Your search keyword '"Tomihiro Takano"' showing total 31 results

1. Small‐signal stability‐constrained optimal power flow analysis of multiterminal VSC‐HVDC systems with large‐scale wind farms

Author

Tomihiro Takano, Yusuke Takaguchi, Yoshio Izui, Akihiko Yokoyama, Sang-Won Kim, and Kazuyuki Mori

Subjects

Wind power, Scale (ratio), Computer science, Control theory, business.industry, Power-flow study, Electrical and Electronic Engineering, business, Stability (probability), Signal

Published

2019

2. A voltage control method in coordination with an SVR using distributed energy resources in customers for system voltage stabilization

Author

Sadayuki Inoue, Miwako Tanaka, Kaho Nada, Tomihiro Takano, Hiroki Ishihara, and Akiko Kuwata

Subjects

Distribution system, business.industry, Computer science, Voltage control, Distributed generation, Reactive power control, Photovoltaic system, Electrical engineering, Energy Engineering and Power Technology, Electrical and Electronic Engineering, business, Voltage

Published

2020

3. A Voltage Control Method for Power Distribution Lines Utilizing Dispersed Customer Resources

Author

Sadayuki Inoue, Tomihiro Takano, Kaho Nada, Hiroki Ishihara, Akiko Kuwata, and Miwako Tanaka

Subjects

Energy management system, Virtual power plant, business.industry, Computer science, Photovoltaic system, Electrical engineering, Voltage regulator, AC power, business, Tap changer, Voltage, Power (physics)

Abstract

This paper proposes a voltage control method in cooperation with a tap changer, such as a step voltage regulator, for power distribution lines using power conditioning systems. Generally, a town which plays a role of a virtual power plant has an energy management system and consists of a lot of power conditioning systems in houses. In this paper, it is clarifies that the method is able to control the voltage at the connecting point of the distribution system properly cooperating with the step voltage regulator under several voltage fluctuation conditions. Furthermore, it is shown that a communication between the energy management system and power conditioning systems enables the system to resolve unevenness output of reactive power of the power conditioners.

Published

2020

4. Economic Analysis on Multi-Terminal VSC HVDC Systems with Wind Farms based on Hierarchical Optimal Power Flow with Stability Constraint

Author

Kazuyuki Mori, Yusuke Takaguchi, Akihiko Yokoyama, Sang-Won Kim, Yoshio Izui, and Tomihiro Takano

Subjects

Wind power, Process (engineering), Computer science, business.industry, 020209 energy, 020208 electrical & electronic engineering, Stability (learning theory), 02 engineering and technology, Net present value, Constraint (information theory), Control theory, 0202 electrical engineering, electronic engineering, information engineering, Production (economics), Systems design, Profitability index, business

Abstract

This paper aims at proposing novel methods for multi-terminal VSC HVDC system design and operation with large-scale wind farms. The paper is based on the hierarchical optimal power flow with small-signal stability constraint. Multi-terminal VSC HVDC (MTDC) system reinforcements are designed in the first step. The reinforcement capacities of the HVDC systems are designed by optimization process. Economic load dispatch in the reinforced system with MTDC is carried out in the next step. By the proposed method, multi-terminal VSC HVDC systems can be utilized more effectively even when wind production is not high. Several multi-terminal configurations are designed. Wind power hosting capacities, net present value, and profitability index of the systems are analyzed.

Published

2019

5. Decentralized Charging Control of Battery Energy Storage Systems for Distribution System Asset Management

Author

Riku Okubo, Yasuhiro Hayashi, Shunsuke Kawano, Nobuhiko Itaya, Tomihiro Takano, and Shinya Yoshizawa

Subjects

0209 industrial biotechnology, Computer simulation, Maximum power principle, business.industry, Computer science, 020209 energy, Photovoltaic system, Reverse power flow, 02 engineering and technology, Battery energy storage system, Automotive engineering, law.invention, Distribution system, 020901 industrial engineering & automation, Hardware_GENERAL, law, 0202 electrical engineering, electronic engineering, information engineering, Asset management, Transformer, business

Abstract

This paper proposes a decentralized charging control method of a battery energy storage system (BESS) that can prevent the over-capacity of a pole transformer in low-voltage (LV) distribution systems due to reverse power flow from the photovoltaic generation system. The distribution system operator provides the charging parameters defined as the relationship between the state-of-charge (SoC) and the charging threshold determined by using only the LV-distribution system configuration and the demand-side information to customers. Each BESS charges the power according to the provided parameters. A high charging amount can be maintained by automatically changing the charging mode based on the change in SoC. Results of the numerical simulation demonstrate that the proposed method can prevent the over-capacity of PTr and maintain the high charging amount of a BESS in LV-distribution systems. Further, the maximum power flow at the distribution substation and the distribution losses in MV-distribution system can be reduced.

Published

2019

6. Coordinated control logic of photovoltaic and regenerative electric power in distribution system and verification of its effect

Author

Tomihiro Takano, Makoto Hashimoto, Tetsuo Fujita, Shinya Kikuchi, Masayuki Kagita, Nobuhiko Itaya, Kota Minaminosono, and Shuntaro Matsuzaki

Subjects

Engineering, business.industry, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, AC power, Voltage optimisation, Power conditioner, Control system, 0202 electrical engineering, electronic engineering, information engineering, Electric power, business, Control logic, Power control, Voltage

Abstract

This paper reports simple and effective control logic for connecting abrupt, steep and short-term power sources (for example, regenerative power from electric railway vehicles) to distribution lines with renewable energy units connected. With conventional centralized control systems, power conditioner units were unable to keep voltage of the distribution line within an acceptable range when extremely steep regenerative power flowed backward in the line, due to control delay. This new logic has power conditioner units exchange calculated control amounts between themselves repeatedly in fixed intervals. When voltage of the distribution line rises relatively slowly from renewable energy generators such as PV, the power conditioner unit can suppress the voltage rise immediately with no control delay, if regenerative power flows backward to the lines and voltage departure from an acceptable range is foreseen. This logic needs no central control unit in particular, as its power conditioner units can effectively execute and coordinate control between themselves. We verified the effectiveness of this logic through an experiment at our demonstration facility.

Published

2017

7. Economic benefit evaluation of multi-terminal VSC HVDC systems with wind farms based on security-constrained optimal power flow

Author

Hiroyuki Hashimoto, Sang-Won Kim, Tomihiro Takano, Yoshio Izui, and Akihiko Yokoyama

Subjects

Engineering, Power transmission, Wind power, Payback period, business.industry, 020209 energy, Control engineering, 02 engineering and technology, Grid, Reliability engineering, Electric power system, Power flow, Terminal (electronics), 0202 electrical engineering, electronic engineering, information engineering, Power-flow study, business

Abstract

This paper investigates the economic benefits of multi-terminal VSC HVDC systems where large scale wind farms are installed. The comparison between multi-terminal VSC HVDC systems and point-to-point VSC HVDC systems in economic aspects is the main topic. Security-constrained optimal power flow analysis is carried out considering the N-1 criterion in mixed AC / VSC HVDC power system models in Japan. Payback period index is adopted for the economic evaluations. A new idea of both wind power and AC grid power transmission through multi-terminal systems is suggested. The initial investment costs of the multi-terminal VSC HVDC systems can be paid back earlier than those of the point-to-point VSC HVDC systems due to higher system capacity factor.

Published

2017

8. Development of Centralized Voltage Control System for Distribution Systems

Author

Nobuhiko Itaya, Tomihiro Takano, and Tetsufumi Ohno

Subjects

Electric power distribution, Engineering, Smart grid, business.industry, Control (management), Electronic engineering, Voltage regulation, Voltage regulator, Voltage optimisation, business, Line (electrical engineering), Voltage

Abstract

This paper proposes a centralized voltage control system for distribution system to meet the impact of PV growth. The system consists of a server machine at control center and many field devices like voltage regulators, line switches with sensor to measure power flow and voltage, and Information and Communication Technologies (ICT) network under Smart Grid paradigm. The system gathers measurement values from switches through the ICT network and chooses the best voltage profile and voltage regulators condition to achieve the profile with use of our advanced Optimal Power Flow. The test results at our Smart Grid facilities with 4MW photovoltaic generators are also given to prove the effectiveness of the developed system.

Published

2013

9. A Fast and Robust Load Flow Method for Distribution Systems with Distributed Generations

Author

Tomihiro Takano, Hongbo Sun, Yasuhiro Kojima, Tetsufumi Ohno, and Daniel Nikovski

Subjects

Zero-impedance branches, Computer science, business.industry, Preconditioner, Load flow, Direct method, AC power, Residual, LU decomposition, law.invention, Sampling distribution, Energy(all), law, Control theory, Robustness (computer science), Distributed generation, business, Power distribution systems, Indirect method, Distribution generations, Pivot element

Abstract

This paper proposes a fast and robust load flow method for balanced power distribution systems with distributed generation sources. The method formulates the power flow equations in PQ decoupled form with polar coordinates. Second-order terms are included in the active power mismatch iteration, and resistances are fully modeled without any simplifications. The impacts of zero-impedance branches are explicitly modeled through reconfiguring of the adjacent branches with impedances. Typical distribution generation models and distribution load models are included. A hybrid direct and indirect solution technique is used to achieve efficiency and robustness of the algorithm. Active power correction is solved by means of a sparse LU decomposition algorithm with partial pivoting, and the reactive power correction is solved by means of restarted Generalized Minimal Residual algorithm with incomplete LU preconditioner. The numerical examples on a sample distribution system with widespread Photovoltaic installations are given to demonstrate the effectiveness of the proposed method.

Published

2011

10. Evaluation of the reduction in CO2emissions by applying Micro-Grid to home energy supply system

Author

Tomihiro Takano, Yoshiyuki Takuma, Makoto Inoue, Gen Arao, and Takaya Yamamoto

Subjects

Engineering, Wind power, business.industry, Photovoltaic system, Electrical engineering, Energy Engineering and Power Technology, Energy consumption, Automotive engineering, Power (physics), Supply and demand, Cogeneration, Energy supply, Electric power, Electrical and Electronic Engineering, business

Abstract

Dispersed generators such as wind power systems, photovoltaic systems, and cogeneration systems are expected to mitigate the environmental burden of energy consumption, and their installation has been promoted recently. Micro-Grid is focused on as a method to solve some problems in a commercial electric power line when installing a large number of dispersed generators, and some demonstrative research on Micro-Grid for large-scale systems is being carried out now. Also, small cogeneration systems for houses, such as gas engines and fuel cells, are expected to improve CO2 emissions. However, if the power and heat demand of a family are relatively small or are unbalanced, the cogeneration system does not operate effectively. The authors have studied the application of Micro-Grid for home energy supply, and have developed a control system to solve this problem. The system achieves a reduction of CO2 emissions and energy costs by sharing electric power and heat among some houses with cogeneration systems. This paper presents an outline of the newly developed system, and in particular describes the effect of the reduction in CO2 emissions compared with a conventional energy supply method, and the case in which dispersed generators are installed in some houses and operate independently. © 2009 Wiley Periodicals, Inc. Electr Eng Jpn, 170(3): 19–27, 2010; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/eej.20879

Published

2010

11. Isolated Operation at Hachinohe Micro-Grid Project

Author

Masaru Simomura, Koji Temma, Yasuhiro Kojima, and Tomihiro Takano

Subjects

Engineering, business.industry, media_common.quotation_subject, Global warming, Control (management), Environmental engineering, Micro grid, Energy Engineering and Power Technology, Environmental economics, Renewable energy, Cogeneration, Electric power system, Energy development, Quality (business), Electrical and Electronic Engineering, business, media_common

Abstract

To meet the global warming, renewable energy sources like wind, solar and biomass generations are dramatically increasing. Cogeneration systems are also ever-growing to save consumers' energy costs among factories, buildings and homes where lots of thermal loads are expected. According to these dispersed generators growth, their negative impacts to commercial power systems quality become non-negligible, because their unstable output causes network voltage and frequency fluctuation. Micro-grid technology comes to the front to solve the problem and many demonstrative field tests are now going all over the world. This paper presents the control paradigm and its application to Hachinohe micro-gird project, especially focusing on the power quality at isolated operation on which strict condition is imposed.

Published

2009

12. Evaluation of the Reduction in CO2 Emission by Applying Micro-Grid to Home Energy Supply System

Author

Yoshiyuki Takuma, Makoto Inoue, Gen Arao, Tomihiro Takano, and Takaya Yamamoto

Subjects

Co generation, Wind power, business.industry, Environmental engineering, Micro grid, Reduction (complexity), Energy development, Distributed generation, Environmental science, Grid energy storage, Energy supply, Electrical and Electronic Engineering, business, Process engineering

Published

2008

13. 蓄電池による風力発電出力安定化システムの事業性検討

Author

Yasuhiro Kojima, Ryoichi Tanikawa, Tetsuro Takagi, Sadatoshi Kumagai, Koutaro Hirooka, and Tomihiro Takano

Subjects

Battery (electricity), Engineering, Wind power, business.industry, Control (management), Electrical engineering, Automotive engineering, Power (physics), Renewable energy, Reduction (complexity), Resource (project management), Electric power, Electrical and Electronic Engineering, business

Abstract

The expansion of the renewable energy introduction is examined as measures for controlling global warming. Wind power generation is expected as effective power resource, but the negative impact from the difficulty of an unstable output is concerned. In recent years, WT generation with contract of cut-of with shorting adjusting power and with rechargeable battery for stabilizing control are examined, but the introduction has not been accelerated yet because there is an influence in WT generation entrepreneur's business. In this paper, we make a brief summary of relation between the fluctuation of wind power generation and stability of electric power operation, and two types of approach; cut-off contract and stabilization using rechargeable battery. For the stabilization using battery, there are two methods, one is reduction control and the other is constant control. We propose a new control method for constant control based on profit optimization considering WT generation forecast and its risk of deviation. We also propose the estimation method for the .limitation of battery installation. Simulation results show the efficiency of our proposed methods.

Published

2008

14. Electric Power Storage Technology for Natural Energy Generations

Author

Tomihiro Takano

Subjects

Pumped-storage hydroelectricity, Electricity generation, business.industry, Distributed generation, Electrical engineering, Environmental science, Grid energy storage, Power engineering, Electric power, Electrical and Electronic Engineering, Natural energy, business, Energy storage

Published

2007

15. Autonomous Decentralized Control of Supply and Demand by Inverter Based Distributed Generations in Isolated Microgrid

Author

Tomihiro Takano, Takahiro Gouda, Akira Shiki, Yoshio Izui, Akihiko Yokoyama, and Jyunpei Baba

Subjects

Engineering, business.industry, Distributed generation, Energy Engineering and Power Technology, Inverter, Control engineering, Microgrid, Electrical and Electronic Engineering, business, Decentralised system, Supply and demand

Published

2007

16. Cooperative control of reactive power of distributed PV systems to suppress voltage of distribution line along railroad track

Author

Tomihiro Takano, Eiji Hashiguchi, Masashi Nakahira, Kazuya Matsumoto, Takamasa Miyagawa, Hisashi Yamada, Hitoshi Hayashiya, Nobuhiko Itaya, Yuki Iino, Hideyuki Ueno, and Shinichi Sakaguchi

Subjects

Engineering, Power conditioner, business.industry, Photovoltaic system, Grid-connected photovoltaic power system, Electrical engineering, AC power, business, Line (electrical engineering), Voltage, Backflow, Power (physics)

Abstract

There are a lot of potentials to install photovoltaic panels along the railroad track and some systems have been already realized in Japanese railway network. If a lot of PV systems have installed along the railway premises in the future, the generated power has to be transmitted to the station for the self-consumption because the electric loads along the railroad track between the stations are, in many cases, small. To be cost effective, simple cooperative reactive power control of power conditioner for distribution line voltage control to realize inverse backflow from PV panels to station is required, proposed and tested in the practical trackside solar system. The results of the cooperative reactive power control by two PV-PCSs are shown in this paper.

Published

2015

17. A generalized admittance based method for fault location analysis of distribution systems

Author

Tomihiro Takano, Tetsufumi Ohno, Daniel Nikovski, Zhenyu Tan, Yasuhiro Kojima, and Hongbo Sun

Subjects

Engineering, Admittance, Nodal admittance matrix, business.industry, Topology (electrical circuits), Hardware_PERFORMANCEANDRELIABILITY, Fault (power engineering), Topology, Fault indicator, Admittance parameters, Line segment, Electronic engineering, business, Network analysis

Abstract

This paper proposes a generalized admittance based method for fault location analysis of distribution systems. Based on the measurements collected from the feeder breakers and intelligent switches during a fault, the fault type and faulted feeder section are first determined by examining the over-voltages and over-currents on the breakers/switches. The load demands, faulted line segment and fault location are then determined sequentially by finding a set of loads, a line segment and a fault location that has minimal distance between the currents measured at the boundaries of the feeder section, and the estimated currents determined by multiplying the measured voltages by an equivalent admittance matrix determined for the feeder section when applying the given load and fault conditions to the feeder section. The proposed approach determines the equivalent admittance matrix for a feeder section with one or two measuring ports through topology and circuit analysis, and for a feeder section with more than two measuring ports through Kron reduction on nodal admittance matrix. Numerical examples are given to demonstrate the effectiveness of the proposed approach.

Published

2015

18. Disconnection detection method for power distribution lines using smart meters

Author

Tomihiro Takano, Shoichi Kitamura, Nobuhiko Itaya, and Yoshio Izui

Subjects

Engineering, Electric power distribution, business.industry, Smart meter, Electrical engineering, law.invention, Outage management system, Electric power system, Electric power transmission, Smart grid, law, Power engineering, business, Transformer

Abstract

For future power outage management of a power distribution system, a smart meter is expected to be used. Disconnection of a high-voltage power distribution line during a power outage runs the risk of a major disaster, so it needs to be detected quickly. In this paper, we describe a power outage management system developed as a part of an in-house smart grid demonstration test for detecting disconnections of highvoltage power distribution lines. Then we propose and validate a disconnection detection method that does not need information of connection phases of pole transformers.

Published

2015

19. Locating double-line-to-ground faults using hybrid current profile approach

Author

Yasuhiro Kojima, Hongbo Sun, Daniel Nikovski, Anamika Dubey, Tetsufumi Ohno, and Tomihiro Takano

Subjects

Engineering, business.industry, Hardware_PERFORMANCEANDRELIABILITY, Fault (power engineering), Fault indicator, Distribution system, Stuck-at fault, Sampling distribution, Robustness (computer science), Control theory, Fault coverage, Fault resistance, Electronic engineering, business

Abstract

This paper proposes a hybrid current profile based fault location algorithm for double-line-to-ground (DLG) faults in a distribution system. The method uses both short-circuit fault current profile (average of fault currents recorded for the faulted phases) and during-fault load current profile (corresponding to the un-faulted phase) to estimate an accurate fault location. The method is extended to include the effects of fault resistance in determining the fault location. Both fault current profiles and load current profiles are simulated for different values of fault resistances. The profiles are also extrapolated for those fault resistances corresponding to which the simulated profiles are not available. Numerical examples on a sample distribution feeder with multiple laterals and load taps are provided to validate the proposed algorithm for its robustness.

Published

2015

20. Natural Energy Power and Energy Storing Technology

Author

Tomihiro Takano

Subjects

Pumped-storage hydroelectricity, business.industry, Computer science, Energy Engineering and Power Technology, Energy storage, Renewable energy, Energy conservation, Energy development, Intermittent energy source, Grid energy storage, Electrical and Electronic Engineering, business, Process engineering, Efficient energy use

Published

2006

21. Distributed three-phase reactive power control of distributed energy resources in distribution systems

Author

Tomihiro Takano, Mouhacine Benosman, Tetsufumi Ohno, Hongbo Sun, Daniel Nikovski, Jinyun Zhang, and Yasuhiro Kojima

Subjects

Distribution system, Engineering, Three-phase, business.industry, Distributed generation, Reactive power control, Electronic engineering, Voltage regulation, Voltage optimisation, business, Power control

Published

2014

22. Method for locating of single-phase-to-ground faults in ungrounded distribution systems

Author

Tomihiro Takano, Hongbo Sun, Tetsufumi Ohno, Daniel Nikovski, and Yasuhiro Kojima

Subjects

Engineering, business.industry, Phase (waves), Electrical engineering, Hardware_PERFORMANCEANDRELIABILITY, Structural engineering, AC power, Fault (power engineering), Residual, Fault indicator, Distribution system, Line segment, business, Voltage

Abstract

This paper proposes a new method for determining locations of single-phase-to-ground faults in ungrounded distribution system using pre-fault and during-fault fundamental-frequency measurements. The pre-fault measurements along with the load profiles are used to determine load demands for each individual load in a feeder section. The during-fault measurements are used to determine possible faulted area and location. The faulted feeder and faulted feeder section are first determined based on the reactive power factors of residual powers determined for the feeder breakers and switches with sensors. The line segments in the faulted feeder section are then tested for a sign change of phase-to-ground voltage on the fault phase to determine the faulted line segment. At last, the location of the fault is determined by finding a location along the faulted line segment having a zero phase-to-ground voltage on the faulted phase. Numerical examples are given to demonstrate the effectiveness of proposed method.

Published

2013

23. Estimating locations of single-phase-to-ground faults of ungrounded distribution systems

Author

Tetsufumi Ohno, Daniel Nikovski, Tomihiro Takano, Yasuhiro Kojima, and Hongbo Sun

Subjects

Engineering, business.industry, Electrical engineering, Hardware_PERFORMANCEANDRELIABILITY, Power factor, AC power, Residual, Fault (power engineering), Fault indicator, Line segment, Control theory, Point (geometry), business, Power-system protection

Abstract

This paper proposes a new method for determining single-phase-to-ground fault locations of ungrounded distribution systems based on the measurements collected from the feeder breakers and intelligent switches during the fault. The method first narrows down the possible faulted area into a specific feeder section based on the reactive power factors of residual powers determined for the breakers and switches. Then the power consumption of each individual load in the faulted section is determined based on measurements at the boundaries of the section, and load profiles for each individual load. The possible faulted line segment is determined using a forward sweep scheme to test a sign change of faulted phase voltages on terminal buses of line segments, and the possible fault point is determined by finding a location along the faulted segment having a zero voltage on the faulted phase. Numerical examples are given to demonstrate the effectiveness of proposed method.

Published

2013

24. Line fault analysis of ungrounded distribution systems

Author

Hongbo Sun, Tetsufumi Ohno, Daniel Nikovski, Yasuhiro Kojima, and Tomihiro Takano

Subjects

Engineering, Nodal admittance matrix, business.industry, Iterative method, Voltage regulator, Topology, law.invention, Computer Science::Hardware Architecture, Power system simulation, law, Electronic engineering, Output impedance, business, Transformer, Electrical impedance, Voltage

Abstract

This paper proposes a new method for line fault analysis of ungrounded distribution systems. The fault condition of a line fault is integrated into the nodal admittance matrix of the faulted line to be modeled. The zero-impedance branch is merged into adjacent impedance branches to be taken into account, and one of its terminal buses with zero neutral-to-ground voltage is chosen as a slave bus when it is an ideal transformer or a voltage regulator with ungrounded winding connection. The three-phase jointly regulation of a distributed generation source is embedded into nodal admittance model of its internal impedance branch by combining three phases of its internal bus into one equivalent phase. The distribution system is partitioned into a main network and a set of lateral networks to be solved. The main network is formed by the connected paths between the terminal buses of the faulted line, and generation sources, and solved by a Gauss-Seidel method. A lateral network is formed by one of the buses of main network and all buses and branches downstream to the bus, and solved by a backward and forward sweep method. The numerical examples are provided to prove the effectiveness of proposed method.

Published

2013

25. Fault location analysis of ungrounded distribution system based on residual voltage distribution

Author

Yasuhiro Kojima, Tetsufumi Ohno, Daniel Nikovski, Hongbo Sun, and Tomihiro Takano

Subjects

Engineering, business.industry, Electrical engineering, Hardware_PERFORMANCEANDRELIABILITY, Fault indicator, Distribution system, Line segment, Control theory, Residual voltage, Series impedance, business, Electrical impedance, Shunt (electrical), Voltage

Abstract

This paper proposes a new method for determining the location of single-phase-to-ground faults of ungrounded distribution systems based on residual voltage distribution. The possible faulted line segment and fault location are determined by comparing the phase angles of faulted phase voltages against a faulted phase reference angle, and the faulted phase voltages are determined as the difference between the fault caused residual voltage of all phases and the shunt caused residual voltage of un-faulted phases. The method determines the fault location solely based on the voltages and currents measured during the fault, and associated series impedance and shunt impedances of line segments. It does not require any measurements or information for the load demands and prefault conditions. Numerical examples are given to demonstrate the effectiveness of the proposed method.

Published

2013

26. Hybrid three-phase load flow method for ungrounded distribution systems

Author

Hongbo Sun, Tomihiro Takano, Tetsufumi Ohno, Daniel Nikovski, and Yasuhiro Kojima

Subjects

Engineering, business.industry, Impedance bridging, Voltage regulator, law.invention, Admittance parameters, Three-phase, Control theory, law, Voltage source, Voltage regulation, Transformer, business, Electrical impedance

Abstract

This paper proposes a hybrid three-phase load flow method for ungrounded distribution systems. Based on topology connectivity analysis, the system is partitioned into a mainline system and multiple tap systems. A Newton method with constant admittance matrix is used to solve the mainline system, such that zero impedance branches are merged into adjacent impedance branches to be considered, and constant active-power and voltage-magnitude (PV) buses with three-phase balanced voltages are transformed into single-phase PV buses to be modeled. A backward/forward sweep with loop compensation is used to solve the tap systems, such that a transformer and a voltage regulator is modeled using line-to-line voltages, a distribution line is simplified as a series branch, and loop compensation current is initialized based on loop downstream loads and the impedances of loop paths. Test results of sample systems are given to demonstrate the effectiveness of the proposed method.

Published

2012

27. Decoupled three-phase load flow method for unbalanced distribution systems

Author

Daniel Nikovski, Tomihiro Takano, Tetsufumi Ohno, Anamika Dubey, Hongbo Sun, and Yasuhiro Kojima

Subjects

Engineering, Matrix (mathematics), Three-phase, business.industry, Control theory, Nodal admittance matrix, Power-flow study, AC power, business, Modified nodal analysis, Electrical impedance, Susceptance

Abstract

This paper proposes a decoupled three-phase load flow analysis method for unbalanced distribution systems. The power flows are solved through nodal current injection mismatch equations written in rectangular coordinates. The voltage changes resulting from nodal current injection mismatches and nodal admittance matrix have been decoupled into one contribution from the real part, conductance matrix, and the other contribution from the imaginary part, susceptance matrix. The method determines voltage changes resulting from conductance and susceptance matrices respectively, and determines the voltages of a node as a linear combination of those voltage changes. The relative contributions are determined based on the diagonals of the conductance and susceptance matrices. The constant active power and voltage magnitude(PV) nodes have been converted into constant active and reactive power(PQ) ones based on a sensitivity matrix determined through Kron reduction of the nodal admittance matrix, and the corresponding reactive powers are adjusted after each solution has converged. The zero-impedance branches are merged with adjacent impedance branches, and the three phases of a balanced-voltage PV bus are merged into one single-phase PV bus to be modeled in the nodal admittance matrix. Numerical examples on IEEE 37 node test feeder and IEEE 123 node test feeder are presented to demonstrate the effectiveness of the proposed method.

Published

2012

28. An automatic knowledge acquisition method for switching sequences and it's evaluation

Author

H. Ogi, Tomihiro Takano, Keinosuke Matsumoto, and J. Yoshizawa

Subjects

Computer science, business.industry, Intelligent decision support system, Energy Engineering and Power Technology, computer.software_genre, Knowledge acquisition, Expert system, Data acquisition, Knowledge base, Systems architecture, Key (cryptography), Artificial intelligence, Electrical and Electronic Engineering, Software engineering, business, Intelligent control, computer

Abstract

This paper presents the development and maintenance of intelligent 'switching sequence generation' systems. The author's have developed a new framework which can construct and update its knowledge base without external influence. This paper proposes an automatic knowledge acquisition method, a key part of the intelligent system architecture, which is realized by means of the machine learning paradigm. This paper introduces a new knowledge acquisition method and discusses the evaluation and the extension for the purpose of its practical use. >

Published

1994

29. HCL (Hierarchical Concept based Learning) and its Application to Automatic Acquisition of Switching Operational Knowledge

Author

Keinosuke Matsumoto, Tomihiro Takano, Yoshizawa Junichi, and Hiromi Ogi

Subjects

Computer science, business.industry, Concept learning, Energy Engineering and Power Technology, Artificial intelligence, Electrical and Electronic Engineering, business

Published

1993

30. A Dynamic Verification Method for Knowledge-Based Systems

Author

Tomihiro Takano, Toshiaki Sakaguchi, and Keinosuke Matsumoto

Subjects

Dynamic simulation, Knowledge-based systems, High-level verification, Computer science, business.industry, Embedded system, Runtime verification, Energy Engineering and Power Technology, Verification, Electrical and Electronic Engineering, business, Software verification, Intelligent verification

Published

1991

31. Concept of new BTB system and evaluation of its configuration and performance

Author

T. Sato, Y. Matsushita, Isao Iyoda, Tomihiro Takano, M. Nakabayashi, and K. Tenuna

Subjects

Engineering, business.industry, Electrical engineering, Power budget, law.invention, Reliability engineering, Cost reduction, Flow control (fluid), Electric power system, law, Electrical network, Power electronics, business, Voltage converter, Power control

Abstract

In Japan, power systems have become complicated due to load increases. Problems with power system stability and short circuit current have occurred in large power systems and must be resolved. This requires not only the installation of new equipment but also the effective utilization of existing equipment, while also considering economic costs. The de-regulation and requirements for cost reduction increase the demands of power accommodation between large areas and between small areas. Power electronics technology is a possible solution. In this paper, the authors describe how an installation of a large back-to-back (BTB) system guarantees the beneficial effects of reducing short circuit current, improving power system stability and controlling power flow easily in the bulk power system.

Published

2002