High Voltage
Volume 2, Issue 2, June 2017
Volumes & issues:
Volume 2, Issue 2
June 2017
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- Source: High Voltage, Volume 2, Issue 2, p. 47 –48
- DOI: 10.1049/hve.2017.0084
- Type: Article
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- Author(s): Victor F. Tarasenko ; Cheng Zhang ; Andrey V. Kozyrev ; Dmitry A. Sorokin ; Xingmin Hou ; Natalya S. Semeniuk ; Alexander G. Burachenko ; Ping Yan ; Vasily Yu. Kozhevnikov ; Evgenii Kh. Baksht ; Mikhail I. Lomaev ; Tao Shao
- Source: High Voltage, Volume 2, Issue 2, p. 49 –55
- DOI: 10.1049/hve.2017.0014
- Type: Article
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49
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This study deals with experimental and theoretical simulation data showing the influence of electrode spacing and gas pressure on parameters of a supershort avalanche electron beam (SAEB) formed in SF6 and nitrogen at different rise times and amplitudes of a voltage pulse. Using GIN-55-01, VPG-30-200, and SLEP-150M pulsers, tubular cathodes with a diameter of 6 mm, as well as gaps of 3, 5, and 8 mm, it was shown that the SAEB current amplitude can both increase and decrease depending on an electrode spacing, a waveform and a rise time of the voltage pulse, as well as the pressure of SF6 and nitrogen. It was established as a result of simulation that maximal voltage across the gap during the process of generation of runaway electrons and the thickness of an anode foil have a major effect on the SAEB current pulse amplitude.
- Author(s): Alexander G. Burachenko ; Victor F. Tarasenko ; Evgenii Kh. Baksht
- Source: High Voltage, Volume 2, Issue 2, p. 56 –59
- DOI: 10.1049/hve.2017.0016
- Type: Article
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56
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This study reports on subnanosecond breakdowns initiated on high pressure nitrogen by a runaway electron beam in an inhomogeneous electric field. It is shown that a diffuse discharge with a duration of ≥1 ns is formed in the gas diode. Data are reported for the first time on collector measurements of a supershort avalanche electron beam downstream of an anode foil at a nitrogen pressure of 0.5–1.2 MPa. The beam pulsewidth at these pressures is ∼90 ps. At a nitrogen pressure of 1.2 MPa, the number of electrons with an energy >70 keV recorded by the collector is 4 × 106/cm2.
- Author(s): Sankarsan Mohapatro ; Srikanth Allamsetty ; Apeksha Madhukar ; Nikhil Kumar Sharma
- Source: High Voltage, Volume 2, Issue 2, p. 60 –68
- DOI: 10.1049/hve.2017.0011
- Type: Article
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60
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Nowadays, the intensity of air pollution, due to the industries and automobiles, has been increasing continuously. Nitrogen oxides (NOX) are one of the most harmful pollutants, which are getting released from both automobile and stationary diesel engines. They essentially need to be removed from the exhaust using after treatment systems. However, the energy required to remove these pollutants is one of the major considerations in selecting the technology for pollutant removal from diesel engine exhaust. A study has been carried out on the non-thermal plasma-based NOX removal technique using various combinations of power supply units and electrode configurations. Three different electrode configurations are tested, in which two are cylindrical electrodes with diameters 3 and 5 mm, and the other one is a square electrode with a diagonal of 5 mm. A comparison is made between the results with two different pulse power supply units, PS-I: high-voltage direct current test set based and PS-II: DC–DC converter based. The square electrode with PS-II has been found to be the optimal combination, which has removed 85% of NOX from the exhaust at an energy density of 55.5 J/L, when the initial NOX concentration in the exhaust is 388 ppm.
- Source: High Voltage, Volume 2, Issue 2, p. 69 –77
- DOI: 10.1049/hve.2016.0084
- Type: Article
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69
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The dielectric barrier discharge-based non-thermal plasma technique is one of the most prominent techniques which give peerless results in controlling the concentration of NO X . However, when it comes to the automobile diesel engine, availability of high-voltage pulse power supply is the major constraint. In this study, battery-powered high-voltage pulse power supply for NO X treatment has been proposed. Two types of electrodes: rod type and rod with helical spring type are studied for the treatment of exhaust. Cascaded plasma-adsorbent technique has also been used to enhance NO X removal efficiency. Experiments have been conducted with two different gas flow rates, i.e. 4 l and 6 l/min at laboratory level and have got significant results toward removal of NO X . When the exhaust has been treated with plasma alone, the reactor with rod-type electrode has shown 85% NO X removal efficiency at a specific energy (SE) of 283 J/l with a flow rate of 4 l/min. When the plasma reactor is cascaded with the adsorbent reactor, both adsorbents: 13x molecular sieve (MS13x) and activated alumina are able to remove 100% of NO X with the proposed power supply at a lesser SE.
- Author(s): Alexandr Shuaibov and Roksolana Gritzak
- Source: High Voltage, Volume 2, Issue 2, p. 78 –81
- DOI: 10.1049/hve.2016.0092
- Type: Article
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This paper presents the results of a study of UV and VUV low-pressure lamp pumped by nanosecond capacitive discharge. This lamp works on the mixtures of helium and argon with water vapor (H2O) or ‘heavy’ water (D2O). At the capacitive low-pressure lamp emission spectra are mainly narrow band 308 nm OH (A–X) and large band in the VUV spectral range: 140–200 nm OH (C, B, A). Found, that the increasing the partial pressure of H2O and D2O (>130–150 Pa) led to a decrease in the intensity of VUV radiation of hydroxyl radicals. In the transition from He/H2O mixture to He/D2O mixture, the optimal pressure of helium is decreased. Reduced partial pressure of argon led to increased intensity of radiation of hydroxyl in the VUV range. The study of emission characteristics of OD* – lamps on a mixture of He/D2O and the OH* – lamps on a mixture of He/H2O showed that the intensity of the bands OD (X, C, A) is 1.5 times larger than the intensity of the bands OH (X, C, A). The maximum absolute intensity of UV–VUV radiation of the lamp (at a frequency of 1000 Hz) reached 1 W.
Guest Editorial
Influence of electrode spacing and gas pressure on parameters of a runaway electron beam generating during the nanosecond breakdown in SF6 and nitrogen
Subnanosecond high-voltage breakdown initiated in high-pressure nitrogen by a runaway electron beam
Nanosecond pulse discharge based nitrogen oxides treatment using different electrode configurations
NO X abatement from filtered diesel engine exhaust using battery-powered high-voltage pulse power supply
Optical characteristics of UV–VUV lamps on the electronic-vibrational transitions of the hydroxyl radical pumped by a nanosecond capacitive discharge
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- Author(s): Shengtao Li and Jianying Li
- Source: High Voltage, Volume 2, Issue 2, p. 82 –91
- DOI: 10.1049/hve.2017.0026
- Type: Article
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82
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To ensure the power system operates safely and reliably, it is essential to monitor and evaluate the health condition of power equipment on-line or off-line. This study reviews the research status in condition monitoring and diagnosis of power equipment, including transformer, gas insulated switchgear, cable, external insulation, generator, and power capacitor in recent years. Although much progress has been made in technologies of condition monitoring and fault diagnosis such as test accuracy, fast and accurate fault localisation and recognition of fault types, there are still many deficiencies which needs further research work, including the reliability of signal collection from sensors, the accuracy of data treatment and analysis, anti-interference performance of test equipment, appropriate models used for condition evaluation. The prospective of condition monitoring and diagnosis technologies of power equipment are also presented in this study. It is proposed that the application of big data, internet of things and cloud computing should be expected and given special attention in the near future.
Condition monitoring and diagnosis of power equipment: review and prospective
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- Author(s): Shugo Hanada ; Maki Miyamoto ; Naoshi Hirai ; Liuqing Yang ; Yoshimichi Ohki
- Source: High Voltage, Volume 2, Issue 2, p. 92 –101
- DOI: 10.1049/hve.2017.0009
- Type: Article
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92
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Cable-grade silicone rubber was aged thermally or by combining heat and gamma-ray radiation, and resultant changes in chemical, thermal, mechanical and electrical properties were examined. The experimental results obtained in these analyses are clearly consistent with the mechanism that silicone rubber is degraded by forming cross-linked structures via formation of abundant siloxane bonds. With further progress of degradation, decomposition becomes dominant. Reflecting these mechanisms, mechanical properties deteriorate dramatically by losing elasticity. Both the real and imaginary parts of complex permittivity decrease, which is a contrastive difference from typical ageing behaviour of organic insulating polymers. In addition, both the elongation at break and indenter modulus are good indicators of degradation of silicone rubber.
Experimental investigation of the degradation mechanism of silicone rubber exposed to heat and gamma rays
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- Author(s): Fanghui Yin ; Masoud Farzaneh ; Xingliang Jiang
- Source: High Voltage, Volume 2, Issue 2, p. 102 –109
- DOI: 10.1049/hve.2016.0094
- Type: Article
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102
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When a transmission line is subjected to adverse weather conditions, rain drops or ice can be formed on its surface, leading to discharge phenomena known as corona. The corona discharge increases corona loss, leakage conductance, and capacitance, the latter two effects facilitating harmonic conditions and power quality degradation. This study investigates the electrical characteristics of an energised conductor under rain, rime, and glaze ice conditions. The experiments were carried out in a climate room using a corona cage. It was found that the leakage conductance of a corona-cage configuration was at its highest under glaze ice condition and at its lowest under rime condition for the same background surface electric field. With the presence of icicles, the change in capacitance under glaze ice accretion was complex. From the experimental results, it can be concluded that the corona-cage configuration is mainly characterised by its capacitive nature before the corona onset. When the corona discharge occurs, the corona cage exhibits a resistive–capacitive nature. With the increase of applied voltage, the configuration becomes more resistive.
- Author(s): Yerra Swamy Naidu and Gundavarapu Venkata Nagesh Kumar
- Source: High Voltage, Volume 2, Issue 2, p. 110 –118
- DOI: 10.1049/hve.2016.0101
- Type: Article
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p.
110
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Insulation integrity of supporting insulator plays a vital role for determining the continuity of service of the gas insulated substation which depends upon the electric field stress distribution on the surface of the spacer. Triple junction formed by the conductor, SF6 gas and support insulator is another critical area where the field stress is to be maintained at minimum value. Shape control is a technique employed for obtaining uniform field stress along the surface of the spacer but this technique may sometimes leads to very uneven shapes. In this study, a functional graded material is designed for the standard cone type spacer to obtain uniform field stress along the surface of spacer to overcome the above problem. The grading of spacer is done with different permittivities. Electric field is computed for three cases namely grading to high, grading to low and U Shape. The metal inserts were tuned and stress is obtained in account of lower fields at the triple point junction and an improved uniform field distribution along the surface is obtained.
- Author(s): Sharif F. Kaaiye and Cuthbert Nyamupangedengu
- Source: High Voltage, Volume 2, Issue 2, p. 119 –128
- DOI: 10.1049/hve.2016.0102
- Type: Article
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119
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Currently there are no international standards for evaluating the tracking and erosion resistance of DC polymeric insulation under contaminated conditions. Researchers often modify the existing AC inclined plane test standards such as the IEC-60587 to accommodate DC voltage conditions but this has been reported to give various inconsistences. This paper presents comprehensive experimental results on inclined plane tests of silicone rubber (SiR) insulation at 3.5 and 4.5 kV AC and positive DC using intravenous (IV) system as the pollutant supply. The leakage currents (LC) were recorded throughout the entire tests. In addition, various physiochemical tests namely, Fourier Transform Infrared analysis, thermo-gravimetric analysis, scanning electron microscopy and energy dispersive spectroscopy were performed on the aged and unaged samples. Results show that DC LC is bigger (about three times) than that under AC for the same equivalent voltages. Furthermore, DC LC variations are less random and the average magnitudes increase with duration of voltage application compared with AC. The physiochemical analyses show that 3.5 kVrms AC and 3.5 kV DC aged samples have comparable chemical characteristics albeit with electrode corrosion elements detected on the DC aged samples. Under 4.5 kV DC the degradation becomes significantly more severe and unrepeatable. It is therefore concluded that at 0.3 ml/min, pollutant flow rate, 3.5 kV positive DC and 3.5 kVrms AC are comparable as test voltages for inclined plane accelerated ageing of SiR insulation.
- Author(s): Mohamed E. Ibrahim and Amr M. Abd-Elhady
- Source: High Voltage, Volume 2, Issue 2, p. 129 –135
- DOI: 10.1049/hve.2016.0091
- Type: Article
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129
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This study presents a technique for power frequency AC voltage measurement. The proposed technique utilises a capacitor having a low capacitance in addition to a double wound Rogowski coil. This technique depends on capacitor current measurement using the double wound Rogowski coil. The voltage across the capacitor that connected in parallel with the system at which AC voltage is intended to be measured is reconstructed. The proposed technique is experimentally evaluated by designing the measurement system and using a digital signal processing board for the reconstruction processes. Moreover, the experimental results based on Rogowski coil measurements are compared with those obtained from reference techniques. Finally, the obtained results validate the efficacy of the proposed technique in power frequency AC voltage measurement.
Electrical characteristics of an energised conductor under various weather conditions
Minimisation of electric field stress at triple junction of a functionally graded cone type spacer in a gas insulated busduct with metal inserts
Comparative study of AC and DC inclined plane tests on silicone rubber (SiR) insulation
Power frequency AC voltage measurement based on double wound Rogowski coil
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