Tài liệu IEEE - 2nd (đọc kỹ bài đầu tiên trước khi gửi yêu cầu)

Anh down giúp em thêm các tài liệu này nhé:
01. Modeling and analysis of custom power systems by PSCAD/EMTDC (01)
Anaya-Lara, O. Acha, E.
Dept. of Electron. & Electr. Eng., Glasgow Univ., UK;
This paper appears in: Power Delivery, IEEE Transactions on
Publication Date: Jan. 2002
Volume: 17 , Issue: 1
On page(s): 266 - 272
ISSN: 0885-8977
Digital Object Identifier: 10.1109/61.974217
Posted online: 2002-08-07 00:40:27.0
Abstract
This paper addresses the timely issue of modeling and analysis of custom power controllers, a new generation of power electronics-based equipment aimed at enhancing the reliability and quality of power flows in low-voltage distribution networks. The modeling approach adopted in the paper is graphical in nature, as opposed to mathematical models embedded in code using a high-level computer language. The well-developed graphic facilities available in an industry standard power system package, namely PSCAD/EMTDC, are used to conduct all aspects of model implementation and to carry out extensive simulation studies. Graphics-based models suitable for electromagnetic transient studies are presented for the following three custom power controllers: the distribution static compensator (D-STATCOM), the dynamic voltage restorer (DVR), and the solid-state transfer switch (SSTS). Comprehensive results are presented to assess the performance of each device as a potential custom power solution. The paper is written in a tutorial style and aimed at the large PSCAD/EMTDC user base
http://www.ieeexplore.ieee.org/iel5/61/20989/00974217.pdf?tp=&isnumber=20989&arnumber=974217&punumber=61
02. Modeling and Analysis of Custom Power Systems by PSCAD/EMTDC (02)
Anaya-Lara, O. Acha, E.
The University of Glasgow, Scotland, U. K.
This paper appears in: Power Engineering Review, IEEE
Publication Date: Nov. 2001
Volume: 21 , Issue: 11
On page(s): 56 - 56
Number of Pages: 56 - 56
ISSN: 0272-1724
Digital Object Identifier: 10.1109/MPER.2001.4311148
Posted online: 2007-09-24 10:28:30.0
Abstract
This paper addresses the timely issue of modeling and analysis of custom power controllers, a new generation of power electronics-based equipment aimed at enhancing the reliability and quality of power flows in low-voltage, distribution networks [2],[3]. The modeling approach adopted in this article is graphical in nature, as opposed to mathematical models embedded in code using a high-level computer language. The well-developed graphic facilities available in an industry standard power system package, namely, PSCAD/EMTDC, are used to conduct all aspects of model implementation and to carry out extensive simulation studies. Graphics-based models suitable for electromagnetic transient studies are presented for the following three custom power controllers: the distribution static compensator (D-STATCOM), the dynamic voltage restorer (DVR), and the solid-state transfer switch (SSTS). Comprehensive results are presented to assess the performance of each device as a potential custom power solution. The paper is written in a tutorial style and aimed at the large PSCAD/EMTDC user base.
http://www.ieeexplore.ieee.org/iel5/39/20765/04311148.pdf?tp=&isnumber=20765&arnumber=4311148&punumber=39
03. A thyristor controlled series compensator model for the power flow solution of practical power networks
Fuerte-Esquivel, C.R. Acha, E. Ambriz-Perez, H.
Dept. de Ingenieria Electr. y Electron., Inst. Technol. de Morelia, Mexico;
This paper appears in: Power Systems, IEEE Transactions on
Publication Date: Feb. 2000
Volume: 15 , Issue: 1
On page(s): 58 - 64
ISSN: 0885-8950
Digital Object Identifier: 10.1109/59.852101
Posted online: 2002-08-06 23:13:44.0
Abstract
A new and comprehensive load flow model for the thyristor controlled series compensator (TCSC) is presented in this paper. In this model the state variable is the TCSC''''s firing angle, which is combined with the nodal voltage magnitudes and angles of the entire network in a single frame-of-reference for a unified iterative solution through a Newton-Raphson method. Unlike TCSC models available in the open literature, this model takes account of the loop current that exists in the TCSC under both partial and full conduction operating modes. Also, the model takes proper care of the resonant points exhibited by the TCSC fundamental frequency impedance. The Newton-Raphson algorithm exhibits quadratic or near-quadratic convergence characteristics, regardless of the size of the network and the number of TCSC devices
http://www.ieeexplore.ieee.org/iel5/59/18515/00852101.pdf?tp=&isnumber=18515&arnumber=852101&punumber=59
04. Comprehensive UPFC models for power flow calculations in practical power systems
Sheng-Huei Lee Chia-Chi Chu Ding-Hsin Chang
Dept. of Electr. Eng., Chang Gung Univ., Kwei-San , Taiwan;
This paper appears in: Power Engineering Society Summer Meeting, 2001. IEEE
Publication Date: 15-19 July 2001
Volume: 1
On page(s): 27 - 32 vol.1
Number of Pages: 3 vol.xxxv+1886
Meeting Date: 07/15/2001 - 07/19/2001
Location: Vancouver, BC
ISBN: 0-7803-7173-9
Digital Object Identifier: 10.1109/PESS.2001.969977
Posted online: 2002-08-06 23:53:46.0
Abstract
A hybrid unified power-flow controller (UPFCs) model for power flow calculations is developed: an ideal voltage source model is used to represent the series part while an ideal current source model is used to represent the shunt part. Static relationships among real power and reactive power transfers, series transformer and shunt transformer losses are considered in detail. Equivalent relationships among our new models and existing models are also investigated. Since only one extra state variable is included in our developed UPFC models, it can be easily incorporated into existing Newton-type power flow solvers. Even with flat start initial con***ions, this new model can be easily converged within a few iterations. We have tested our new models in IEEE 300-bus power systems. Simulation results demonstrate the efficiency and the accuracy of our proposed model
http://www.ieeexplore.ieee.org/iel5/7659/20922/00969977.pdf?tp=&isnumber=20922&arnumber=969977&punumber=7659
05. Optimal active power flow incorporating power flow control needs in flexible AC transmission systems
Ge, S.Y. Chung, T.S.
Dept. of Electr. Eng., Hong Kong Polytech., Kowloon, Hong Kong;
This paper appears in: Power Systems, IEEE Transactions on
Publication Date: May 1999
Volume: 14 , Issue: 2
On page(s): 738 - 744
ISSN: 0885-8950
Digital Object Identifier: 10.1109/59.761906
Posted online: 2002-08-06 22:28:15.0
Abstract
This paper presents a new method to incorporate the power flow control needs of flexible AC transmission system (FACTS) in studying the optimal active power flow problem. The linearized (DC) network model is used in this paper. Three main types of FACTS devices, namely thyristor controlled series compensators (TCSC), thyristor controlled phase shifters (TCPS) and unified power flow controllers (UPFC), are considered. The proposed method decomposes the solution of such modified OPF problem into two problems'''' iteration. The first problem is a power flow control subproblem while the second problem is a normal OPF problem. It is shown that the modified active power OFF can be solved by a new iterative strategy where a conventional LP-based technique may be used. Digital simulation studies on the IEEE 30 bus test system are presented to show the effectiveness of the proposed method
http://www.ieeexplore.ieee.org/iel4/59/16488/00761906.pdf?tp=&isnumber=16488&arnumber=761906&punumber=59
06. Test results and initial operating experience for the BPA 500 kV thyristor controlled series capacitor design, operation, and fault test results
Kinney, S.J. Mittelstadt, W.A. Suhrbier, R.W.
Bonneville Power Adm., Portland, OR, USA;
This paper appears in: Northcon 95. I EEE Technical Applications Conference and Workshops Northcon95
Publication Date: 10-12 Oct. 1995
On page(s): 268 - 273
Meeting Date: 10/10/1995 - 10/12/1995
Location: Portland, OR
ISBN: 0-7803-2639-3
Digital Object Identifier: 10.1109/NORTHC.1995.485082
Posted online: 2002-08-06 19:52:45.0
Abstract
A cooperative effort has resulted in the construction of the first 500 kV Thyristor Controlled Series Capacitor (TCSC). This device is installed on the Bonneville Power Administration (BPA) transmission system in the Northwestern United States. Project participants included BPA, the Electrical Power Research Institute (EPRI), General Electric Company (GE), and the Portland General Electric Company (PGE). The TCSC was commissioned in the fall of 1993, initiating an extended test and evaluation period. Evaluation tests included: harmonic performance, staged system faults, subsynchronous resonance (SSR) torsional mode damping, and system swing damping performance. Results of the system tests illustrate the TCSC''''s ability to improve power system operation. Upon completion of the evaluation tests, the TCSC was placed into commercial operation in January 1995. This initiated a one year trial operational period to evaluate the long term operation of the device
http://www.ieeexplore.ieee.org/iel2/3493/10324/00485082.pdf?tp=&isnumber=10324&arnumber=485082&punumber=3493
07. Test results and initial operating experience for the BPA 500 kV thyristor controlled series capacitor-modulation, SSR and performance monitoring
Hauer, J.F. Mittelstadt, W.A. Piwko, R.J. Damsky, B.L. Eden, J.D.
Pacific Northwest Lab., Richland, WA, USA;
This paper appears in: Northcon 95. I EEE Technical Applications Conference and Workshops Northcon95
Publication Date: 10-12 Oct. 1995
On page(s): 274 - 279
Meeting Date: 10/10/1995 - 10/12/1995
Location: Portland, OR
ISBN: 0-7803-2639-3
Digital Object Identifier: 10.1109/NORTHC.1995.485083
Posted online: 2002-08-06 19:52:45.0
Abstract
Field experience is reported for a thyristor controlled series capacitor (TCSC) recently commissioned at BPA''''s Slatt substation. Subsynchronous resonance tests show that TCSC interactions with shaft dynamics of PGE''''s Boardman steam generator are well understood and are effectively avoided by normal TCSC valve firing logic. Modulation tests, performed with the Boardman plant offline, show that the TCSC can be a powerful and responsive actuator for swing damping. Security considerations did not permit lightly damped operation of the controlled plant. Close analysis indicates that the TCSC damping contribution, though small, was measurable. The best estimate is that damping for the McNary mode is 7.33% and 8.55%, for the TCSC damper loop open and closed respectively. TCSC testing and monitoring is facilitated by an advanced interactive measurement network representing BPA''''s approach to the information requirements of major control systems
http://www.ieeexplore.ieee.org/iel2/3493/10324/00485083.pdf?tp=&isnumber=10324&arnumber=485083&punumber=3493
08. Steady-state and dynamic models of unified power flow controller (UPFC) for power system studies
Nabavi-Niaki, A. Iravani, M.R.
Dept. of Electr. & Comput. Eng., Toronto Univ., Ont., Canada;
This paper appears in: Power Systems, IEEE Transactions on
Publication Date: Nov. 1996
Volume: 11 , Issue: 4
On page(s): 1937 - 1943
ISSN: 0885-8950
Digital Object Identifier: 10.1109/59.544667
Posted online: 2002-08-06 20:37:01.0
Abstract
This paper provides comprehensive development procedures and final forms of mathematical models of a unified power flow controller (UPFC) for steady-state, transient stability and eigenvalue studies. Based on the developed models, the impacts of control strategy, parameters and location of UPFC on power system operating con***ions are discussed. The accuracy of the developed models is verified through comparing the study results with those obtained from detailed time-domain simulation using the Electromagnetic Transients Program (EMTP)
http://www.ieeexplore.ieee.org/iel1/59/11903/00544667.pdf?tp=&isnumber=11903&arnumber=544667&punumber=59
09. The use of decoupled converters to optimize the power electronics of shunt and series AC system controllers
Raju, N.R. Venkata, S.S. Sastry, V.V.
Dept. of Electr. Eng., Washington Univ., Seattle, WA, USA;
This paper appears in: Power Delivery, IEEE Transactions on
Publication Date: April 1997
Volume: 12 , Issue: 2
On page(s): 895 - 900
ISSN: 0885-8977
Digital Object Identifier: 10.1109/61.584410
Posted online: 2002-08-06 21:28:23.0
Abstract
This paper presents a decoupled converter approach for solid-state compensation of AC power systems. The scheme employs a multi-step inverter for control of fundamental frequency components and PWM inverters for harmonic compensation. The inverters are arranged in such a manner that the high-frequency harmonic compensation module uses inverters of low power rating, while the slow-switching fundamental frequency compensation module supports most of the stresses. This decoupled approach is expected to result in a significant reduction in cost and losses associated with active compensators for high-power applications. The basic principle of operation, circuit structures and control strategy for shunt and series compensation based on the decoupled approach are described. Computer simulation and experimental results are presented to demonstrate the performance of the proposed system
http://www.ieeexplore.ieee.org/iel3/61/12635/00584410.pdf?tp=&isnumber=12635&arnumber=584410&punumber=61
Được martine sửa chữa / chuyển vào 00:40 ngày 03/03/2008

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@all: những ai bị thông báo "Maximum daily bandwidth exceeded " thì thử chờ đến hôm sau xem sao. Mình chưa thấy bị thông báo này bao giờ. Nếu còn thường xuyên bị hạn chế download thì sẽ tìm cách khác.
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A computer software for multimachine power system transient stability analysis
Dadashzadeh, M.R. Sanaye-Pasand, M.
Moshanir Power Eng. Consultants Co., Tehran, Iran;
This paper appears in: Universities Power Engineering Conference, 2004. UPEC 2004. 39th International
Publication Date: 6-8 Sept. 2004
Volume: 3, On page(s): 1043- 1047 vol. 2
ISSN:
ISBN: 1-86043-365-0
INSPEC Accession Number: 8605912
Posted online: 2005-08-08 09:01:13.0
Link: http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?tp=&arnumber=1492185&isnumber=32066
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1. Explanation-based facial motion tracking using a piecewise Bezier volume deformation model
Hai Tao; Huang, T.S.;
Computer Vision and Pattern Recognition, 1999. IEEE Computer Society Conference on.
Volume 1, 23-25 June 1999 Page(s):
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