Your search keyword '"Claus Leth Bak"' showing total 4 results

1. Synchronous Generator Loss of Field Protection: A Real-Time Realistic Framework and Assessment of Some Recently Proposed Methods

Author

Claus Leth Bak, Filipe Miguel Faria da Silva, Farhad Haghjoo, and Abbas Hasani

Subjects

Admittance, Computer science, 020209 energy, Reliability (computer networking), Excitation system, Energy Engineering and Power Technology, 02 engineering and technology, Permanent magnet synchronous generator, Field (computer science), Reliability engineering, Real-time-digital-simulator (RTDS), Generator (circuit theory), Face (geometry), 0202 electrical engineering, electronic engineering, information engineering, Synchronous generator protection, Electrical and Electronic Engineering, Short circuit, Electrical impedance, Loss of field

Abstract

A real-time realistic framework for synchronous generator loss of field (LOF) protection studies is suggested in this paper by using the real-time digital simulator, which allows the user to realistically model the generator field supply circuit. By using such framework, the performance of LOF protection algorithms can be comprehensively evaluated in the face of the various LOF events including the short circuit and two types of the open circuit events, while the open circuit occurrence cannot be studied in the conventional simulation programs. The obtained results demonstrate that the generator dynamics are significantly different in the face of various LOF failures and then all of them must be regarded to develop the new LOF protection algorithms. By using the suggested framework, the performance of some recently proposed schemes along with the conventional impedance and the admittance relays are comprehensively evaluated. The obtained results from applying the various LOF failures show that, against the conventional relays, the new schemes cannot detect all types of LOF failures and so, they do not have enough reliability.

Published

2019

2. Statistical Distribution of Energization Overvoltages of EHV Cables

Author

Teruo Ohno, W. Wiechowski, Akihiro Ametani, Thomas K. Sørensen, and Claus Leth Bak

Subjects

Engineering, Insulation coordination, business.industry, Statistical switching, Electrical engineering, Energy Engineering and Power Technology, High voltage, Line (electrical engineering), Standard deviation, Distribution (mathematics), Overvoltage, Extremely high voltage (EHV) cables, Overhead (computing), Probability distribution, Energization overvoltage, Electrical and Electronic Engineering, business

Abstract

Statistical distributions of switching overvoltages have been used for decades for the determination of insulation levels of extremely high voltage (EHV) systems. Existing statistical distributions obtained in the 1970s are for overhead lines, and statistical distributions of switching overvoltages of EHV cables are not available to date. This paper derives the statistical distribution of energization overvoltages of EHV cables. Through the comparison of the statistical distributions of EHV cables and overhead lines, it has been found that line energization overvoltages on the cables are lower than those on the overhead lines with respect to maximum, 2%, and mean values. As the minimum value is almost at the same level, standard deviations are smaller for the cables. The obtained statistical distributions in this paper are of a great importance in considering insulation levels of cable systems.

Published

2013

3. Estimation of the Required Modeling Depth for the Simulation of Cable Switching in a Cable-Based Network

Author

F. F. da Silva, Per Balle Holst, and Claus Leth Bak

Subjects

Engineering, business.industry, Energy Engineering and Power Technology, Grid, Data modeling, Power system simulation, Long period, Line (geometry), Electronic engineering, Transient (oscillation), Electrical and Electronic Engineering, Iec standards, business, Level of detail

Abstract

The simulation of an electromagnetic transient is only as good as the model's data and the level of detail put into the modeling. One parameter with influence in the results is the size of the modeling of the area around the switched-on line. If the area is too small, the results are inaccurate. If the area is too large, the simulation requires a long period of time and numerical problems are more likely to exist. This paper proposes a method that can be used to estimate the depth of the modeling area using the grid layout, which can be obtained directly from a PSS/E file, or equivalent. The simulation of electromagnetic transients in cable-based networks requires larger computational effort than in an equivalent overhead-line (OHL)-based network. Therefore, the method is demonstrated for the former, with the cases of OHL-based networks and hybrid cable-OHL networks addressed in a future paper. One of the main reasons behind the long simulation times of a cable-based network is the simulation of all the cross-bonded sections. The introduced method can also be used to minimize the modeling of the cross-bonded sections.

Published

2012

4. Overvoltage Protection of Large Power Transformers—A Real-Life Study Case

Author

Claus Leth Bak, W. Wiechowski, J. Lykkegaard, Jesper M. Rasmussen, Einar Andresson, and Kristin Einarsdottir

Subjects

Engineering, Emtp, business.industry, Surge arrester, Electrical engineering, Energy Engineering and Power Technology, law.invention, Electric power system, Overvoltage, law, Power electronics, Electrical and Electronic Engineering, business, Transformer, Power-system protection, Overhead line

Abstract

This paper demonstrates the results from a detailed study of the overvoltage protection of a particular 400/150-kV 400-MVA power transformer. The work presented here is based on a real-life power system substation design and data and initiated by Danish TSO Energinet.dk as a consequence of serious transformer overvoltage damage. A simulation model for the entire system consisting of overhead line, transformer, surge arrester, and earth grid has been created in PSCAD/EMTDC. The main focus has been put on the earth grid, which has been submodeled in detail in MATLAB using an electromagnetic transient approach based on the thin-wire program made by J. H. Richmond for NASA in 1974. The earth grid model is verified with excellent agreement compared to already published results. The overvoltage performance of the particular case is analyzed, and it shows that the transformers LIWL have probably been exceeded. It is clearly illustrated that the transient performance of the earth grid plays an important role in the overall overvoltage protection system design. Udgivelsesdato: April This paper demonstrates the results from a detailed study of the overvoltage protection of a particular 400/150-kV 400-MVA power transformer. The work presented here is based on a real-life power system substation design and data and initiated by Danish TSO Energinet.dk as a consequence of serious transformer overvoltage damage. A simulation model for the entire system consisting of overhead line, transformer, surge arrester, and earth grid has been created in PSCAD/EMTDC. The main focus has been put on the earth grid, which has been submodeled in detail in MATLAB using an electromagnetic transient approach based on the thin-wire program made by J. H. Richmond for NASA in 1974. The earth grid model is verified with excellent agreement compared to already published results. The overvoltage performance of the particular case is analyzed, and it shows that the transformers LIWL have probably been exceeded. It is clearly illustrated that the transient performance of the earth grid plays an important role in the overall overvoltage protection system design.

Published

2008