Your search keyword '"Impulse testing"' showing total 500 results

1. Dynamic Response of Damping Estimation of Layered Plate Systems Under Shock Loading

Author

Thomas, A. R., Soine, David, Zimmerman, Kristin B., Series Editor, Brake, Matthew R.W., editor, Renson, Ludovic, editor, Kuether, Robert J., editor, and Tiso, Paolo, editor

Published

2024

2. Detection of Interturn Short-Circuit Faults in Dry-Type Voltage Transformers Using the Pulse Voltage Method.

Author

Nie, Hongyan, Wang, Hongxin, Wang, Wei, and Yao, Yuanhang

Subjects

*ELECTRIC transformers, *VOLTAGE, *SHORT circuits, *PULSED power systems, *SHORT-circuit currents

Abstract

This article investigates the application of the pulse voltage method for detecting interturn short-circuit faults in the high-voltage windings of dry-type voltage transformers. We determined the characterization parameters of the high-voltage windings of dry-type voltage transformers and trends in the variation of the characterization parameters with frequency in the presence and absence of faults. The viability of using the pulse voltage method for the detection of interturn short-circuit faults in dry-type voltage transformers was analyzed. A pulse voltage test platform was designed to analyze the response voltage waveforms using pulse-oscillating voltage experiments on transformers with various short-circuit faults. The results demonstrate that during a turn-to-turn short circuit, the equivalent resistance and inductance of a high-voltage winding are significantly lowered. When employing the pulse voltage method to investigate interturn short-circuit faults, tiny inductors are connected in parallel to produce an oscillating voltage waveform that is more uniform. Upon incurring a short circuit between turns, the pulse's oscillating voltage frequency increases. The greater the number of turns in the short-circuit fault is, the more significant the effect of the test. [ABSTRACT FROM AUTHOR]

Published

2023

3. GPR Application for Non-Rigid Road Pavement Condition Assessment

Author

Batrakov Dmitry O., Antyufeyeva Mariya S., and Batrakova Angelika G.

Subjects

asphalt, dielectric materials, ground penetrating radar, impulse testing, nondestructive testing, ultra-wideband technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The main aim of the article is to demonstrate the effectiveness of the use of ground penetrating radars to assess various objects using the example of assessing the current state of highways. The article uses the software developed by the authors and the corresponding mathematical models. The analysis of the results obtained is based on mathematical models that have proven their effectiveness and is time-tested. It should be emphasised that the main problem in assessing roads with non-rigid pavement is associated with a change in the main parameters of the layers – thickness and dielectric constant. Previously, we proposed a scheme for the layer-by-layer determination of the values of the relative permittivity and then - the subsequent determination of the thickness of each layer, starting from the top layer and ending with the base. The paper presents the results of experiments actually carried out by the authors with various GPRs, which not only have different values of the central frequency, but also have significant design differences. In addition, the results of processing real data using the software developed by the authors are presented. As a result, an improved method of signal calibration has been proposed, which makes it possible to increase the reliability of assessing the thickness of road surfaces, as well as other objects.

Published

2022

4. Detection of Interturn Short-Circuit Faults in Dry-Type Voltage Transformers Using the Pulse Voltage Method

Author

Hongyan Nie, Hongxin Wang, Wei Wang, and Yuanhang Yao

Subjects

insulation testing, impulse testing, pulsed power systems, voltage transformers, Technology

Abstract

This article investigates the application of the pulse voltage method for detecting interturn short-circuit faults in the high-voltage windings of dry-type voltage transformers. We determined the characterization parameters of the high-voltage windings of dry-type voltage transformers and trends in the variation of the characterization parameters with frequency in the presence and absence of faults. The viability of using the pulse voltage method for the detection of interturn short-circuit faults in dry-type voltage transformers was analyzed. A pulse voltage test platform was designed to analyze the response voltage waveforms using pulse-oscillating voltage experiments on transformers with various short-circuit faults. The results demonstrate that during a turn-to-turn short circuit, the equivalent resistance and inductance of a high-voltage winding are significantly lowered. When employing the pulse voltage method to investigate interturn short-circuit faults, tiny inductors are connected in parallel to produce an oscillating voltage waveform that is more uniform. Upon incurring a short circuit between turns, the pulse’s oscillating voltage frequency increases. The greater the number of turns in the short-circuit fault is, the more significant the effect of the test.

Published

2023

5. A Method for Representing Non-Standard Waveform in Factory Tests Using Impulse Waveforms.

Author

Wickert, Humberto Margel and Marchesan, Tiago Bandeira

Subjects

*WAVELETS (Mathematics), *ELECTRIC transients, *FACTORY equipment

Abstract

The standard 1.2/50 lightning impulse test has been important for factory testing equipment and evaluating their performance in electrical systems. In practice, however, such equipment is subject to non-standard waveform (NSW) of high frequencies, which may not be covered by standard tests. To overcome this difficulty, the present article outlines a method that simulates NSW in laboratory tests. Based on multiresolution wavelet analysis, the method considers the correlation between amplitude and entropy in the decomposition levels between waveforms. To that end, changes are proposed to the following parameters of standard impulse tests: amplitude, cut-off instant, and front time. The results show that, mostly, the combination of a lightning impulse waveform (LIW) with impulse waves cut at different times, sufficiently represent the NSW. Only when the NSW's density falls predominantly in a frequency range above 3.125 MHz, will there be need for a complementary LIW with a steep front time. The method's application allows manufacturers and concessionaires to subject the equipment to conditions that properly represent the NSW effects, through lightning impulse tests carried out at the factory. [ABSTRACT FROM AUTHOR]

Published

2022

6. Propagation of Lightning, Oscillating and Non-standard Impulse Waveforms in Transformer Windings

Author

Florkowski, Marek, Furgał, Jakub, Kuniewski, Maciej, Pająk, Piotr, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Liang, Qilian, Series Editor, Martin, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zhang, Junjie James, Series Editor, and Németh, Bálint, editor

Published

2020

7. Streamer and Breakdown Characteristics of Dielectric Liquids Under Impulse Waveforms With Different Tail-Times.

Author

Liu, Qiang, Xiang, Jing, Wang, Zhongdong, and Lesaint, Olivier

Subjects

*LIQUID dielectrics, *DIELECTRIC breakdown, *BREAKDOWN voltage, *ELECTRIC breakdown, *ESTERS, *MINERAL oils

Abstract

Impulse waveforms have been widely used in the studies of streamer and breakdown phenomena in dielectric liquids. In this article, both experiments and analyses were carried out to investigate the effects of impulse tail-time on streamer and breakdown characteristics of a mineral oil and a synthetic ester liquid. A range of positive impulse waveforms with the same front-time of $0.8~ \boldsymbol {\mu } \textrm {s}$ but different tail-times from 8 to $3200~ \boldsymbol {\mu } \textrm {s}$ were considered. Needle-plane electrodes with a needle tip radius of 10 $\boldsymbol {\mu } \textrm {m} $ and a gap of 10 mm were used. It was found that reduction of tail-time leads to an increase of 50% impulse breakdown voltage, while the instant breakdown voltage and the time-to-breakdown remain constant. On this basis, an analytical method is developed to estimate the 50% impulse breakdown voltage under waveforms with various tail-times. The method is valid when streamers remain of second mode and in divergent fields. It was also observed that some “self-regulation” by branching explains the constancy of streamer propagation velocity when the applied voltage is increased. [ABSTRACT FROM AUTHOR]

Published

2022

8. Inverter-Embedded Partial Discharge Testing for Reliability Enhancement of Stator Winding Insulation in Low Voltage Machines.

Author

Lee, Hyeonjun, Kim, Hanju, Jeong, Jigyun, Lee, Kibok, Lee, Sang Bin, and Stone, Greg

Subjects

*PARTIAL discharges, *POWER semiconductors, *WIDE gap semiconductors, *TEST reliability, *RELIABILITY in engineering, *STATORS, *LOW voltage systems, *ELECTRIC inverters

Abstract

Partial discharge (PD) due to high dv/dt pulsewidth modulation has been identified as one of the leading causes of insulation failure in low voltage (LV) variable frequency drive (VFD) fed motors with random wound stator windings. With the recent increase in electrical stress with faster risetime wide bandgap power semiconductor devices and higher dc link voltage for higher efficiency and power density of the system, PD-induced insulation failures are expected to increase. Since LV motor insulation is not resistant to PD, an increasing number of VFD motors are being qualified for PD-free operation. However, the PD inception voltage of qualified motors decreases with insulation aging making LV motors susceptible to failure. In this article, an offline standstill test method is proposed for automated inverter-embedded PD testing under impulse excitation. The main concept is to perform the impulse PD test using the VFD at increased voltage levels for providing advanced warning of PD activity for preventing forced outage of VFD motors. Options for application of increased impulse test voltage and automated detection of PD for implementing the proposed concept are presented. Testing on an 800 V VFD driven motor shows that the proposed method can provide automated impulse PD testing whenever the motor is at standstill to warn the end user of impending PD activity that can lead to failure. [ABSTRACT FROM AUTHOR]

Published

2022

9. Long‐Term Stability of Reference Measuring System for Impulse High Voltage.

Author

Miyazaki, Satoru, Goshima, Hisashi, Wakimoto, Takayuki, and Ishii, Masaru

Subjects

*VOLTAGE dividers, *CIRCUIT elements, *ELECTRICAL engineers, *HIGH voltages, DEVELOPED countries

Abstract

Long‐term stabilities of shielded resistive voltage dividers for lightning and switching impulse, employed as the reference dividers of Japan High‐voltage Impulse testing Laboratory Liaison (JHILL) are investigated. The DC scale factors and the step‐response parameters have been annually measured for 20 years. Annual variations of impulse parameters, namely the peak value, the front time, and the time to half value of the calculated waveform from the step‐response waveforms by the convolution algorithm are investigated. Furthermore, long‐term stabilities of reference low‐voltage impulse calibrators are investigated. The parameters of circuit elements of the calibrators have been annually measured for 18 years. The impulse parameters of the output waveforms of the calibrators are calculated, and the annual variations of them are investigated. After the detailed evaluation, it can be expected that the measurement system employing the voltage dividers and the calibrators, including the analytical method of the data, has the similar performance to those of NMIs of developed countries. © 2021 Institute of Electrical Engineers of Japan. Published by Wiley Periodicals LLC. [ABSTRACT FROM AUTHOR]

Published

2022

10. Reference Switching Impulse Voltage Measuring System Based on Correcting the Voltage Divider Response With Software.

Author

Havunen, Jussi and Hallstrom, Jari

Subjects

*VOLTAGE dividers, *VOLTAGE, *COMPUTER software

Abstract

The performance of a high-voltage switching impulse (SI) measurement system is highly dependent on the characteristics of the used voltage divider. Self-built or commercial voltage dividers do not always fulfill the requirements set for reference-level devices. Software corrections to improve the non-ideal divider response are easy to implement. This article describes the traceability and performance of the SI measurement systems of VTT MIKES up to 400 kV. Traceability is based on a calculable impulse voltage calibrator, which is used for calibration of a reference digitizer and a 10-kV divider. The 10-kV divider is then used to calibrate the 400-kV modular divider. Responses of both dividers are corrected using two different software methods. Implementation of these software methods allows state-of-the-art impulse parameter uncertainties. The most significant uncertainty component of time to peak is related to its definition and evaluation according to IEC 60060-1:2010 and IEC 61083–2:2013. [ABSTRACT FROM AUTHOR]

Published

2021

11. Analysis of a Magnetostrictive Harvester With a Fully Coupled Nonlinear FEM Modeling.

Author

Clemente, Carmine Stefano, Davino, Daniele, and Loschiavo, Vincenzo Paolo

Subjects

*ENERGY harvesting, *KINETIC energy, *THERMODYNAMICS, *ELECTRIC potential measurement, *MAGNETIC domain, *WIRELESS sensor networks

Abstract

A force-driven kinetic energy harvester, designed to be excited with impulse-like mechanical loads, is presented. Energy harvesting is a promising technique to feed wireless sensor networks. The proposed device exploits three rods of Galfenol and has been modeled through FEM COMSOL Multiphysics with nonlinear fully coupled characteristics. They consider the general behaviors of magnetostrictive materials and are compatible with thermodynamics. The preliminary results of the time-domain simulations, with an impulse-like force applied, have been compared with experimental results showing a good agreement. Moreover, the proposed nonlinear modeling has shown better performances with respect to software built-in magnetostrictive models. At the same time, further modeling improvements seem to be needed in the future to better fit the harmonic content of the free evolution of the device. [ABSTRACT FROM AUTHOR]

Published

2021

12. Impulse Excitation of Piezoelectric Patch Actuators for Modal Analysis

Author

Ruffini, V., Nauman, T., Schwingshackl, C. W., Zimmerman, Kristin B., Series editor, Mains, Michael, editor, and Blough, J.R., editor

Published

2017

13. Synchronization of Complex Stochastic Coupled Systems Based on Graph Theory

Author

Chaolong Zhang, Feiqi Deng, Weihua Mao, and Ting Hou

Subjects

Stochastic system, synchronization, LaSalle invariant principle, adaptive control, impulse testing, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Based on the LaSalle invariant principle of stochastic differential equations and the graph theory, several sufficient conditions are obtained by adaptive feedback control and impulsive control. The error dynamical system is globally almost surely asymptotically stable. The conclusion is new and feasible. Finally, an example is given to show the validity of the results.

Published

2018

14. Study on the thermal behaviour and non-linear coefficient of the 10 kV ZnO surge arrester.

Author

Cai, Li, Yu, Wenbo, Wang, Jianguo, Xu, Zhiling, Zhou, Mi, and Fan, Yadong

Subjects

*ZINC oxide synthesis, *WIDE gap semiconductors, *ZINC oxide, *GOAL (Psychology), *DEBYE temperatures, *SURFACE temperature

Abstract

The thermal behaviour of the surge arrester is vital to assess its operational condition. The surge arrester usually shows a process of temperature rising during a long-term operation, particularly after subjecting to a surge. Therefore, the research on the temperature characteristics of ZnO arresters contributes to achieve the goal of the performance changes of the ZnO arresters over different temperatures. In this study, based on four types of ZnO arresters from different factories, the variation of the volt–ampere curve, DC characteristic parameters and non-linear coefficient of the whole ZnO arrester at different temperatures were analysed. The relationship between the temperature and non-linear coefficients was obtained through the method of the extraction of the non-linear coefficients. Through the multiple impulse current tests, the temperature of the arrester was well calculated by measuring the corresponding volt–ampere curve, and the relationship between the surface temperature and V–I characteristics of the arrester is verified by the impulse test results. The obtained results provide a new idea for the application of the surface temperature of the arrester in the performance monitoring of the arrester. [ABSTRACT FROM AUTHOR]

Published

2020

15. Transient analysis of the active surge protection gap trigger process with lightning voltage impulse injection.

Author

Le, Yangjing, Yao, Xueling, Sun, Jinru, Li, Tianquan, Xu, Wenjun, and Chen, Jingliang

Subjects

*TRANSIENT analysis, *ELECTROSTATIC discharges, *LIGHTNING, *ELECTRIC discharges, *LIGHTNING protection, *ELECTRIC breakdown

Abstract

An active gas surge protection gap (SPG) and its energy coupling trigger circuit were designed in this study. In the lightning voltage impulse test, the active SPG had better protection characteristics than the passive SPG. To investigate the influence of the trigger circuit on the protection characteristics, the transient voltage and current characteristics of each electrical component in the active coupling trigger circuit were discussed. The equivalent model of the active trigger circuit was established, and the correlation between the active SPG protection characteristics and the active trigger circuit parameters was derived. According to the relationship, the theoretical breakdown characteristics of the active SPGs can be obtained by MATLAB. The deviation between simulated results and experimental data was no more than 11%. Based on the simulation, the design principles of the active energy coupling triggering circuit were proposed, laying the foundation for the theoretical research and engineering application of active SPGs. [ABSTRACT FROM AUTHOR]

Published

2020

16. Statistical correlation technique for transient signal analysis during impulse testing of transformers.

Author

Garg, Ankita, Sharma, Tapan, Jain, Apurti, and Velandy, Jeyabalan

Abstract

The reliable technique for identification of winding insulation faults in a transformer is necessary for a testing engineer during impulse test. In this study, a statistical correlation technique is proposed to estimate the 'best correlation' between transient signals for passed (withstood the impulse voltage) or failed (not withstood) conditions of the insulations. In this study, normalised reduced impulse voltage is considered initially as a reference signal. The next successive impulse test sequences due to rated test voltage are correlated as a test signal with a reference signal using a proposed technique. It makes a 'good correlation value along with its directions' between the reference signal and test signal based on measured the applied impulse voltage waveshape and its winding response. The fundamentals of the correlation coefficient, curve fitting techniques, conditional variance, normalisation and time delay index are integrated effectively to predict the characteristics (degree/magnitude and direction) of correlation between the signals. 2.5‐MVA 11/0.433 kV (distribution transformer), 0.3‐MVA 34.5/0.415 kV (earthing transformer) and 250‐MVA 500/275/33 kV (power transformer) are effectively utilised to validate proposed technique. The advantage of the proposed technique is validated with partial discharge detection in windings due to an impulse voltage application using an 11 kV single‐layer winding. [ABSTRACT FROM AUTHOR]

Published

2020

17. Surge Test-Based Identification of Stator Insulation Component With Partial Discharge Activity for Low Voltage AC Motors.

Author

Lee, Sang Bin, Naeini, Alireza, Jayaram, Shesha, Stone, Greg C., and Sasic, Mladen

Subjects

*ALTERNATING current electric motors, *PARTIAL discharges, *STATORS, *LOW voltage systems, *MOTOR drives (Electric motors), *SYSTEMS design

Abstract

Partial discharge (PD) has been identified as one of the root causes of stator insulation failure even for low voltage (LV) ac motors. For reliable operation of variable frequency drive motors, a standard acceptance test procedure (IEC STD 60034-18-41) to ensure PD-free operation of LV motors was developed. Although the test can verify whether PD exists in the stator for a surge with predetermined voltage level and risetime, the information on where PD activity is present in the stator insulation is not provided. In this article, a test method based on a new variable risetime surge generator is proposed for identifying the component of stator insulation where PD occurs in LV random wound stators. The proposed test allows the user to locate whether PD is in the turn, phase, or ground insulation. This information is critical for lowering the PD inception voltage for improving the motor reliability through insulation system design/manufacturing or motor/drive system reconfiguration. The test is implemented with a 4.5 kV variable risetime surge generator prototype, and seven LV ac motors are tested to show where PD is likely to occur in commercial LV motors. [ABSTRACT FROM AUTHOR]

Published

2020

18. A Validity Analysis of Extending Front Time in Lightning Impulse Tests for Ultrahigh-Voltage Transformers.

Author

Ni, Heli, Zhang, Qiaogen, Zhao, Yi, Wen, Tao, and Guo, Chong

Subjects

*LIGHTNING, *CAPACITIVE sensors, *TRANSFORMER insulation, *MONEY, *UNITS of time, *BREAKDOWN voltage, *POWER transformers

Abstract

High entrance capacitances of ultrahigh-voltage (UHV) transformers make it difficult to generate impulses with standard front time during the lightning impulse tests. In this paper, we discuss the feasibility of examining the longitudinal insulation design of a transformer via impulses with a front time longer than the standard value. We consider the following features: transient voltage distributions and insulation characteristics of longitudinal insulation. The transient voltages of two UHV windings are measured with a capacitive voltage sensor under impulses with different front times. The results demonstrate that the front time of the applied impulse has little effect on the gradient voltage distributions and the oscillatory component of the transient voltage, but it determines the front time of transient voltages. Therefore, the relationship between breakdown characteristics of the turn-to-turn insulation and the front time is studied. Experimental results revealed that whatever the insulation thickness, an increase in the front time of the applied impulse decreases the breakdown voltage, but this variation is within acceptable tolerance when the front time changes from 1.2 μs to 6 μs. Thus, as long as the front time is restricted within 6 μs, we can ensure the validity of lightning impulse tests on the examination of longitudinal insulation designs. [ABSTRACT FROM AUTHOR]

Published

2020

19. Breakdown and streamer behavior in double-layer oil-paper insulation under impulses of varying front time.

Author

Ni, Heli, Zhang, Qiaogen, Guo, Chong, and Wen, Tao

Subjects

*SPACE charge, *BREAKDOWN voltage, *HIGH voltages

Abstract

The breakdown and streamer behavior in double-layer oil-paper insulation under impulses of varying front time were investigated in this study to determine the prebreakdown process in oil-paper insulation. The relationships between front times and breakdown characteristics were investigated and impulse-polarity-dependent variations were observed. The complete impulse breakdown process and precise role of front time were assessed as per streamer initiation and streamer propagation based on emitted light signals and shadow images. The re-initiation of streamers in non-first oil gaps was determined to be the key factor in breakdown as-dominated by applied voltage and space charge accumulation. The initiation and propagation times of streamers were observed to find that the streamers tend to propagate at phases with higher voltage amplitude as front time increases, which facilitates streamer re-initiation and thus decreases the breakdown voltage. Equivalent applied voltages during streamer propagation were further calculated to quantitatively investigate the effect of front time on streamer propagation. [ABSTRACT FROM AUTHOR]

Published

2020

20. Study on the optimisation of the end fittings of the DC disconnector

Author

Jindi Li, Yujian Ding, Fangcheng Lv, Xiuyuan Yao, and Yan Mao

Subjects

gas insulated switchgear, finite element analysis, impulse testing, lightning protection, air gaps, switching impulse test, optimised disconnector, end fittings, DC disconnector, key electrical equipment, indoor DC field, double-balanced ring structure, electric field simulation, maximum field strength, control field strength, DC project, switching impulse discharge voltage, impact discharge voltage, voltage 1100.0 kV, voltage 2400.0 kV, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The disconnector is the key electrical equipment in DC field. In China, the ±1100 kV DC project uses the indoor DC field, where the switching impulse withstand voltage of the disconnector influences the clearance a lot. To improve the switching impulse withstand level of the ±1100 kV disconnector, first of all, the switching impulse test was carried out on the disconnector with traditional double-balanced ring structure and the 50% switching impulse discharge voltage was obtained. By analysing the discharge path, it is found that the grading ring did not effectively shield the upper part of the disconnector. Therefore, the structure of the end fittings of the disconnector was changed to the structure of the mushroom head. The electric field simulation was performed on the optimised shield，it is shown that the maximum field strength is lower than the control field strength. Then the switching impulse test was carried out on the optimised disconnector, it was found that the 50% impact discharge voltage was above 2400 kV which met the engineering requirements.

Published

2019

21. Design of an Archimedes spiral antenna for PD tests under repetitive impulsive voltages with fast rise times.

Author

Zhou, Wanya, Wang, Peng, Zhao, Zhengjia, Wu, Qi, and Cavallini, Andrea

Subjects

*SPIRAL antennas, *PARTIAL discharges, *ANTENNA design, *HIGH voltages, *ELECTRIC inverters

Abstract

Partial discharge inception voltage measurements under repetitive impulsive voltages play an essential role in evaluating the reliability of inverter-fed low voltage rotating machines. Using impulsive voltages, partial discharge (PD) signals and the disturbance induced by power electronics switches have often similar energy distribution in the frequency domain. Thus, PD test technologies used with sinusoidal voltages are no longer effective. Under repetitive impulsive voltages, ultra-high frequency detection is recommended to couple high-frequency spectral components from the PD and remove the low-frequency disturbance coming from power electronics. However, to obtain high signal to noise (S/N) ratio, the parameters of the antenna used for PD detection should be designed considering the PD and the disturbance energy distributions in the frequency domain. In this paper, we discuss the design and show the properties of an antenna with Archimedes plane spiral structure intended for PD detection under repetitive impulse voltages. The simulation shows that the antenna has low voltage standing wave ratio (<2) and improved directivity in the frequency range from 0.5 to 2 GHz. Moreover, PD tests performed using repetitive square waves with different rise times demonstrate that the designed antenna can receive PD signals efficiently with high S/N. [ABSTRACT FROM AUTHOR]

Published

2019

22. Study on the optimisation of the end fittings of the DC disconnector.

Author

Li, Jindi, Ding, Yujian, Lv, Fangcheng, Yao, Xiuyuan, and Mao, Yan

Subjects

DIRECT current circuits, GAS insulation in electric switchgears, ELECTRIC fields, FINITE element method, ELECTRIC potential

Abstract

The disconnector is the key electrical equipment in DC field. In China, the ±1100 kV DC project uses the indoor DC field, where the switching impulse withstand voltage of the disconnector influences the clearance a lot. To improve the switching impulse withstand level of the ±1100 kV disconnector, first of all, the switching impulse test was carried out on the disconnector with traditional double-balanced ring structure and the 50% switching impulse discharge voltage was obtained. By analysing the discharge path, it is found that the grading ring did not effectively shield the upper part of the disconnector. Therefore, the structure of the end fittings of the disconnector was changed to the structure of the mushroom head. The electric field simulation was performed on the optimised shield，it is shown that the maximum field strength is lower than the control field strength. Then the switching impulse test was carried out on the optimised disconnector, it was found that the 50% impact discharge voltage was above 2400 kV which met the engineering requirements. [ABSTRACT FROM AUTHOR]

Published

2019

23. Aging characteristics of polymeric materials by repeated surface flashovers in vacuum under microsecond pulse.

Author

Hu, Duo, Ren, Chengyan, Kong, Fei, Zhang, Cheng, Shao, Tao, and Yan, Ping

Subjects

*SURFACE morphology, *ELECTRIC discharges, *ELECTRIC potential, *THIN films, *NANOPARTICLES

Abstract

Surface flashover characteristics of insulation materials in vacuum are key factors to determine the behavior of high voltage electrical equipment. Although the surface flashover in vacuum has been investigated for decades, the surface insulation properties of polymeric materials after repeated surface discharges have shown little attention by researchers. In order to investigate the aging characteristics of polymeric materials caused by repeated flashovers in vacuum, several typical materials were used to flashover by microsecond pulses. The flashover voltages were obtained for polytetrafluoroethylene, polymethylmethacrylate and polyamide for thousands of flashovers. The surface morphology of samples was observed after different numbers of flashovers. The trap parameter distribution was obtained by the isothermal surface potential decay method. To analyze the flashover voltage change with discharge times, the Weibull distribution was used to determine the conditioning and degradation effects in repeated discharge experiments. The results show that the morphology near the cathode triple junction and deep traps together affect the subsequent flashover voltage. The conditioning and degradation phenomena often coexist in the aging process of polymers and affect the surface insulation properties. This study could provide a reference for the type selection, design, and modification of insulation materials in vacuum. [ABSTRACT FROM AUTHOR]

Published

2019

24. Modeling Long Open-Air Electric Arcs.

Author

Miguel, Pablo Mourente

Subjects

*ELECTRIC arc, *ATMOSPHERIC pressure, *ELECTRIC power transmission, *ELECTRIC insulators & insulation, *SIMULATION methods & models

Abstract

This article presents a model of Sparking Gap to be used in the Alternative Transients Program (ATP). The model includes the simulation of breakdown and a representation of the electric arc. The arc will be non-constrained and burn in air at atmospheric pressure, thus a discussion of the model and parameters to be used is presented. The effect of the arc on the interruption of current will be studied. Examples of power arc interruption following an impulse impact on a 230 kV transmission line are presented. The effects of interphase capacitive coupling and line length are discussed, in order to establish guidelines to allow successful reclosing operations. [ABSTRACT FROM AUTHOR]

Published

2018

25. Prediction technique for dynamic stress on bellows exhaust pipe (2) (Dynamic stress analysis of multilayer bellows using equivalent stiffness model)

Author

Michihiro KAWASHITA, Takayuki OHNO, Akio HOSHI, Kenji ITO, Takayuki SHIMODAIRA, and Yasuhiko SHINJI

Subjects

hydraulic excavator, bellows, multilayer, excitation, transient response analysis, impulse testing, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215

Abstract

We developed a new prediction technique for dynamic stress on a bellows with low computational load, to secure the strength reliability of the multilayer bellows used in the engine exhaust system of hydraulic excavators. In this developed technique, dynamic stress is predicted by constructing the bellows finite element model with single-layer shell elements having stiffness equivalent to that of the multilayer bellows and selecting appropriate excitation conditions for each stress-generating factor. The stress time waveform calculated by the developed prediction technique was verified by actual measurement results, and the following conclusions were obtained: (a) The causes of dynamic stress on the bellows were specified and classified into the two classifications. One is the deformation of the bellows caused by relative displacement. The other is the deformation caused by the bellows vibration modes; (b) Appropriate excitation conditions of the bellows model are forced displacement input for predicting dynamic stress caused by relative displacement, and forced acceleration input for predicting dynamic stress caused by the bellows vibration modes; (c) The calculation results derived by using the above model and the excitation inputs were verified by measuring a vibration bench test. The calculated stress had relative agreement with measured stress in the test.

Published

2018

26. <scp>Long‐Term</scp> Stability of Reference Measuring System for Impulse High Voltage

Author

Hisashi Goshima, Masaru Ishii, Takayuki Wakimoto, and Satoru Miyazaki

Subjects

Impulse testing, Materials science, Control theory, High voltage, Electrical and Electronic Engineering, Impulse (physics), Stability (probability), Term (time)

Published

2021

27. Effectiveness of on-site dielectric test of GIS equipment.

Author

Wu, Zhicheng, Zhang, Qiaogen, Ma, Jingtan, Li, Xiaoang, and Wen, Tao

Subjects

*ELECTRIC discharges, *DIELECTRIC devices, *ELECTRIC breakdown, *ELECTRIC potential, *ELECTRIC fields

Abstract

Even for gas-insulated metal-enclosed switchgear (GIS) equipment that has passed an on-site dielectric test, some dielectric failure can occasionally occur without warning. It is necessary to evaluate the effectiveness of on-site dielectric tests of GIS equipment. In this study, two standard test procedures, power-frequency partial discharge (PD) and lighting impulse (LI) withstand test, were carried out in a real model test platform of 550 kV GIS to evaluate the effectiveness of on-site dielectric tests. Through experiments, the minimum detectable defect sizes were determined for different curvature radius values. The results show the limitation of the power-frequency PD test and the need to use of the LI withstand test as supplementary assessment on site. Two calculable constraints of defect detectability were proposed to extend the results to GIS equipment at other voltage levels. The results clarify the cause of dielectric failure without any warning and provide technological guidance for manufacturing and installation. [ABSTRACT FROM AUTHOR]

Published

2018

28. Influence of remote earth and impulse polarity on earthing systems by field measurement.

Author

Abdullah, Syarifah, Mohamad Nor, Normiza, Agbor, Nkwa, Reffin, Muhd, and Othman, Marinah

Abstract

There has been a vast vacuum in the literature on the importance of the location of remote earth carried out during impulse test on grounding systems using field measurements. Some published work show that the remote earth is installed surrounding the electrode under tests, whilst some have used separate remote earth, away from it. This work studies the impact of return electrode location on transient behaviour of the earthing electrode. The electrode under test is a single rod. Two types of remote earth configurations are used, a circular electrode with multiple rods surrounding the single rod, and one that is 80 m away from it. Impulse tests are conducted under both impulse polarities. Voltage and current traces are captured for a single rod, using two different types of remote earth configurations, with the impulse resistance measured as well. It has been established that the arrangement of the remote earth poses no influence on the test results. That said, higher oscillations of current traces and higher resistance values have been observed in negative impulse in comparison with positive impulse polarities. [ABSTRACT FROM AUTHOR]

Published

2018

29. Comparison of different procedures to predict the volt-time curves of 15 kV insulators.

Author

Shigihara, M., Piantini, A., Ramos, M.C.E.S., Braz, C.P., Mazzetti, C., and Ancajima, A.

Subjects

*ELECTRIC insulators & insulation, *ELECTRIC breakdown, *ELECTRIC potential measurement, *LIGHTNING protection, *ELECTRIC transformers

Abstract

This paper presents the results of the application of a novel method to estimate the parameters of the Disruptive Effect Model for the prediction of the volt–time curves of 15 kV insulators. Besides the standard lightning impulse voltage waveshape, four non-standard impulse waveshapes (namely 1.2/4 μs, 1.2/10 μs, 3/10 μs, and 7.5/30 μs), of both polarities, were adopted in the tests. The measured volt–time characteristics of a 15 kV class pin-type insulator were compared with those predicted by three different procedures related to the Disruptive Effect Model: Darveniza and Vlastos, Hileman, and the one recently proposed by the authors. The results show that for some impulse waveshapes and polarities, the methods by Darveniza and Vlastos and by Hileman do not predict insulator breakdown for the lower voltage levels. On the other hand, a relative good agreement is found between theoretical and experimental results for the calculations performed using the method proposed by the authors. [ABSTRACT FROM AUTHOR]

Published

2017

30. Prediction of lightning impulse voltage induced breakdown in vacuum interrupters.

Author

Marconato, N., De Lorenzi, A., Pilan, N., Bettini, P., Specogna, R., Lawall, A., and Wenzel, N.

Subjects

*ELECTRIC breakdown, *VACUUM circuit breakers, *PROBABILITY theory, *PREDICTION models, *ELECTRIC insulators & insulation

Abstract

A concept to predict the Lightning Impulse Voltage (LIV) breakdown probability of medium voltage Vacuum Interrupter (VI) tubes has been developed and tested for the first time employing the Voltage Holding Prediction Model (VHPM) originally formulated at Consorzio RFX. The VHPM is capable to calculate the Weibull breakdown probability curve of any multi-electrode multi-voltage system insulated in vacuum under dc voltage. Even though the possibility to employ the VHPM in the prediction of voltage breakdown under LIV conditions is not straightforward, the potential benefits of the VHPM usage in VI tube technology with regard to development, design and testing at medium and high voltage levels, strongly recommend the assessment of VHPM under LIV conditions. The paper aims to describe the methodology adopted to identify experimentally the VHPM parameters to be employed in such a novel application to assess its prediction capability. The measurements have been done in the Siemens Berlin VI tube factory test stand for LIV, compliant with the IEC standard. Different vacuum tube types manufactured by Siemens were investigated. The main difficulty was to obtain, with such a test bed, voltage breakdown distributions well fitted by a Weibull Distribution — upon which the VHPM is based — primarily due to the difficulty to reach a well-defined end of the conditioning test sequence preceding the relevant voltage breakdown test sequence suitable to be analyzed by the VHPM. Nevertheless, the VHPM prediction resulted in reasonable agreement with the measured probability curves. Finally, investigating VI tubes with spiral-type Radial Magnetic Field (RMF) contacts, characterized by a geometry strongly deviating from axial 2-D symmetry, the first implementation of a full 3-D version of the VHPM has been tested. [ABSTRACT FROM AUTHOR]

Published

2017

31. Reference Switching Impulse Voltage Measuring System Based on Correcting the Voltage Divider Response With Software

Author

Jussi Havunen and Jari Hällström

Subjects

Computer science, business.industry, Measurement uncertainty, System of measurement, Voltage divider, High-voltage techniques, Impulse (physics), Software, Impulse testing, Measurement techniques, Calibration, Electronic engineering, Error correction, Electrical and Electronic Engineering, business, Instrumentation, Low voltage, Voltage

Abstract

The performance of a high-voltage switching impulse (SI) measurement system is highly dependent on the characteristics of the used voltage divider. Self-built or commercial voltage dividers do not always fulfill the requirements set for reference-level devices. Software corrections to improve the non-ideal divider response are easy to implement. This article describes the traceability and performance of the SI measurement systems of VTT MIKES up to 400 kV. Traceability is based on a calculable impulse voltage calibrator, which is used for calibration of a reference digitizer and a 10-kV divider. The 10-kV divider is then used to calibrate the 400-kV modular divider. Responses of both dividers are corrected using two different software methods. Implementation of these software methods allows state-of-the-art impulse parameter uncertainties. The most significant uncertainty component of time to peak is related to its definition and evaluation according to IEC 60060-1:2010 and IEC 61083-2:2013.

Published

2021

32. Lightning impulse voltage distribution over voltage transformer windings — Simulation and measurement.

Author

Trkulja, Bojan, Drandić, Ana, Milardić, Viktor, Župan, Tomislav, Žiger, Igor, and Filipović-Grčić, Dalibor

Subjects

*ELECTRIC transformers, *ELECTRIC windings, *LIGHTNING, *ELECTRIC power distribution, *ELECTRIC potential equipment, *BOUNDARY element methods, *ELECTRIC potential measurement

Abstract

This paper presents a fast and precise method for the calculation of internal voltage transients over the voltage instrument transformer windings. Lumped circuit parameters of the transformer winding are calculated using self-developed solvers based on the boundary element method and integral equations approach. A detailed equivalent circuit of the transformer winding is solved in time domain. Test model of the voltage instrument transformer is constructed with a number of measurement points along the windings. Results of the calculation are in a good agreement with the measured voltages. [ABSTRACT FROM AUTHOR]

Published

2017

33. Transient analysis of the active surge protection gap trigger process with lightning voltage impulse injection

Author

Yangjing Le, Sun Jinru, Xu Wenjun, Chen Jingliang, Yao Xueling, and Li Tianquan

Subjects

Physics, Impulse testing, business.industry, Electric breakdown, Electrical engineering, Energy Engineering and Power Technology, Impulse (physics), Transient analysis, Transient voltage suppressor, Control and Systems Engineering, Electrical and Electronic Engineering, Surge, business, Voltage

Published

2020

34. Breakdown and streamer behavior in double-layer oil-paper insulation under impulses of varying front time

Author

Qiaogen Zhang, Heli Ni, Chong Guo, and Tao Wen

Subjects

010302 applied physics, Imagination, Materials science, Impulse testing, Dielectric strength, Physics::Instrumentation and Detectors, media_common.quotation_subject, Mechanics, Impulse (physics), 01 natural sciences, Space charge, Voltage amplitude, Physics::Plasma Physics, 0103 physical sciences, Breakdown voltage, Electrical and Electronic Engineering, media_common, Voltage

Abstract

The breakdown and streamer behavior in double-layer oil-paper insulation under impulses of varying front time were investigated in this study to determine the prebreakdown process in oil-paper insulation. The relationships between front times and breakdown characteristics were investigated and impulse-polarity-dependent variations were observed. The complete impulse breakdown process and precise role of front time were assessed as per streamer initiation and streamer propagation based on emitted light signals and shadow images. The re-initiation of streamers in non-first oil gaps was determined to be the key factor in breakdown as-dominated by applied voltage and space charge accumulation. The initiation and propagation times of streamers were observed to find that the streamers tend to propagate at phases with higher voltage amplitude as front time increases, which facilitates streamer re-initiation and thus decreases the breakdown voltage. Equivalent applied voltages during streamer propagation were further calculated to quantitatively investigate the effect of front time on streamer propagation.

Published

2020

35. Variación de los parámetros eléctricos de la arena con la frecuencia

Author

Oscar Germán Duarte Velasco, John Edwin Candelo Becerra, and Johny Hernan Montaña Chaparro

Subjects

Soil measurement, impedance measurement, permittivity measurement, resistivity variation, impulse testing, transient response, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Este artículo presenta los resultados de dos tipos de pruebas hechas a una clase de arena para obtener los valores de resistividad y permitividad eléctricas en el rango de los Hz hasta los MHz. Una de las pruebas fue realizada a frecuencias específicas con un generador de señales, y la otra fue hecha con un generador de impulsos de tensión, con lo cual se trabajó un espectro continuo de frecuencias. Las pruebas se llevaron a cabo para tres valores de humedad, y los resultados de ambas mostraron un comportamiento no lineal presente en la superficie de los electrodos de prueba. Esta no linealidad fue modelada y considerada en el procedi-miento de cálculo de los valores de permitividad y resistividad en el dominio de la frecuencia. Finalmente, se señalan los resultados, las conclusiones y el trabajo futuro.

Published

2012

36. Experimental investigation of the external lightning protection of ships through impulse voltage tests on a scaled‐down ship model.

Author

Nicolopoulou, Eleni P., Gonos, Ioannis F., and Stathopulos, Ioannis A.

Abstract

The impacts of a lightning strike are amplified in an environment with special features such as a ship electric grid, especially within the extended integration of electronic systems. In most marine regulations, lightning protection specifications are inadequate in the cases of metallic vessels, regarding the necessity of installing lightning rods and the method for the definition of their protection zone and subsequently of their height. Therefore, impulse voltage experiments on a scaled‐down ship model were conducted in order to acquire interception probability distributions of its superstructures and to assess the accuracy of various protection zone models, established for isolated rods, on the given complex topology of a ship. The experimental results highlighted the overestimation of the protection zone even by the well‐established rolling sphere model for negative polarity impulses depending on the geometrical conditions and the satisfying performance of statistical models that incorporate proximity effects and lightning interception probability. [ABSTRACT FROM AUTHOR]

Published

2016

37. Partial discharges in void defect of gas insulated switchgear insulator under standard aperiodic and oscillating switching impulses.

Author

Ren, Ming, Dong, Ming, Zhang, Chongxing, and Liu, Jialin

Subjects

*ELECTRIC insulators & insulation, *PARTIAL discharges, *ELECTRIC fields, *ELECTRIC potential, *ELECTRIC capacity

Abstract

This study focuses on partial discharges (PDs) in the gaseous void in an insulator under aperiodic switching impulse (SI) and oscillating SI (OSI). The PD measurements are carried out using a 110-kV GIS model with an artificial known void defect in a basintype insulator. Experiments show that the PD sequences under SI and OSI are composed of the main discharge, which occurs at the rising edges or the peaks of the applied impulse, and the polarity reverse discharge, which occurs at the falling edges or troughs. For a new sample, the 50% PD inception electric field (PDIE50) under different stress types obviously decreases with increasing void radius, and their values follow the pattern PDIE50, OSI > PDIE50, SI > PDIE50, AC. For an aged sample, the difference between the experimental PDIEs and the streamer inception value becomes close. The relationships between the time lag and the applied voltage can be calculated by the V?t curves, which roughly describe the distribution of the time lag under impulses. The experiment indicates that OSI can more easily excite PD compared with SI. Repeated tests show that the magnitudes and numbers of the main and reverse PDs gradually change as the test is repeated. [ABSTRACT FROM AUTHOR]

Published

2016

38. Breakdown of CF3I gas and its mixtures under lightning impulse in coaxial-gil geometry.

Author

Chen, L., Griffiths, H., Haddad, A., and Kamarudin, M. S.

Subjects

*ELECTRIC breakdown, *GAS mixtures, *LIGHTNING, *IMPULSE (Physics), *ELECTRIC insulators & insulation

Abstract

SF6 is widely used in modern transmission and distribution networks because of its outstanding dual qualities: arc quenching and dielectric insulation. As a gas medium, SF6 is chemically inert, non-toxic, and non-flammable, which makes possible the construction of compact SF6 switchgear. One major known disadvantage of the gas is that it has a global warming potential which is 23,900 times higher than CO2. This has led to research into alternative gases with a much lower environmental impact, and one of the emerging candidates is CF3I. The high boiling temperature of CF3I means that it has to be used as part of a mixture inside gas-insulated equipment. To carry out the investigation on CF3I, a scaled-down coaxial system that replicates the maximum electric field of a 400 kV GIL system was designed and fabricated. The insulation performances of CF3I/CO2 and CF3I/N2 gas mixtures were then examined by measuring the 50% breakdown voltage, U50, using a standard lightning impulse waveform (1.2/50) under absolute pressures of 1 to 4 bar. The experimental results show that CF3I gas mixtures have promising potential as an insulation medium for application in gasinsulated lines. [ABSTRACT FROM AUTHOR]

Published

2016

39. Evaluation of the performance of different methods for estimating the parameters of the disruptive effect model — Application to 15 kV insulators.

Author

Shigihara, M., Piantini, A., Ramos, M. C. E. S., Braz, C. P., Mazzetti, C., and Ancajima, A.

Subjects

*ELECTRIC insulators & insulation, *IMPULSE (Physics), *ELECTRIC potential, *ELECTRIC power distribution, *ENERGY industries

Abstract

This paper presents an evaluation of the performance of different methods for estimating the parameters required for the application of the Disruptive Effect Model to the analysis of the breakdown characteristics of 15 kV distribution insulators subjected to lightning impulses. The tests involved the application of both the standard (1.2/50 μs) and non-standard lightning impulse voltage waveshapes (1.2/4 1.2/10 3/10 μs) and 7.5/30 μs)of positive and negative polarities. The obtained Vxt characteristics are compared with those predicted by the Disruptive Effect Model using the most common procedures for estimating the parameters necessary for its application, including a novel method which is presented in the paper. An analysis of the results relevant to the various procedures shows that the parameters obtained according to the proposed method lead to a better agreement between theoretical and experimental results. [ABSTRACT FROM AUTHOR]

Published

2016

40. Design of an Archimedes spiral antenna for PD tests under repetitive impulsive voltages with fast rise times

Author

Wanya Zhou, Qi Wu, Andrea Cavallini, Zhengjia Zhao, Peng Wang, Zhou W., Wang P., Zhao Z., Wu Q., and Cavallini A.

Subjects

010302 applied physics, Physics, rotating machine, Acoustics, impulse testing, spiral antenna, Impulse (physics), 01 natural sciences, Directivity, partial discharge, Frequency domain, Power electronics, 0103 physical sciences, Partial discharge, Standing wave ratio, Electrical and Electronic Engineering, Low voltage, UHF antennas, Voltage

Abstract

Partial discharge inception voltage measurements under repetitive impulsive voltages play an essential role in evaluating the reliability of inverter-fed low voltage rotating machines. Using impulsive voltages, partial discharge (PD) signals and the disturbance induced by power electronics switches have often similar energy distribution in the frequency domain. Thus, PD test technologies used with sinusoidal voltages are no longer effective. Under repetitive impulsive voltages, ultra-high frequency detection is recommended to couple high-frequency spectral components from the PD and remove the low-frequency disturbance coming from power electronics. However, to obtain high signal to noise (S/N) ratio, the parameters of the antenna used for PD detection should be designed considering the PD and the disturbance energy distributions in the frequency domain. In this paper, we discuss the design and show the properties of an antenna with Archimedes plane spiral structure intended for PD detection under repetitive impulse voltages. The simulation shows that the antenna has low voltage standing wave ratio (

Published

2019

41. Validation of a System for Evaluation of High-Voltage Impulses According to IEC 60060:2010.

Author

Barbosa, Carlos R. Hall, da Silva, Marcio Thelio Fernandes, Azevedo, Luiz Carlos, and Faria, Lucas Castro

Subjects

*AUTOMATION, *DIGITAL oscilloscopes, *HIGH voltages, *CALIBRATION

Abstract

This paper describes IMPREAL 2.0, a system developed in LabVIEW that automates the acquisition of voltage impulse waveforms from digital oscilloscopes and implements the mathematical procedures described in the new standards from the International Electrotechnical Commission IEC 60060:2010. The system controls commercial digital oscilloscopes and is able to automatically calculate the time and amplitude parameters of lightning impulses (LI), switching impulses, chopped LI, and oscillating impulses (lightning and switching) waveforms, generating test reports tailored for the needs of the calibration and tests labs. The estimated uncertainty due to the software processing is also presented here, following the guidelines defined by standard IEC 61083-2:2013. [ABSTRACT FROM PUBLISHER]

Published

2015

42. Tail-Chopped Lightning Impulses Time Parameters Estimated According to Standard IEC 60060-1:2010.

Author

Hall Barbosa, Carlos R., Hallstrom, Jari, da Silva, Marcio Thelio Fernandes, Azevedo, Luiz Carlos, and Faria, Lucas Castro

Subjects

*AMPLITUDE estimation, *ELECTRIC potential measurement, *PARAMETER estimation, *ELECTROSTATICS

Abstract

The International Electrotechnical Commission (IEC) issued in 2010 a revision of the family of standards IEC 60060, describing, among other requirements, how to calculate the various amplitude and time parameters used to evaluate high-voltage impulse waveforms. However, the standards are not clear in some aspects, especially when describing tail-chopped lightning impulses. This paper aims at describing in detail how to properly estimate the time parameters of such impulses. [ABSTRACT FROM PUBLISHER]

Published

2015

43. Controlled Large-Scale Tests of Practical Grounding Electrodes—Part I: Test Facility and Measurement of Site Parameters.

Author

Guo, D., Clark, D., Lathi, D., Harid, N., Griffiths, H., Ainsley, A., and Haddad, A.

Subjects

*ELECTRIC current grounding, *ELECTRODES, *PARAMETER estimation, *EXPERIMENTAL design, *PERFORMANCE evaluation, *COMPUTER simulation

Abstract

This paper describes the establishment of a large-area outdoor experimental facility at the Dinorwig pumped-storage power station in North Wales for investigating the performance of practical grounding systems. The facility itself and arrangements of test electrodes and measurement equipment are described, providing a background for subsequent test methodologies. In addition, tests to determine the variation in the water and reservoir bed resistivities have been undertaken, resulting in a survey data set that better informs experimental work and simulations of vertical ground rod and grid electrodes. It is proposed that this facility may also be used to calibrate grounding meters and for validating computational modelling techniques. In a complementary paper, results of low-voltage dc, ac, and impulse tests of varying magnitudes are described, and experimental results are compared with computed values obtained from numerical models. [ABSTRACT FROM AUTHOR]

Published

2014

44. Controlled Large-Scale Tests of Practical Grounding Electrodes—Part II: Comparison of Analytical and Numerical Predictions With Experimental Results.

Author

Clark, D., Guo, Dongsheng, Lathi, D., Harid, N., Griffiths, H., Ainsley, Alan, and Haddad, A.

Subjects

*ELECTRIC current grounding, *ELECTRODES, *PREDICTION models, *ELECTRIC impedance, *FAULT currents, *PERFORMANCE evaluation

Abstract

This paper presents tests carried out at an outdoor experimental facility, described in the companion Part 1 paper, to investigate the performance of practical grounding systems. Here, the results of low-voltage dc, ac, and impulse tests performed on rod and grid electrodes are described, and the measured quantities are compared with computed values obtained from numerical models. Measured ground resistance and impedance at low frequency (including power frequency) showed reasonable agreement with simple standard formulae and computational models, but revealed a significant falloff with current magnitude in the range often used for practical testing of high-voltage grounding systems. This may have implications for the specifications of grounding test equipment and extrapolation of measured ground resistance/impedance at low-voltage/current to values representative of realistic fault currents. A frequency dependence of ground impedance was also measured. Specifically, a fall in impedance over a frequency range up to 100 kHz is not generally accounted for in grounding models. [ABSTRACT FROM AUTHOR]

Published

2014

45. Experiment and Simulation of Board Level Drop Tests With Intentional Board Slap at High Impact Accelerations.

Author

Douglas, Stuart T., Al-Bassyiouni, Moustafa, and Dasgupta, Abhijit

Subjects

*IMPACT testing of metals, *ACCELERATION (Mechanics), *IMPULSE testing (Signal processing), *ELECTRONIC equipment, *FINITE element method, *CLAMPS (Engineering)

Abstract

This paper explores multiple impacts generated through fixture design to induce high accelerations in board level drop testing. Drop tests were conducted at accelerations as high as 30000 G using mechanical accelerators. Finite element analysis simulations were used to determine impact locations and acceleration magnitude. Wafer level chip scale package components were tested at the board level at accelerations ranging from 10000 to 30000 G. The clearance between the printed circuit board assembly and the fixture are parametrically varied in the investigation to understand the effects of the clearance. Experiments and simulation show interesting results due to dynamic modal interaction. [ABSTRACT FROM PUBLISHER]

Published

2014

46. Comparison of Surge Arrester Models.

Author

Miguel, Pablo Mourente

Subjects

*SURGE arresters, *TRANSIENT analyzers, *TRANSIENT analysis, *IMPULSE testing (Signal processing)

Abstract

This paper deals with the two most used arresters models applied in digital simulations with the Alternative Transients Program, the conventional, and IEEE models. It presents a model analysis and parameter adjustment procedures to the conventional model. It also presents an application to both models of different types of current and voltage surges and even power frequency voltage, with a comparison of the results obtained with both models and with typical manufacturer data. While adjustment of the IEEE model was difficult and laborious, the conventional model presented a straightforward procedure. The results obtained show that there is a close agreement between the two models when the surge front time is above 1/2\ \mus. The conventional model always presents higher values for the limiting and residual voltages, and better agreement with the typical manufacturer data. Thus, the conventional model presents the advantages of simplicity and more conservative results. [ABSTRACT FROM PUBLISHER]

Published

2014

47. Simulation and Measurement of Lightning-Impulse Voltage Distributions Over Transformer Windings.

Author

Smajic, Jasmin, Steinmetz, Thorsten, Ruegg, Martin, Tanasic, Zeljko, Obrist, Roman, Tepper, Jens, Weber, Benjamin, and Carlen, Martin

Subjects

*ELECTRIC windings, *ELECTRIC generators, *ELECTRIC potential, *COMPUTER simulation, *ELECTRIC transformers, *MAGNETIC circuits, *DIFFERENTIAL equations, *PARAMETER estimation

Abstract

This paper presents: 1) a novel method for accurate high-frequency modeling of dry-type transformer windings based on magnetic and electric field simulations for parameter extraction of the detailed equivalent circuit of the entire winding system; 2) a method for fast and accurate transient solution of the circuit differential equations that describe the voltage distribution over the winding system; 3) an efficient, cheap, and nondestructive low-voltage measurement system based on a self-developed lightning-impulse generator; and 4) verification of the simulation results by comparison with measurement. [ABSTRACT FROM AUTHOR]

Published

2014

48. Study on the effectiveness of lightning rod tips in capturing lightning leaders.

Author

Sidik, Muhammad, Ahmad, Hussein, Salam, Zainal, Buntat, Zolkafle, Mun, Ong, Bashir, Nouruddeen, and Nawawi, Zainuddin

Subjects

*LIGHTNING rods, *PERFORMANCE evaluation, *ELECTRIC conductivity, *ELECTROSTATICS, *SURFACES (Technology), *IMPULSE testing (Signal processing), *DIMENSIONAL analysis

Abstract

This paper addresses the performance of various lightning rod tips: pointed, concave, blunt, flat and conical for lightning air terminal (LAT). To observe the behaviour of the various lightning rod tips, laboratory examination was conducted under two conditions, i.e. corona emission pattern under quasi-static electric field and lightning impulse testing-with and without pre-ionization. The data obtained from the corona emissions were correlated to the surface sharpness area of the tip. Using dimensional analysis, it can be concluded there is strong evidence that increased surface sharpness can lead to an increase in the corona discharge current. In addition, an impulse test was conducted to determine the performance of the LATs with different tip types and sizes. Using the individual and competitive test, it was found that the blunt LAT is the most recommended receptor. [ABSTRACT FROM AUTHOR]

Published

2013

49. Impulse Testing of Power Cables-Simulation Cum Experimental Approach

Author

Meena K P, R. Arunjothi, and Thirumurthy

Subjects

Impulse testing, business.industry, Computer science, Electrical engineering, business, Power (physics)

Published

2019

50. Estimating Ultralow Permeability at Multiple Locations Using Simultaneous-Impulse Tests: A Fit-for-Purpose Pressure-Transient Solution and Its Field Application

Author

Edwin Quint, Phillip S. Fair, Robert Dombrowski, Richard Cao, and Lang Zhan

Subjects

Reservoir monitoring, Impulse testing, 020401 chemical engineering, Energy Engineering and Power Technology, 02 engineering and technology, Mechanics, 0204 chemical engineering, Impulse (physics), 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Geology, 0105 earth and related environmental sciences

Abstract

Summary One of the major challenges in efficiently developing ultratight or shale reservoirs is to obtain reliable permeability distribution. Ultralow permeability and very strong stratification or heterogeneity in the formations require conducting long-duration tests at multiple locations in a well to attain a complete reservoir characterization. Because of these characteristics, existing tools or methods that work well for conventional reservoirs are usually not applicable for ultralow-permeability formations. An innovative reservoir-monitoring/testing tool system was developed and successfully applied to fields in both the United States and Canada (Zhan et al. 2016). The tool created multiple pressure pulses at targeted locations simultaneously along monitoring wells for zonal in-situ permeability estimations as well as long-term formation-pressure monitoring. Existing pressure-transient solutions are incapable of handling the measured data when potential zonal-pressure interferences appear. A fit-for-purpose pressure solution, the associated optimization algorithm, and a suitable data-interpretation work flow were developed to analyze the data whenever commercial software tools are inadequate. The new solution fully considers all impulses as well as potential interferences among them through suitable superposition. In-situ permeability values at all involved zones can be obtained through a combination of individual-impulse analyses and systematic multiple-impulse inversions. The new pressure-transient solution was verified through comprehensive synthetic cases using numerical simulations. The results show that the solution can handle either fully or partially open wellbores in each zone and properly considers crossflow between formation layers. In addition, it allows any number of perforated intervals and formation layers where the number of perforated intervals is fewer than that of the formation layers. Field examples demonstrate the applicability of the new solution and the data-interpretation work flow to formation permeability down to tens of nanodarcies. The detailed zonal-permeability distribution in the formation enables a more-representative reservoir model for better hydraulic-fracturing design and field-development optimization.

Published

2018