Showing total 29 results

1. Development of a Nonintrusive True-RMS AC Voltage Measurement Probe.

Author

Shenil, P. S. and George, Boby

Subjects

*ELECTRIC potential measurement, *DIFFERENTIAL amplifiers, *ELECTRIC potential, *STATISTICAL reliability, *ELECTRIC capacity

Abstract

The design and development of a new nonintrusive-type true-rms ac voltage measurement probe are presented in this paper. The measurement circuit of the capacitively coupled nonintrusive voltage sensor is designed to provide an output that is directly proportional to the rms value of unknown ac voltage $\text{V}_{\mathrm {X}}$ , which contains the power frequency (50 or 60 Hz) component along with the typical harmonic frequency components due to nonlinear loads. This is accomplished by a specially designed autobalancing signal conditioning circuit. The existing noncontact probes are designed for a set frequency and will not provide accurate rms value of a signal that has multiple frequency components. The output is independent of the coupling capacitance between the probe electrode and the insulated wire/cable under measurement. Thus, the sensor has low sensitivity to the variation due to the probe-to-wire capacitance, good linearity (0.95%), and accuracy (0.88%) over a range of voltages (0–1000 V) tested. Various parameters that affect the performance of the probe are analyzed, quantified, and discussed in this paper. A prototype of the probe along with the proposed autobalancing circuit has been designed and developed. The prototype has been tested in detail to evaluate the accuracy, linearity, and repeatability. The results obtained established the practicality of the proposed scheme. [ABSTRACT FROM AUTHOR]

Published

2019

2. Atmospheric Pressure DBD Low-Temperature Plasma Reactor for the Treatment of Sugarcane Bagasse.

Author

Spyrou, Nicolas and Amorim, Jayr de

Subjects

*ELECTRIC potential, *ATMOSPHERIC pressure, *GLOW discharges, *NANOPARTICLES, *ELECTRIC discharges

Abstract

This paper embodies the results of experimental studies of a dielectric barrier discharge low-temperature nonequilibrium plasma reactor that runs in air and nitrogen at atmospheric-pressure conceived for surface treatment applications. A homemade reactor, of typical plane-to-plane geometry with the dielectric covering the upper electrode which is stressed by a high voltage (40 kV, 3–20 kHz) is used. Electrical signals (current and voltage), optical emission spectroscopy records, and total light emission measured by photomultiplier have been analyzed and used to distinguish different plasma regimes which are studied for the treatment of a lignocellulosic material (sugarcane bagasse). In the filamentary discharge regime, the gas temperature of few tens of degree Celsius above the ambient one was determined, the electronic temperature of some electronvolts and electron density in the range of 1012–1013 cm−3 were estimated. Plasma treated pellets of sugarcane bagasse were analyzed by diffuse reflectance infrared Fourier transform spectrometry and the relative results obtained under filamentary discharge regime have shown significant degradation of the lignin macromolecule. It has been shown important modifications on the lignocellulosic material, namely, the plasma attacks drastically the lignin bonds. Strong modification of lignin was observed near wavenumber of 3400 cm−1, due to stretching vibrations of OH, and for the band 1114 cm−1 which is related to C=C and C=O stretching. Severe decrease of the band intensity 1596 cm−1, which due to C=C stretching and C=O, is also a result of the treatments done in this paper. [ABSTRACT FROM AUTHOR]

Published

2019

3. A Quasi-DC Potential Drop Measurement System for Material Testing.

Author

Corcoran, Joseph, Davies, Catrin M., Cawley, Peter, and Nagy, Peter B.

Subjects

*MATERIALS testing, *FATIGUE crack growth, *FERROMAGNETIC materials, *SKIN effect

Abstract

Potential drop (PD) measurements are well established for use in materials testing and are commonly used for crack growth and strain monitoring. Traditionally, the experimenter has a choice between employing direct current (dc) or alternating current (ac), both of which have strengths and limitations. The dc measurements are afflicted by competing spurious dc signals and, therefore, require large measurement currents (tens or hundreds of amperes) to improve the signal-to-noise ratio, which in turn leads to the significant resistive Joule heating. The ac measurements have superior noise performance due to the utilization of phase-sensitive detection and a lower spectral noise density but are subject to the skin effect and are, therefore, not well suited to high-accuracy scientific studies of ferromagnetic materials. In this paper, a quasi-dc monitoring system is presented which uses very low-frequency (0.3–30-Hz) current which combines the positive attributes of both dc and ac while mitigating the negatives. Bespoke equipment has been developed that is capable of low-noise measurements in the demanding quasi-dc regime. A creep crack growth test and fatigue test are used to compare noise performance and measurement power against alternative DCPD equipment. The combination of the quasi-dc methodology and the specially designed electronics yields exceptionally low-noise measurements using typically 100–400 mA; at 400 mA, the quasi-dc system achieves a 13-fold improvement in signal-to-noise ratio compared to a 25-A dc system. The reduction in measurement current from 25 A to 400 mA represents a ~3900-fold reduction in measurement power, effectively eliminating resistive heating and enabling much simpler experimental arrangements. [ABSTRACT FROM AUTHOR]

Published

2020

4. Charge distribution on polymer insulator surface under AC voltage.

Author

Li, Dayu, Zhang, Guixin, Hou, Yicen, and Zhang, Boya

Subjects

*FLASHOVER, *ELECTRIC potential, *SURFACE charges, *ELECTRIC fields, *INSULATING materials, *CHARGE measurement, *SURFACES (Technology)

Abstract

Charge accumulation on an insulator surface under AC electric field is uncertain and is different from DC. In this paper, a method of extracting the phase of voltage truncation time is proposed. The characteristics of charge distribution on an insulator surface under AC voltage is obtained, and the relationship between the voltage phase and the surface charge distribution is investigated. The measurement results of charge distribution and the microscopic discharge process are compared and analyzed which can overcome the deficiency of the traditional off-line measuring method. In addition, the effect of voltage amplitude and insulator material characteristics on the surface charge are studied. It is shown that the charge distribution on an insulator surface shows a three-tier concentric circular structure, and the distribution characteristic of the charge is closely related to the phase of the AC voltage truncation time and the insulation material. The charge density is also affected by the voltage amplitude. [ABSTRACT FROM AUTHOR]

Published

2019

5. Measurement of Oil–Water Interface Characteristics in Horizontal Pipe Using a Conductance Parallel-Wire Array Probe.

Author

Zhai, Lusheng, Zhang, Hongxin, Yan, Cong, and Jin, Ningde

Subjects

*OIL-water interfaces, *TWO-phase flow, *ADVECTION, *PIPE, *MEASUREMENT, *ELECTRIC potential

Abstract

In this paper, we propose a novel conductance parallel-wire array probe (CPAP) to measure the interface characteristics of segregated horizontal oil–water two-phase flows. A measurement system of CPAP is designed to make it work in a cyclic excitation mode and detect the interfacial heights at different locations of a pipe cross section. A finite-element analysis and a static calibration experiment are conducted to access the relationship between the interfacial height and the dimension conductance detected by the CPAP. Through carrying out a dynamic experiment of horizontal oil–water flows, the 3-D oil–water interfaces are reconstructed using the CPAP responses to study the interfacial evolution and its effect on the droplet detachment. Finally, the average fluctuations of the oil–water interfaces are extracted based on the reconstructed 3-D oil–water interface. [ABSTRACT FROM AUTHOR]

Published

2019

6. Experimental Study of the Breakdown Characteristics of Polypropylene Films Under Nanosecond Voltage Pulses.

Author

Chen, Zhiqiang, Ji, Shengchang, Jia, Wei, Tang, Junping, Guo, Fan, Li, Junna, and Chen, Weiqing

Subjects

*POLYPROPYLENE films, *DIELECTRIC breakdown, *ELECTRIC potential, *ELECTRIC fields, *WEIBULL distribution

Abstract

Due to its low-loss and high dielectric strength, polypropylene is widely used as electrical insulation material in pulse capacitors. In order to study its breakdown characteristics for nanosecond voltage pulses, an experimental setup was designed to generate voltage pulses with a 10%–90% rise time of 38 ns and a full width at half maximum of about 90 ns. Tests of the three polypropylene films with thicknesses of 12, 15, and $18~\mu \text{m}$ were performed. In addition, hundreds of nanoseconds pulse and dc voltage were also applied for comparison. The experimental results reveal that most of the breakdown occurs during the front edge of the pulse for tens of nanoseconds pulse, and the breakdown strengths of the three kinds of polypropylene films are almost identical for different applied voltages, which show a weak correlation between the thickness of the dielectric and the breakdown field. The expected breakdown strength of tens of nanoseconds pulse defined in this paper is not significantly higher than the mean value of the hundreds of nanoseconds pulse and the dc condition, suggesting that the breakdown of a thin polypropylene film is mainly determined by the electrical field but not the voltage-time cumulative effect. All these observations strengthen the conclusion that the breakdown of a thin polypropylene film is an intrinsic phenomenon. [ABSTRACT FROM AUTHOR]

Published

2018

7. Estimation of Supercapacitor Charge Capacity Bounds Considering Charge Redistribution.

Author

Yang, Hengzhao

Subjects

*SUPERCAPACITORS, *ELECTRIC charge, *ELECTRIC potential, *MATHEMATICAL bounds, *ELECTRIC currents

Abstract

This paper investigates the impact of charge redistribution on supercapacitor charge capacity by experimentally estimating the charge capacity bounds. An analysis of a physics-based $RC$ ladder circuit model for supercapacitors reveals the theoretical bounds and provides guidelines for designing experiments to estimate the bounds. The upper bound corresponds to a long time constant voltage charging process and the lower bound is established using a charging process with the largest possible current. Bounds of two types of supercapacitor charge capacity are estimated: the total charge stored in the supercapacitor that can be released during multiple discharging processes and the utilized charge delivered during one discharging action. The relationship between the utilized charge capacity and the discharge current is examined and different patterns are observed depending on the supercapacitor state of charge. For a fully charged supercapacitor, the utilized capacity increases when the discharge current decreases. For a supercapaictor partially charged by a relatively large current, the utilized capacity is dependent on both the discharge current and the supercapacitor operation voltage range. The difference between the bounds is significant for both types of charge capacity. These observations provide guidelines for optimizing the supercapacitor charging and discharging policies for different applications. [ABSTRACT FROM AUTHOR]

Published

2018

8. Insulation characteristics of CF3I/c-C4F8/N2 gas mixtures in slightly non-uniform electric field.

Author

Zhong, Ruishuang, Zhao, Su, Zhao, Xiaoling, Xue, Peng, Jiao, Juntao, Xiao, Dengming, and Deng, Yunkun

Subjects

*GAS mixtures, *ELECTRIC insulators & insulation, *ELECTRIC fields, *ELECTRIC potential, *EMISSIONS (Air pollution)

Abstract

In this paper, power frequency breakdown tests as well as positive and negative lightning impulse breakdown tests have been performed. The breakdown voltages of CF3I/CO2/N2, c-C4F8/CO2/N2, CF3I/c-C4F8/CO2 gas mixtures have been measured in different gas pressures, mixing ratios and electrodes distances in slightly non-uniform electric fields. In addition, the breakdown voltages of CF3I/c-C4F8/CO2 gas mixtures have been comparatively analyzed with SF6/CO2, CF3I/CO2, c-C4F8/CO2 gas mixtures. The results show that CO2 is excellent buffer gas to CF3I and c-C4F8 as it has synergistic effect. The power frequency breakdown voltages of CF3I/c-C4F8/CO2 gas mixtures are basically the same as that of c-C4F8/CO2 gas mixtures, which are higher than that of CF3I/CO2 gas mixtures. Besides, the 50% breakdown voltage of c- C4F8/CF3I/CO2 gas mixtures under lightning impulse are higher than that of CF3I/CO2. Compared with SF6/CO2 gas mixtures, CF3I/c-C4F8/CO2 gas mixtures have the same insulating performance in short electrode distance, and show more excellent insulating ability at an electrode distance more than 20mm. [ABSTRACT FROM AUTHOR]

Published

2018

9. Electrical Model of Building Structures Under Ground-Fault Conditions—Part II.

Author

Freschi, Fabio, Mitolo, Massimo, and Tommasini, Riccardo

Subjects

*BUILDINGS safety measures, *ELECTRIC power system faults, *REINFORCED concrete buildings, *ELECTRIC potential, *ELECTRIC equipment in buildings, *METALWORK

Abstract

This paper presents the results of field measurements of touch voltages occurring in buildings under ground-fault conditions, as well as resistance-to-ground of edifices of different nature (i.e., masonry, reinforced concrete, etc.). The goal of this experimental study was to confirm that ground-fault potential profiles and touch voltages in buildings do depend on the make-up of the structure, the floor material, the configuration and location of the grounding electrodes with respect to the point of touch, and the presence of metalwork (e.g., metal pipes) bonded to the ground system. The results of the above measurements, involving buildings of different construction type, are herein presented and discussed, and were obtained following the analytical models illustrated in Part I of this paper. [ABSTRACT FROM AUTHOR]

Published

2016

10. Study on glaze electrical erosion characteristics of porcelain post insulator by using inclined plane and graphite-layer-based method.

Author

Qiu, Zhibin, Ruan, Jiangjun, Huang, Daochun, Li, Xiaobin, Wang, Fochi, and Yao, Wenjun

Subjects

*ELECTRICAL insulation contamination, *EROSION, *PORCELAIN, *GRAPHITE, *ELECTRODES, *ELECTRIC potential

Abstract

In order to study the effect of glaze erosion on the performance of porcelain post insulator, an inclined plane (IP) test similar to IEC 60587 standard was conducted on a cylindrical insulator sample under laboratory conditions for ac voltage, and a new test method, called graphite-layer-based glaze erosion test was proposed in this paper and performed on the sheds of a 40.5 kV post insulator. The experimental details of the graphite-layerbased glaze erosion test was introduced, the technical points of which are coating a graphite layer on the surface of the shed using a brush mold which contains multiple hollowed-out rhombic grids, and arranging high voltage electrode at shed root and grounded electrode at shed edge respectively at both ends of the graphite layer, so as to form continuous and stable surface arcing under ac voltage and therefore achieve desired glaze electrical erosion effect. The graphite layer is a uniform viscous mixture made up with flake graphite and liquid glue according to a quality ratio of 1:1.2. The arcing process, arc current characteristics, surface temperature, and glaze erosion appearance were analyzed. Leakage current under power frequency voltage and flashover voltage of the eroded cylindrical insulator by IP test were measured, while porosity test and scanning electron microscopy (SEM) tests were conducted on samples taken from the sheds after graphite-layer-based glaze erosion test. The results indicate that glaze erosion will decrease both electrical and mechanical performance of the porcelain post insulator. The new test method proposed in this paper has been proved to be effective for glaze erosion test and consumes much less time compared with IP test, which provides a new idea for accelerated tracking and erosion test of glaze and porcelain materials so as to study the aging characteristics of porcelain insulators. [ABSTRACT FROM AUTHOR]

Published

2015

11. Identification of Global Grounding Systems: The Global Zone of Influence.

Author

Parise, Giuseppe, Parise, Luigi, and Martirano, Luigi

Subjects

*ELECTRIC current grounding, *ELECTRIC potential, *ELECTRIC fault location, ELECTRIC current safety

Abstract

The International Electrotechnical Commission Standard 61936-1 “Power installations exceeding 1 kV a.c.” defines the “global grounding system” (GGS) as an equivalent grounding system that ensures “no dangerous touch voltages.” This paper deals with an analysis of the parameters that characterize the behavior of grounding systems (GSs) operating in the same zone of influence (ZOI) and proposes to recognize four levels of “globality.” With this aim, the geometric criterion and the safety criterion are introduced to identify the ZOI. The safety criterion allows for identifying a GGS and characterizing the global ZOI of a GGS. This paper highlights the relevance of recognizing what is intrinsically safe for a GS that guarantees safe touch/step voltages lower than permissible permanent voltages. An integration of many coexisting GSs for constitution and extension, naturally, can reach the level of an intrinsically safe GS and, hence, of a GGS. [ABSTRACT FROM AUTHOR]

Published

2015

12. Study of the Spread of Potential Rise Between Two Grounding Electrodes.

Author

Yamamoto, Kazuo, Ookawa, Tetsuya, and Sumi, Shinichi

Subjects

*ELECTRIC current grounding, *ELECTRODE efficiency, *RAILROAD design & construction, *ELECTRIC potential measurement, *ELECTRIC power distribution

Abstract

The groundings of the power distribution, signaling, and power systems of a railway system are individually performed to realize fail safe, and the groundings are often installed in close proximity. Thus, when a grounding electrode is invaded by a lightning current, its ground potential rises together with the potential of the adjacent grounding electrodes; hence, there is a possibility of a large overvoltage being applied to the connected devices. In this paper, we have investigated the potential spread between two rod-shaped electrodes widely used in the grounding of the power, signal, and distribution systems of a railway system using the finite-difference time-domain method. The results of this paper are organized in such a way that the extent of the potential spread to the neighboring grounding electrodes can be understood from information such as the grounding resistivity at the installation location of the ground electrode and the wavefront duration of the lightning current, and these findings will be useful for grounding design. We also investigate the effect of the insulator between two neighboring electrodes to prevent the potential spread. [ABSTRACT FROM AUTHOR]

Published

2015

13. Needs of Management of the Grounding Systems.

Author

Parise, Giuseppe, Parise, Luigi, and Martirano, Luigi

Subjects

*ELECTRIC current grounding, *ELECTRIC interference, *ELECTRIC potential, *ELECTRIC power systems, ENERGY consumption in hospitals

Abstract

This paper suggests an advanced approach in the verification of the adequacy of a grounding system (GS) located in a common zone of influence with other GSs, taking into account the mutual interferences between the GSs. In fact, the presence of other GSs can transfer inadmissible touch and step voltages on the testing GS, particularly sensitive for critical power systems as data centers and hospitals. The safety of a local GS or of a global GS (GGS) does not admit uncontrolled interferences. Simulation programs assume a relevant importance, because they allow analyzing the interferences of GSs, particularly in operational difficulties for the tests. GSs have to maintain within the installation lifetime their characteristics of integrity and continuity and their safety performances; hence, they require a management program. This paper highlights the relevance of intrinsically safe GSs that guarantee safe touch/step voltages lower than permissible permanent voltages such as GGSs. GSs in city centers and urban and industrial areas evolve in time. Each installation of a new GS can influence the performance of the GSs existent in the area. Inspections and measurements are also necessary, following variations that can influence essential requirements. [ABSTRACT FROM AUTHOR]

Published

2015

14. Grounding Resistance Measurement Method Based on the Fall of Potential Curve Test Near Current Electrode.

Author

Yuan, Tao, Bai, Yang, Sima, Wenxia, Xian, Chengchen, Peng, Qingjun, and Guo, Runsheng

Subjects

*ELECTRIC current grounding, *ELECTRIC resistance, *ELECTRODES, *ELECTRIC potential, *ELECTRIC current measurement

Abstract

Grounding resistance is an important basic index used to ensure the safety and reliability of grounding systems. In this paper, a method for grounding resistance measurement based on the fall of potential curve is proposed that can be performed using a 2–2.5D lead wire length. In this method, the potential distribution near the auxiliary current electrode is tested and is used as the main analysis and measurement parameter. Based on the relationship between the potential distribution generated by the grounding grid and the current electrode, the grounding resistance of the grounding grid can be deduced. First, the voltages between the grounding grid and the earth surface potential near the current electrode are measured; then, the ground potential rise (GPR) of the grounding grid is calculated through theoretical analysis and numerical calculation; and finally, the grounding resistance is calculated by dividing the potential by the test current. This method avoids the complex task of accurate compensation point location required for traditional measurement methods, and can be performed easily and quickly using a short lead wire. Measurement results from spot testing show that the proposed method can meet the accuracy requirements of engineering testing. [ABSTRACT FROM AUTHOR]

Published

2017

15. Tests and Monitoring of Grounding Systems in HV/MV Substations.

Author

Parise, Giuseppe, Parise, Luigi, Martirano, Luigi, Tummolillo, Filomena, Vagnati, Giuseppe, and Barresi, Antonino

Subjects

*ELECTRIC current grounding, *HIGH voltages, *ELECTRIC substations, *ELECTRODES, *DATA analysis

Abstract

Each grounding system (GS) needs periodical measurements to control its adequacy to the safety conditions. The tests of step and touch voltages are the sole measurements available in urban or industrial areas with reduced accessibility. In fact, in these areas, the classic measurements used to verify the electrical characteristics of the GS generally present some operational difficulties. The auxiliary current electrodes can only be located at short distances, and thus, the test methods and techniques result in conservative values in comparison with the prospected true values measurable by adopting a remote auxiliary electrode. The locations of auxiliary current electrodes at short distance make it easier to keep them permanently installed and to permit the monitoring of the adequacy of GS. This paper presents the measuring touch/step voltages procedure that provides conservative results showing some case studies done in GS of high voltage/medium voltage substations. It is essential to have the map of the constitution and configuration of the GS to know its data and the location of the various equipment and buildings, the presence of extraneous conductive parts inside, and in proximity of the substation, such as other GS. The field measurements require a good experience of the operator that can be learned by carrying out measurements in cases of GS with influence zone accessible, so that it is possible to compare the traditional method with a remote electrode and the method at short distance. [ABSTRACT FROM PUBLISHER]

Published

2017

16. Operation of a Three-Electrode Reactor With Different Electrode Bias Potential Configurations.

Author

Gallego, J. L., Minotti, F., and Grondona, D.

Subjects

*AIR pollution control, *ELECTRODE efficiency, *ELECTRIC discharges, *THERMAL plasmas, *PLASMA electrodes

Abstract

The three-electrode plasma reactor for the treatment of polluted gases combines a dielectric-barrier discharge with a remote third electrode, designed to enhance streamer propagation in a relatively large region. In this paper, experimental studies of the electrical magnitudes of the discharge for different electrode bias voltage configurations are presented. Also, the Laplacian electric field distribution in the interelectrode gap is calculated for each configuration. The degradation efficiency of NO in an N2 atmosphere for the different configurations is also reported. It is found that the discharge is generated only for that electrode bias configuration for which the external electric field promotes the streamer propagation across the electrode gap. Also, for a triggered discharge, the reactor efficiency for the removal of NO changes with the different electrode bias configurations. This result can be explained in terms of the electric field intensity. The configuration with higher external electric field improves the number of streamers propagating in the interelectrode gap so that more reactive species generated in the streamers are effectively entrained in the gas flow to be treated. [ABSTRACT FROM AUTHOR]

Published

2017

17. Experimental Study on Sound Characteristics Produced by DC Corona and Pulsed Discharges.

Author

Ren, Chengyan, Wang, Jue, Yan, Ping, Shao, Tao, Zhang, Cheng, and Zhang, Shuai

Subjects

*PULSED power systems, *ELECTRIC discharges, *ELECTRIC lines, *ELECTRIC potential, *SIGNAL processing

Abstract

The audible noise (AN) production mechanism caused by corona discharge in ultrahigh voltage transmission lines is less understood. The study on sound pressure characteristic is necessary to obtain the inherent relation between AN and corona discharge. In this paper, the experimental research on single-point direct current (dc) corona discharge was evolved and the time-domain sound pressure waveform was obtained using capacitor microphone. The experiment results show that the dc corona discharge comprises multiple subsequent discharge pulses. The discharge voltage and the electrode polarity have a direct effect on the rising time and pulsed width of the single current pulse. The waveform of sound pressure produced by single discharge is a bipolar microsecond pulse, which lags behind the current pulse in time domain. The time delay is propagation time of sound signal from the discharge spot to the measurement spot. Based on the corona discharge characteristic in dc voltage, the experiment platform for nanosecond pulsed discharge was built to obtain the relation between discharge parameter and sound parameter. The characteristics of sound pressure in different discharge conditions were analyzed. The study results indicate that the sound pressure produced by pulsed discharge is similar with that produced by corona discharge. The experiment platform for pulsed discharge can be used to research the AN production mechanism by dc corona discharge. [ABSTRACT FROM AUTHOR]

Published

2016

18. On the estimation of actual space charge using pulsed electro-acoustic system.

Author

Gupta, Ashish and Reddy, C.C.

Subjects

*SPACE charge, *ELECTROACOUSTICS, *DIELECTRIC materials, *CHARGE measurement, *ELECTRIC potential, *DECONVOLUTION (Mathematics)

Abstract

Pulsed electro-acoustic measurement system is one of the versatile systems for measurement of charges accumulated in dielectric materials. The charge is measured as a voltage signal observed at an amplifier output which gets input from an acoustic sensor. Because of limited frequency bandwidth of the acoustic sensor and amplifier, all experimentally acquired signals require processing technique like deconvolution to estimate original signal (charge). Due to presence of noise in all experimental signals, deconvolution turns out to be an optimization problem. The optimum deconvolution involves estimation of optimum value of a deconvolution parameter, also known as regularization parameter. This parameter controls the tradeoff between signal distortion and noise minimization. In literature, several methods were suggested for estimation of optimum value of regularization parameter. However, each method yields a different estimate for the parameter. In this paper, the suitability of these conventional methods is investigated for estimation of space charge. Also a simple, yet, better estimation method, specific to space charge estimation, is presented. Interesting results and discussion on efficacy of these methods against, simple spectral division followed by Gaussian filtering, is also presented. [ABSTRACT FROM PUBLISHER]

Published

2016

19. Insulation characteristics of GIS insulators under lightning impulse with DC voltage superimposed.

Author

Okabe, Shigemitsu, Ueta, Genyo, Utsumi, Tomoaki, and Nukaga, Jun

Subjects

*ELECTRIC insulators & insulation, *LIGHTNING, *ELECTRIC potential, *ELECTRIC switchgear, *EPOXY resins, *FIBER-reinforced plastics

Abstract

To study the dc insulation design of gas insulated switchgear (GIS), the insulation characteristics under lightning impulse (LI) voltage with a superimposed dc voltage (superimposed voltage) must be clarified. The paper experimentally examined the GIS breakdown characteristics under this superimposed voltage. The test models simulating an insulator creepage surface were used for which consideration of the influence of dc voltage among various other GIS insulating elements is particularly important. To be specific, a cylindrical model made of epoxy resin or fiber-reinforced plastic (FRP) as the material and a conical epoxy spacer model were tested. For the cylindrical model, a cap-shaped electrode was placed on the insulator and a small gap was established between the end of the electrode and the insulator. When the dc breakdown voltages were measured using these samples, they were higher for the applied voltage of positive polarity than that of negative polarity for all samples. The post-test observation of the electrification condition revealed greater electrification on the insulator surface for the applied voltage of positive polarity. The electrification charges are considered to have relaxed the electric field and increased the breakdown voltage. Subsequently, the breakdown test was conducted using a superimposed voltage, whereby a foregoing dc voltage was applied to samples for a certain period, whereupon a LI voltage was applied with the dc voltage continually applied. The breakdown voltage when the LI voltage and dc voltage had equivalent polarity was approximately same to the LI alone breakdown voltage. Conversely, when they were opposite in polarity, the breakdown voltage under the superimposed voltage obviously tended to decrease from the LI alone breakdown voltage. It is considered attributable to the fact that the insulator surface was electrified by the foregoing dc voltage and applying LI voltage opposite in polarity to this electrification intensified the electric field where the breakdown started to occur. Accordingly, it emerged that the GIS breakdown characteristics changed significantly depending on the polarity combinations of LI and dc voltages. The influence of these polarities must be taken into consideration when studying the GIS dc insulation design. [ABSTRACT FROM AUTHOR]

Published

2015

20. Global Earthing System: Can Buried Metallic Structures Significantly Modify the Ground Potential Profile?

Author

Pons, Enrico, Colella, Pietro, Tommasini, Riccardo, Napoli, Roberto, Montegiglio, Pasquale, Cafaro, Giuseppe, and Torelli, Francesco

Subjects

*ELECTRIC current grounding, *ELECTRIC properties of metals, *ELECTRIC potential, *INTERCONNECTED power systems, *ELECTRIC power distribution, *SAFETY

Abstract

Global earthing systems (GESs), which are created by the interconnection of local earthing systems, should guarantee the absence of dangerous touch voltages. According to international standards, one of the reasons for this safety characteristic of GESs is that medium-voltage and low-voltage grounding systems form a quasi-equipotential area. Typical examples of GESs are in city centers due to the high number of interconnected grounding systems in the area. For this reason, in addition to ground grids, other metallic parts with different primary functions shall be also considered, e.g., water and gas pipes, tramway tracks, and building foundations can modify the electric potential distribution in the area. In this paper, a model based on the Maxwell's subareas method (MaSM) is used to evaluate how buried metallic parts, which are not intentionally connected to ground grids, modify the electric potential on the soil surface. First, the MaSM model is validated with experimental measurements on a simple electrode configuration. The measured voltages are compared with the MaSM results and with the results obtained with a finite-element method model simulated with COMSOL Multiphysics. Then, the simulations are carried out on a realistic urban test case. [ABSTRACT FROM AUTHOR]

Published

2015

21. Simplified Conservative Testing Method of Touch and Step Voltages by Multiple Auxiliary Electrodes at Reduced Distance.

Author

Parise, Giuseppe, Martirano, Luigi, Parise, Luigi, Celozzi, Salvatore, and Araneo, Rodolfo

Subjects

*ELECTRIC potential, *ELECTRIC current grounding, *ELECTRIC resistance, *GROUND penetrating radar, *ELECTRIC substation safety measures

Abstract

Grounding systems (GSs) must be tested periodically in order to maintain the touch voltage (TV) and step voltage (SV) below a safe value in all of the zones of the installation. Measurements of the ground resistance and of the TV and SV are typically done by the fall-of-potential (FoP) method, locating the auxiliary current electrode at remote distance to test the effective behavior of the GS. In urban areas, it could be very complicated or impossible to install the auxiliary current electrode as required, not having area around with sufficient accessibility. At this aim, this paper describes a methodology of using multiple current electrodes at short distances, modifying the classic FoP practice, so that the measurements of TV and SV are always conservative. The adequacy of a GS is verified if the values of the TV and SV, tested inside and in the vicinity of the GS, are below the permissible limits, regardless if they are true or conservatively increased. Thus, the measured TV and SV by the suggested method, always conservative, allow verifying the adequacy of GSs, in the cases where it is impossible to locate the remote auxiliary electrode. [ABSTRACT FROM AUTHOR]

Published

2015

22. Thrust characteristic of a multipoint-grid type EHD gas pump under negative corona operation in air.

Author

Wang, Wei, Yang, Lanjun, Huo, Peng, and Wu, Kai

Subjects

*CORONA discharge, *CURVATURE, *ELECTRIC power consumption, *ELECTRIC potential, *ELECTRODES

Abstract

The ionic wind technology produced by corona discharge has drawn massive attention as a new driving force, especially in flow control applications. This paper introduces a non-friction test platform with air track in order to gauge the thrust produced by a 19 points-to-grid and a 31 points-to-grid EHD gas pump. Five major parameters of the EHD gas pump are focused, which includes the electrode gap, the spacing of point electrode, the curvature of point tips, the applied voltage and the discharge current. Through experimental study, the relationships between the performance of thrust of EHD gas pump and its major parameters are clarified. Eventually, a method of achieving high thrust with a low power consumption is brought up. [ABSTRACT FROM PUBLISHER]

Published

2015

23. Influence on voltage distribution of composite insulator by inserting metal electrodes in weather sheds.

Author

Zhao, Chenlong, Mei, Hongwei, Zhu, Mingxi, Dai, Hanqi, Wang, Liming, and Guan, Zhicheng

Subjects

*COMPOSITE insulators, *ELECTRIC potential, *ELECTRODES, *MECHANICAL behavior of materials, *CORONA discharge

Abstract

The uneven distribution of voltage along the composite insulator strings harmed their electrical and mechanical properties heavily, which threatened the safety of power system. Inserting metal electrodes in the silicone rubber sheds of composite insulator helps increase their self-capacitance, thereby ameliorating the voltage distribution along the string. In this paper, a new structure of weather sheds with metal electrodes inserted has been designed. Tests on composite insulators with different metal electrodes setup were conducted to examine their voltage distribution performance. Corona inception voltage of the mentioned composite insulators was obtained by a remote monitoring system as a criterion of the voltage distribution performance. Simulation model of the insulators were set up and calculation of their voltage and electric field distribution were carried out by finite element method (FEM). The calculation result was in good compliance with the experiment result. The applied voltage at the live end of composite insulator decreased by 4% when inserting electrodes in the weather sheds, which was verified by both experiment and simulation results. [ABSTRACT FROM AUTHOR]

Published

2015

24. Grounding System Adequacy of HV/MV Substations in Areas With Reduced Accessibility.

Author

Parise, Giuseppe, Parise, Luigi, Martirano, Luigi, Farber, Alexander, and Katz, Boris

Subjects

*ELECTRIC current grounding, *ELECTRIC substations, *ELECTRIC potential, *URBAN growth, *ELECTRIC utilities safety measures

Abstract

The adequacy of grounding systems has to be periodically verified in operational time. With urban development and building growth adjacent to power systems as high-voltage/medium-voltage substations, it is very rare to have an area around with sufficient accessibility for installing potential and current electrodes. This paper discusses a safety criterion to verify the effectiveness of a grounding system. This criterion suggests conservative tests for both ground potential rise and touch and step voltages that allow to verify the grounding systems' effectiveness in areas with reduced accessibility and to monitor its evolution in time. [ABSTRACT FROM AUTHOR]

Published

2015

25. SF6 gas decomposition analysis under point-to-plane 50 Hz AC corona discharge.

Author

Han, Dong, Lin, Tao, Zhang, Guoqiang, Liu, Yilu, and Yu, Qiang

Subjects

*SULFUR hexafluoride as a test gas, *CORONA discharge, *ELECTRIC discharges, *ELECTRIC potential, *ELECTRODES, *GAS chromatography/Mass spectrometry (GC-MS), *WATER vapor, *OXYGEN

Abstract

As one of the most commonly used insulating mediums, in electrical discharge, sulfur hexafluoride (SF6) will decompose in the presence of water vapor and oxygen, producing various gaseous by-products. It is shown that the concentrations and production rates of SF6 gaseous decomposition by-products heavily depend on electrical field to gas density ratio (E/N) under corona discharge. Regarding the difficulty in measuring E and N, applied voltage and the SF6 pressure, are proposed in this paper to describe E and N, respectively. Several experiments of 50-Hz AC discharges were carried out under different applied voltages and different SF6 pressures using point-to-plane electrodes. The concentrations of SF6 gaseous by-products were measured by a gas chromatograph-mass spectrometer system (GS/MS). Experimental data show that the concentrations of SF6 gaseous by-products increase while the ratio (SOF2+SO2)/SO2F2 decreases, with increasing applied voltage. The concentrations decrease with increasing pressure of SF6. The formation mechanisms of SF6 gaseous by-products with the variations of applied voltage and the SF6 pressure are discussed, such as SO2F2, SOF2+SO2, CF4, and CO2 and so on. An experimental expression is derived which connects the SF6 pressure with the concentration of the decomposition by-products. [ABSTRACT FROM AUTHOR]

Published

2015

26. DC inclined-plane tracking and erosion test of insulating materials.

Author

Cherney, E., Gorur, R., Krivda, A., Jayaram, S., Rowland, S., Li, S., Marzinotto, M., Ghunem, R., and Ramirez, I.

Subjects

*DIRECT currents, *INSULATING materials, *ELECTRIC potential, *SILICONE rubber insulators, *ALTERNATING currents

Abstract

The paper reviews previous work on the DC inclined plane test and suggests equivalent DC voltage levels in parallel to AC voltage in the ASTM inclined plane tracking and erosion test. The aim of this work is to provide a basis for standardizing the inclined plane test for DC voltage. Round robin tests done in five laboratories on five specimens of a silicone rubber material were done with the purpose of establishing appropriate ratios by which the equivalent DC voltages can be determined with respect to the corresponding AC voltages. These levels were determined as 67% and 87%, for +DC and ?DC respectively, of the AC initial tracking voltage, and for practical purposes, these levels are rounded to 70 and 90%. [ABSTRACT FROM AUTHOR]

Published

2015

27. Numerical Generation of a Statistic Sample of the Pulse Breakdown Voltage Random Variable in SF6 Gas With Homogenous and Nonhomogenous Electric Field.

Author

Stankovic, Koviljka, Alimpijevic, Malisa, Vujisic, Milos, and Osmokrovic, Predrag

Subjects

*ELECTRIC fields, *ELECTRIC currents, *RANDOM variables, *ELECTRIC potential, *ENTROPY power inequality, *ELECTRIC conductivity

Abstract

This paper considers the possibility of numerical generation of pulse breakdown voltage random variable in SF6 gas. A theoretically constructed model was tested at low, medium, and high values of \(pd\) product (pressure \(\times \) interelectrode distance), ranging from 0.1 mbar mm to 50 bar mm. Numerical generation of the statistic sample of the pulse breakdown voltage random variable was performed in homogenous and nonhomogenous fields. Variable experiment parameters were the pulse rise rates (from 1 to 400 kV/ \(\mu \) s). Obtained results indicate that the proposed theoretical–numerical model is absolutely satisfactory at high values of \(pd\) product (10–50 bar mm), which is the very region of SF6 gas application. At lower values of \(pd\) product (less than 10 bar mm), there are certain deviations between a numerically generated statistic sample of the pulse breakdown voltage random variable and the one obtained experimentally. However, this deviation is not relevant from the aspect of engineering practice. [ABSTRACT FROM PUBLISHER]

Published

2014

28. Space charge in polyethylene under combined AC and DC voltages.

Author

Zhao, Junwei, Chen, George, and Zhong, Lisheng

Subjects

*SPACE charge, *POLYETHYLENE, *ALTERNATING currents, *DIRECT currents, *ELECTRIC potential, *ELECTRIC insulators & insulation, *ELECTROACOUSTICS

Abstract

In contrast to extensive publication on the behavior of space charge in polymeric insulation materials subject to individual dc or ac voltages, space charge in the situation of composite voltages has not yet been reported. In this paper, the dynamics of space charge in polyethylene subjected to combined ac and dc voltages have been experimentally investigated using the pulsed electroacoustic technique. Results show that combined voltages could significantly enhance the space charge accumulation. The dc component voltage determines the charge accumulation in the bulk of polyethylene while ac component influences the charge density on the electrodes. The amount of charge in the bulk depends on the ratio between ac and dc voltage components. This result is important to understand the electrical performance of high voltage equipment where insulation may experience the combined ac and dc voltages. [ABSTRACT FROM AUTHOR]

Published

2014

29. Electrical Measurements for Nanosecond Repetitive Pulsed Discharges.

Author

Arnaud-Cormos, Delia, Kohler, Sophie, Bessieres, Delphine, O'Connor, Rodney P., Paillol, Jean, and Leveque, Philippe

Subjects

*TRANSVERSE electromagnetic cells, *ELECTROMAGNETISM, *ELECTRODES, *ELECTRIC potential, *ELECTRIC discharge research

Abstract

In this paper, a device for accurate electrical measurements for nanosecond repetitive pulsed discharges (NRPDs) is presented. The experimental setup developed is based on an interelectrode system integrated in a transverse electromagnetic cell. This setup allows synchronizing the voltage and current measurements with a 4-GHz frequency bandwidth, corresponding to 250-ps pulse duration. A coaxial-shaped sharp metallic needle serves as a probe for current measurements. The needle probe is also the point electrode of a point-to-plane system used to generate discharges. The experimental setup was used to electrically characterize NRP corona and diffuse discharges, in negative polarity. Discharge current pulses with rise times less than 1 ns and amplitudes up to 120 mA were measured. The energy deposited by discharges was also determined. [ABSTRACT FROM PUBLISHER]

Published

2014