and energy. Then, the concept of Utopia QEE is introduced, which is defined as the achievable maximum QEE in ideal conditions, for each user. Finally, we transform the power allocation process to an optimization of ratio of QEE and Utopia QEE and use invasive weed optimization (IWO) algorithm to solve the optimization problem. Numerical simulation results indicate that the proposed algorithm can get converged and efficiently improve the system energy efficiency and the QoE for each user.

Training an Artificial Neural Network for Estimating the Power Flow State

  • Sedaghati, Alireza
    • 제어로봇시스템학회:학술대회논문집
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    • 제어로봇시스템학회 2005년도 ICCAS
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    • pp.275-280
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    • 2005
  • The principal context of this research is the approach to an artificial neural network algorithm which solves multivariable nonlinear equation systems by estimating the state of line power flow. First a dynamical neural network with feedback is used to find the minimum value of the objective function at each iteration of the state estimator algorithm. In second step a two-layer neural network structures is derived to implement all of the different matrix-vector products that arise in neural network state estimator analysis. For hardware requirements, as they relate to the total number of internal connections, the architecture developed here preserves in its structure the pronounced sparsity of power networks for which state the estimator analysis is to be carried out. A principal feature of the architecture is that the computing time overheads in solution are independent of the dimensions or structure of the equation system. It is here where the ultrahigh-speed of massively parallel computing in neural networks can offer major practical benefit.

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Hybrid medium model for conjugate heat transfer modeling in the core of sodium-cooled fast reactor

  • Wang, X.A.;Zhang, Dalin;Wang, Mingjun;Song, Ping;Wang, Shibao;Liang, Yu;Zhang, Yapei;Tian, Wenxi;Qiu, Suizheng;Su, G.H.
    • Nuclear Engineering and Technology
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    • 제52권4호
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    • pp.708-720
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    • 2020
  • Core-wide temperature distribution in sodium-cooled fast reactor plays a key role in its decay heat removal process, however the prediction for temperature distribution is quite complex due to the conjugate heat transfer between the assembly flow and the inter-wrapper flow. Hybrid medium model has been proposed for conjugate heat transfer modeling in the core. The core is modeled with a Realistic modeled inter-wrapper flow and hybrid medium modeled assembly flow. To validate present model, simulations for a three-assembly model were performed with Realistic modeling, traditional porous medium model and hybrid medium model, respectively. The influences of Uniform/Non-Uniform power distribution among assemblies and the Peclet number within the assembly flow have been considered. Compared to traditional porous medium model, present model shows a better agreement with in Realistic modeling prediction of the temperature distribution and the radial heat transfer between the inter-wrapper flow and the assembly flow.

A Reliability Evaluation Model for the Power Devices Used in Power Converter Systems Considering the Effect of the Different Time Scales of the Wind Speed Profile

  • Ji, Haiting;Li, Hui;Li, Yang;Yang, Li;Lei, Guoping;Xiao, Hongwei;Zhao, Jie;Shi, Lefeng
    • Journal of Power Electronics
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    • 제16권2호
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    • pp.685-694
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    • 2016
  • This paper presents a reliability assessment model for the power semiconductors used in wind turbine power converters. In this study, the thermal loadings at different timescales of wind speed are considered. First, in order to address the influence of long-term thermal cycling caused by variations in wind speed, the power converter operation state is partitioned into different phases in terms of average wind speed and wind turbulence. Therefore, the contributions can be considered separately. Then, in regards to the reliability assessment caused by short-term thermal cycling, the wind profile is converted to a wind speed distribution, and the contribution of different wind speeds to the final failure rate is accumulated. Finally, the reliability of an actual power converter semiconductor for a 2.5 MW wind turbine is assessed, and the failure rates induced by different timescale thermal behavior patterns are compared. The effects of various parameters such as cut-in, rated, cut-out wind speed on the failure rate of power devices are also analyzed based on the proposed model.

Comparison of Conventional DC-DC Converter and a Family of Diode-Assisted DC-DC Converter in Renewable Energy Applications

  • Zhang, Yan;Liu, Jinjun;Ma, Xiaolong;Feng, Junjie
    • Journal of Power Electronics
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    • 제14권2호
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    • pp.203-216
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    • 2014
  • In the conventional dc-dc converter, a pair of additional diode and the adjacent passive component capacitor/inductor can be added to the circuit with an X-shape connection, which generates a family of new topologies. The novel circuits, also called diode-assisted dc-dc converter, enhance the voltage boost/buck capability and have a great potential for high step-up/step-down power conversions. This paper mainly investigates and compares conventional dc-dc converter and diode-assisted dc-dc converter in wide range power conversion from the aspects of silicon devices, passive components requirements, electro-magnetic interference (EMI) and efficiency. Then, a comprehensive comparison example of a high step-up power conversion system was carried out. The two kinds of boost dc-dc converters operate under the same operation conditions. Mathematical analysis and experiment results verify that diode-assisted dc-dc converters are very promising for simultaneous high efficiency and high step-up/step-down power conversion in distributed power supply systems.

A PI Control Algorithm with Zero Static Misadjustment for Tracking the Harmonic Current of Three-Level APFs

  • He, Yingjie;Liu, Jinjun;Wang, Zhaoan;Zou, Yunping
    • Journal of Power Electronics
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    • 제14권1호
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    • pp.175-182
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    • 2014
  • Tracking harmonic current quickly and precisely is one of the keys to designing active power filters (APF). In the past, the current state feedback decoupling PI control was an effective means for three-phase systems in the current control of constant voltage constant frequency inverters and high frequency PWM reversible rectifiers. This paper analyzes in detail the limitation of the conventional PI conditioner in the APF application field and presents a novel PI control method. Canceling the delay of one sampling period and the misadjustment for tracking the harmonic current is the key problem of this PI control. In this PI control, the predictive output current value is obtained by a state observer. The delay of one sampling period is remedied in this digital control system by the state observer. The predictive harmonic command current value is obtained by a repetitive predictor synchronously. The repetitive predictor can achieve better predictions of the harmonic current. By this means, the misadjustment of the conventional PI control for tracking the harmonic current is cancelled. The experiment results with a three-level NPC APF indicate that the steady-state accuracy and dynamic response of this method are satisfying when the proposed control scheme is implemented.

Overshoot에 구속조건을 갖는 원자여의 시간최적제어 (Time Optimal Control of Nuclear Reactor with Constraint on Power Overshoot)

  • 곽은호
    • 대한전자공학회논문지
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    • 제12권4호
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    • pp.15-20
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    • 1975
  • 원자로의 출력을 초기상태에서 요구표적 상태로 증가시켜 주는 과도기간중 출력의 Overshoot가 생기는데 이 Overshoot에 구속조건을 두는 것은 원자로를 제각함에 있어 안전사 매우 중요하다. 따라서 출력이 요구 최대허용 구동영역을 넘지 않도록 반응도를 조절하면서 초기값(no, co)에서 최종같인 요구값(2no,2co) 또는 (1. 5no,1.5co)로 출력을 증가시키는데 최대원리(Maximum principle)를 적용하였다. 그리고 이때의 스위청점, 스위청시간 및 최적제각 반응도를 구하였다. The power overshoot is rises in the output during the transient period when the output of nuclear reactor is increased from the initial state to the desired target state and certain amount of constraint on power level is of primary importance for safety control of nuclear reactor. Therefore, the maximum principle is applied to this process control in transfering its power from the initial state(no, co) to the final target state(2no, 2co or 1.5no, 1.5co), adjusting the reactivity so that its overshoot is limited within the allowable constraint required. In this case, the switching points, switching times, optimal lima and optimal control reactivity are calculated.

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Multi-field Coupling Simulation and Experimental Study on Transformer Vibration Caused by DC Bias

  • Wang, Jingang;Gao, Can;Duan, Xu;Mao, Kai
    • Journal of Electrical Engineering and Technology
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    • 제10권1호
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    • pp.176-187
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    • 2015
  • DC bias will cause abnormal vibration of transformers. Aiming at such a problem, transformer vibration affected by DC bias has been studied combined with transformer core and winding vibration mechanism use multi-physical field simulation software COMSOL in this paper. Furthermore the coupling model of electromagnetic-structural force field has been established, and the variation pattern of inner flux density, distribution of mechanical stress, tension and displacement were analyzed based on the coupling model. Finally, an experiment platform has been built up which was employed to verify the correctness of model.

친환경 응용 40-kV, 300-A 반도체 기반 펄스 전원장치 (40-kV, 300-A Solid-State Pulsed Power Modulator for Environmental Applications)

  • 송승호;조현빈;이승희;장성록;류홍제
    • 전력전자학회:학술대회논문집
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    • 전력전자학회 2018년도 추계학술대회
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    • pp.98-100
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    • 2018
  • This paper describes design of the 40-kV, 300-A solid-state pulsed power modulator for environmental applications. The modulator has been modified based on a solid-state pulsed power modulator with 150-A current capacity. To improve the pulsed power modulator, the discharge IGBT was changed. In addition, the gate driver was tuned according to the characteristics of the switch. Finally, experimental results proved the reliability of the modified solid-state pulsed power modulator.

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