Search

Showing total 290,841 results
Start Over Database OpenAIRE Publisher institute of electrical and electronics engineers (ieee)
290,841 results

103. Experimental Studies on the Estimated Life of Oil-Immersed Insulation Paper in Traction Transformers

Author

Dongyang Wang, Yi Cui, Liqing Zhang, Lijun Zhou, Lei Guo, Liao Wei, and Lujia Wang

Subjects
Materials science, genetic structures, business.industry, Programmable logic controller, Energy Engineering and Power Technology, Design elements and principles, Thermal aging, Structural engineering, eye diseases, law.invention, Traction power network, surgical procedures, operative, Experimental system, law, Insulation system, Traction power supply, sense organs, Electrical and Electronic Engineering, business, Transformer
Abstract

Traction transformers are one of the most important equipment in the traction power supply system. Thermal aging of transformer insulation system determines its reliable life. To achieve an estimation of the insulation life of traction power transformers operated under real load condition, the effects of traction loads on the thermal aging of oil-paper insulation in traction transformers were investigated. First, the design principles for the accelerated thermal aging experiment were studied and proposed by considering magnitude (i.e., load rate) and frequency (i.e. spare time and lasting time) of the traction load. Then, an experimental system was established in the laboratory to conduct extensive accelerated thermal aging experiments, in which the traction loads were mimicked by using positive temperature coefficient (PTC) heating plates and a programmable logic controller (PLC). Finally, the experimental results were analyzed and discussed to reveal the effects of traction load on the thermal aging of oil-paper insulation in traction transformers.

Published
2021
Full Text
View/download PDF

104. Aging Effect on Interface Charges between Oil and Oil Immersed Paper

Author

Chen Chi, Kai Wu, Mingli Fu, Yuntong Ma, Yanpeng Hao, and Chuanhui Cheng

Subjects
Electrical aging, Thermal conductivity, Materials science, Thermal, Electrical and Electronic Engineering, Composite material, Aging effect, Accelerated aging
Abstract

This paper investigates the behavior of interface charges between oil and oil immersed paper insulations in unaged and aged samples. Combined accelerated thermal and electrical aging experiments of oil immersed paper insulations are conducted to obtain aged oil and aged paper samples. The interface charges between oil and paper samples with different aging status are measured with the Pulsed Electro-acoustic (PEA) method. Zeta potentials in samples with different aging status are determined. It is shown that the amount of interface charge increases with the aging duration, and does not follow the prediction of Maxwell-Wagner-Sillars (MWS) law. This is explained in terms of the increase of the interface charge barrier due to the effect of electric double layer. It is proposed that interface charge may act as an optional characterization parameter for the assessment of oil immersed paper insulations.

Published
2021
Full Text
View/download PDF

105. Physical Mechanism Analysis of Conductivity and Relaxation Polarization Behavior of Oil-Paper Insulation Based on Broadband Frequency Domain Spectroscopy

Author

Yongyong Du, Xize Dai, Jian Hao, Yingxin Deng, Ruijin Liao, Lijun Yang, and Jun Gao

Subjects
Permittivity, Materials science, Condensed matter physics, Frequency domain, Chemical polarity, Relaxation (physics), Dielectric, Electrical and Electronic Engineering, Conductivity, Spectroscopy, Polarization (electrochemistry)
Abstract

This paper focuses on the in-depth analysis of the physical mechanism of the broadband frequency domain spectroscopy of oil-paper insulation. The complex permittivity shows two low-frequency dispersion phenomena, and the real part of the complex conductivity exhibits two slope changes under the synergistic effect of aging and moisture. The two slope changes are mainly attributed to the migration characteristics of water molecules and polar aging products with a degradation of the oil-paper insulation, resulting in the transition of the frequency dependence between the DC conductivity and AC conductivity. When the oil-paper insulation deteriorates seriously, the imaginary part of the dielectric modulus shows double relaxation peaks. Physical models of parasitic capacitance and molecular polarity interface polarization are proposed to reveal the physical mechanism of the double relaxation peaks. The left peak of the double relaxation peaks is caused by the accumulation of water molecules and polar aging products at the electrode/insulation interface, and the right peak is due to the charge disturbance of the cellulose molecular chain surface. This paper can provide theoretical support and technical guidance for the condition diagnosis and evaluation of oil-paper insulation.

Published
2021
Full Text
View/download PDF

114. Concentration of total sugar produced by insulating paper in oil-paper insulation system

Author

Chen Chen, Yushuang Liu, Shengli Li, and Tao He

Subjects
010302 applied physics, Materials science, Transformer oil, Electrical insulation paper, Degree of polymerization, Pulp and paper industry, 01 natural sciences, Degree (temperature), Absorbance, chemistry.chemical_compound, chemistry, Insulation system, 0103 physical sciences, Electrical and Electronic Engineering, Cellulose, Sugar
Abstract

As sugar is an important intermediate in the early stage in the degradation of cellulose, this paper proposes to use the concentration of total sugar as an indicator of the degree of aging of insulating paper in an oil-paper insulation system. The oil-paper insulation system was simulated at 90, 100 and 110°C, and total sugar concentration in insulating paper and in transformer oil was measured by spectroscopy. The spectrum of sugar reaction was obtained by spectrometer, and TQ Analyst software was used to process the data. Our experiments have shown that the total sugar concentration increases significantly in the early stage of aging, and there is a linear relationship between the logarithm of total sugar concentration and the degree of polymerization. We obtained the relationship between absorbance and total sugar concentration using the partial least square method and the regression goodness of fit is better than 0.91.

Published
2019
Full Text
View/download PDF

115. Escherichia Coli Fed Paper-Based Microfluidic Microbial Fuel Cell With MWCNT Composed Bucky Paper Bioelectrodes

Author

P. Sankar Ganesh, Prakash Rewatkar, Sanket Goel, Pichkari Sai Kiran, Dipankar Nath, and Balaji Krishnamurthy

Subjects
Paper, Nanotube, Microbial fuel cell, Materials science, Bioelectric Energy Sources, Biomedical Engineering, Analytical chemistry, Energy-dispersive X-ray spectroscopy, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, 02 engineering and technology, Electrochemistry, Lab-On-A-Chip Devices, Escherichia coli, Electrical and Electronic Engineering, Polarization (electrochemistry), Electrodes, Nanotubes, Carbon, Open-circuit voltage, Equipment Design, Microfluidic Analytical Techniques, 021001 nanoscience & nanotechnology, Potentiostat, Computer Science Applications, Electrode, 0210 nano-technology, Biotechnology
Abstract

This paper demonstrates a simple-in-struct- ure, cost-effective, and environment-friendly Microfluidic Paper-based Analytical Device for Microbial Biofuel Cell ( $\mu $ PAD-MBFC). It consists of a microchannel with biofuel cell (Escherichia.Coli) and an oxidant (aerated tap water) flowing co-parallelly over Multiwalled Carbon Nanotube (MWCNT)-based Bucky Paper (BP) electrodes using a self-capillary and co-laminar flow mechanism. The electrochemical studies, such as open circuit potential (OCP) and polarization were evaluated using a potentiostat. Various volumetric bacterial studies were also carried out to find out the best suitable optimal bacterial volume. Subsequently, the morphological and detailed element composition study of electrode surface was performed using scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) techniques. This well-designed portable $\mu $ PAD-MBFC yields a maximum power density of 4 $\mu \text{W}$ /cm2 ( $20~\mu \text{A}$ /cm2) at 0.405 V over $200~\mu \text{l}$ of culture and leveraging to its long-lasting potential to operate miniaturized microelectronics sensors and portable devices.

Published
2019
Full Text
View/download PDF

116. Effects of Winding Vibration on the Mechanical-Thermal Aging Properties of Insulating Paper

Author

Wang Junhong, Zhidong Cheng, Ruijin Liao, and Li Cheng

Subjects
insulating paper, degree of polymerization, Materials science, General Computer Science, Scanning electron microscope, General Engineering, Electrical insulation paper, Winding vibration, Activation energy, Degree of polymerization, Accelerated aging, Vibration, Stress (mechanics), mechanical-thermal aging, tensile strength, Ultimate tensile strength, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, Composite material, infrared spectroscopy, lcsh:TK1-9971
Abstract

The oil-paper insulation in power transformer is under a complicated environment, and there is little research on the combined effects of winding vibration-generated mechanical stress and thermal stress on the aging of insulating paper. To investigate the effects of combined mechanical-thermal stress on the aging properties of insulating paper, this paper carried out accelerated aging test using the as-designed mechanical-thermal stress combined aging oven in the aging environment at the temperature of 130 °C, and the mechanical stress intensities of 1 MPa, 1.5 MPa and 2 MPa. Besides, the degree of polymerization (DP), tensile strength, infrared spectroscopy, and scanning electron microscope (SEM) tests were performed on the aging paper samples. The test results suggested that, the combined mechanical-thermal aging might be regarded as thermal aging with lower degradation activation energy; the DP and tensile strength of insulating paper markedly declined during the mechanical-thermal aging process. At the same time, mechanical stress promoted the destruction of glycosidic bond, intramolecular and intermolecular hydrogen bonds, and increased the insulating paper cracks and holes. Typically, the above factors accelerated the aging of insulating paper. Finally, an improved degradation rate equation for insulating paper with consideration of mechanical stress was put forward.

Published
2020
Full Text
View/download PDF

117. Coplanar Waveguide Based Sensor Using Paper Superstrate for Non-Invasive Sweat Monitoring

Author

Michael M. Y. R. Riad and A. R. Eldamak

Subjects
Materials science, General Computer Science, 02 engineering and technology, 01 natural sciences, re-useable sensor, Transmission line, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Sensitivity (control systems), Transmission coefficient, hydration sensor, Filter paper, business.industry, Coplanar waveguide, 010401 analytical chemistry, Non invasive, General Engineering, Microwave bio-sensing, 020206 networking & telecommunications, 0104 chemical sciences, liquid characterization, cystic fibrosis diagnosis, Lookup table, Optoelectronics, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, paper superstrate, lcsh:TK1-9971, Microwave
Abstract

This paper presents a broadband, simple, re-useable and low-cost approach for noninvasive sweat monitoring using a passive microwave circuit and a cellulose filter paper as a superstrate. The proposed sensor is composed of filter paper with the ability to absorb the sample liquid under test (LUT) placed on top of a coplanar waveguide (CPW) transmission line. Various samples of sodium chloride (NaCl) solutions with concentrations in the range of 0.01-2 mol/L and models of artificial sweat are used to test the proposed sensor. The difference in transmission coefficient (S21) between dry and wet states is used to determine the concentrations of tested solutions in the band of 1-6 GHz. The sensor detects concentrations as low as 0.01 mol/L (0.58 g/L) and quantities as low as 137 μL with a maximum sensitivity of 46.7 dB/g/L. The proposed sensor presents a simple approach to sample and characterize liquids with enhanced sensitivity and consistent performance using microwave signals.

Published
2020
Full Text
View/download PDF

118. Analysis of FDS Characteristics of Oil-impregnated Paper Insulation under High Electric Field Strength Based on the Motion of Charge Carriers

Author

Ning Ding, Zhaojie Liang, Zhao Haoxiang, Daning Zhang, Tian Jie, Wu Yinan, Guan-Jun Zhang, and Hai-Bao Mu

Subjects
Materials science, Condensed matter physics, Electric field, Conductance, Charge carrier, Dielectric loss, Dielectric, Electrical and Electronic Engineering, Low frequency, Spectroscopy, Polarization (waves)
Abstract

Frequency Domain Spectroscopy (FDS) is a powerful tool to study the dielectric properties of oil-paper insulation, which is widely used under high electric field strength. The motion of charge carriers under high electric field strength will cause new dielectric characteristics in FDS curves, from which more information could be extracted for insulation state assessment. In this paper, FD spectra are measured under high electric field strength. The electric field dependence of the loss peak in middle frequency and the characteristics of dielectric loss in low frequency are studied. With the influence of trapping on the motion of charge carriers under electric field being considered, charge carriers hopping polarization model and charge carriers motion dependent conductance model are proposed. The trap energy level of oil-paper insulation decreases when the moisture content increases, thus, the motion characteristics of charge carriers change, leading to decreasing loss peak in middle frequency and inverse dielectric loss characteristics in low frequency. These two models introduce the influence of traps on carrier motion into the dielectric response and enable one to gain a better understanding of the dielectric properties of oil-paper insulation under high electric field strength.

Published
2021
Full Text
View/download PDF

119. Dielectric Characteristics of Liquid Nitrogen/Synthetic Paper Composite Insulation System for Extra High Voltage HTS Cable

Author

Takato Masuda, Koki Yamakami, Hiroki Kojima, and Naoki Hayakawa

Subjects
Materials science, Nonwoven fabric, Composite number, High voltage, Dielectric, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Tyvek, Insulation system, 0103 physical sciences, Partial discharge, Dielectric loss, Electrical and Electronic Engineering, Composite material, 010306 general physics
Abstract

For extra-high-voltage high-temperature superconducting (HTS) cables, not only high electrical insulation performance but also low dielectric loss is required. Therefore, we focus on a porous synthetic paper with lower dielectric loss, e.g., Tyvek polyethylene nonwoven fabric, than that of polypropylene laminated paper (PPLP), which has been used for a conventional HTS cable insulation system. In this paper, we compare partial discharge inception characteristics for different liquid nitrogen/synthetic paper composite insulation systems. The partial discharge inception electric field strength in the composite insulation system depends on the electric field strength in the porous area of synthetic paper.

Published
2021
Full Text
View/download PDF

120. Experimental Study on Damage Mechanism of Partial Discharge of Oil-Immersed Laminated PMIA Paper

Author

Ya-hui Zhang, Qijun Duan, Jing-xuan Song, Shuang-shuang Wang, Qing Xie, Haoou Ruan, and Fangcheng Lü

Subjects
Materials science, chemistry, Partial discharge, Electric breakdown, chemistry.chemical_element, Electrical and Electronic Engineering, Composite material, Carbon
Abstract

PMIA (Poly-m-phenylene isophthalamide) is an ideal substitute for traditional cellulose paper in oil-immersed paper insulating scenarios. This paper studies the partial discharge characteristics of oil-immersed laminated PMIA. According to the $\mathrm{q}{-}\varphi$ scatter diagram, discharge quantity and discharge phenomenon, the partial discharge process of PMIA is divided into 3 stages: creeping discharge, co-existence discharge and pre-breakdown. The micro-structure and chemical components of damaged PMIA are presented. The carbon trace, functional groups, carrier trap characteristics and residual insulation strength in different stages of partial discharge are studied. This paper provides a theoretical basis for the application of PMIA in electrical insulation.

Published
2021
Full Text
View/download PDF

121. Polyaniline Functionalized Impedimetric Paper Sensor for Urine pH Measurement

Author

Arijit Pal, Koel Chaudhury, Souvik Biswas, and Soumen Das

Subjects
Analyte, Materials science, Band gap, Analytical chemistry, Substrate (chemistry), Conductivity, chemistry.chemical_compound, symbols.namesake, chemistry, Electrode, Polyaniline, symbols, Electrical and Electronic Engineering, Spectroscopy, Raman spectroscopy, Instrumentation
Abstract

A miniaturized paper-based disposable pH sensor has been developed for the measurement of urine pH. The proposed sensor requires $2~\mu \text{l}$ of analyte solution for rapid detection of the analyte pH with a response time of 3.07 sec and 36.04 sec for acidic and basic pH, respectively. The sensor is fabricated via in situ deposition of polyaniline over the paper substrate by chemical oxidative synthesis. The sensitivity of the sensor is 1.6 $\text{k}\Omega $ /pH for acidic pH and 6.2 $\text{K}\Omega $ /pH for basic pH, at a frequency of 1kHz. The sensor has been characterized using scanning electron microscopy, Raman spectroscopy, and UV-vis spectroscopy to validate the formation of emeraldine salt and emeraldine base state of polyaniline. The varying optical band gap values of the in-situ deposited paper sensor in the acidic and basic region also validates the presence of polaron in acidic pH and formation of emeraldine base in basic pH. DC conductivity measurement reveals that the conductivity of the polyaniline coated paper substrate decreases at a higher pH value. For an in-depth understanding, a novel electrical equivalent model is proposed, and the electrical parameters extracted from the Bode impedance and phase plot. The fabricated sensor exhibits an average accuracy of 95.53% when tested with urine sample of healthy subjects and patients suffering from urinary tract infection (UTI).

Published
2021
Full Text
View/download PDF

122. Development of MEMS Sensor for Detection of Creatinine Using MIP Based Approach – A Tutorial Paper

Author

Sumedha N. Prabhu, Chinthaka P. Gooneratne, and Subhas Chandra Mukhopadhyay

Subjects
Creatinine, chemistry.chemical_compound, chemistry, Human blood, Precipitation polymerization, Early detection, Specific adsorption, Electrical and Electronic Engineering, Mems sensors, Serum samples, Instrumentation, Synthetic polymer, Biomedical engineering
Abstract

Creatinine is a biochemical waste that is disseminated continually inside human blood. A synthetic polymer is developed in this study using Molecularly Imprinted Polymerization (MIP) technology with the precipitation polymerization method. The MIP polymer is used for finding the levels of creatinine from human serum samples with different creatinine concentrations. The MIP polymer is very selective to the specific adsorption of the molecules of creatinine. The produced MIP polymer is suitable for evaluating creatinine concentrations until 50 parts per million (ppm) that is thrice greater than the standard. The fabrication of chip-sized Micro-Electro-Mechanical-Systems (MEMS)-based interdigital (ID) sensors is described. The operation of the MEMS sensor is verified using the technique of Electrochemical Impedance Spectroscopy (EIS). The presented details of the development of MEMS ID sensor and creatinine specific MIP polymer are for detecting raised biotoxic waste levels, i.e. creatinine management is part of our research. The raised levels need monitoring by frequent pathological visits to those patients who have impaired kidney functioning. The complete system will be helpful for creatinine management at any time from home at a low cost. While early detection of an increase in creatinine and monitoring of kidney health to prevent further health-related complications are the goal of this research, results of up to 50 ppm are accessed. Until 50 ppm of MIP functionality is checked for confirming the MIP polymer adsorption of creatinine and the results are shown, which helps establish the sensing technology even if used for a patient with a high creatinine level.

Published
2021
Full Text
View/download PDF

123. Paper Based Chipless RFID Leaf Wetness Detector for Plant Health Monitoring

Author

Shuvashis Dey, Nemai Chandra Karmakar, and Emran Md Amin

Subjects
microwave, General Computer Science, Computer science, Acoustics, interdigital capacitor, 02 engineering and technology, chipless RFID, 01 natural sciences, Resonator, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Leaf wetness, Wireless measurement, 010401 analytical chemistry, Detector, General Engineering, 020206 networking & telecommunications, Internet of Everything (IOE), Paper based, Backscattered signal, 0104 chemical sciences, Interdigital capacitor, Chipless RFID, resonator, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Microwave
Abstract

This paper presents the design and analysis of a paper-based chipless RFID sensor for wetness content measurement in plant leaves. The sensor is designed using a passive microwave resonator to measure the ambient physical parameter. The resonator is designed with a rectangular loop inductively coupled with an interdigital capacitor. The experimental analysis of the designed sensor is illustrated here to prove its efficacy. The resonator provides adequate backscattered signal for wireless measurement in the microwave frequency band. When interrogated with a couple of UWB antennas and a VNA, it yields accurate leaf wetness response of the plant. The commercial competence of this sensing device is validated through its experimental analysis on three different types of leaf samples. This sensor is suitable for plant health monitoring in any small-scale gardening applications such as nurseries and greenhouses.

Published
2020
Full Text
View/download PDF

124. Electrical-Mechanical Model of Electrical Breakdown of Epoxy-Impregnated-Paper Insulated Tubular Busbar With Bubble Defects

Author

Xiang Ren, Guanjun Zhang, Haiyun Jin, and Ling Ruan

Subjects
Materials science, General Computer Science, Busbar, Bubble, Electrical breakdown, 02 engineering and technology, 01 natural sciences, fracture toughness, Fracture toughness, Electrical equipment, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Composite material, 010302 applied physics, 020208 electrical & electronic engineering, General Engineering, Epoxy, partial discharge, epoxy-impregnated-paper insulated tubular busbar, visual_art, Partial discharge, visual_art.visual_art_medium, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Failure mode and effects analysis
Abstract

Insulated tubular busbar is a new type of current-carrying equipment with excellent performance. However, the research on this equipment is insufficient because of the short application and the lack of technical digestion, which has resulted in many accidents. In this paper, the full-scale model of epoxy-impregnated-paper insulated tubular busbar with bubble defects was designed and produced, its electrical breakdown process was investigated by withstand voltage test. In the experiment, the failure mode of breakdown caused by gas expansion was found for the first time. The research showed that the electrical-mechanical breakdown process could be divided into two stages: gas increase stage and breakdown threshold stage. The research also obtained the characteristics and the change criterions of the two stages. The gas in the bubble defects generated from epoxy decomposition which caused by partial discharge. When the gas pressure exceeds the critical fracture toughness of the bubble defects wall, the unstable crack extension occurs, therefore, improving the ability about resistance to partial discharge of epoxy resin or improving the fracture toughness of epoxy resin by modifying would enhance the breakdown performance of insulated tubular busbar. The result also has reference significance for other epoxy-impregnated-paper insulated electrical equipment.

Published
2020
Full Text
View/download PDF

125. Measure the Impact of Institution and Paper Via Institution-Citation Network

Author

Jin Ni, Lei Shi, Ivan Lee, Xiaomei Bai, Fuli Zhang, Bai, Xiaomei, Zhang, Fuli, Ni, Jin, Shi, Lei, and Lee, Ivan

Subjects
FOS: Computer and information sciences, Physics - Physics and Society, Citation network, General Computer Science, Computer science, FOS: Physical sciences, Physics and Society (physics.soc-ph), institution-citation network, 050905 science studies, law.invention, PageRank, law, Digital Libraries (cs.DL), General Materials Science, paper impact, Measure (data warehouse), Information retrieval, 05 social sciences, General Engineering, institution impact, Computer Science - Digital Libraries, Ranking, Institution impact, Institution (computer science), lcsh:Electrical engineering. Electronics. Nuclear engineering, 0509 other social sciences, 050904 information & library sciences, Citation, lcsh:TK1-9971, Host (network)
Abstract

This paper investigates the impact of institutes and papers over time based on the heterogeneous institution-citation network. A new model, IPRank, is introduced to measure the impact of institution and paper simultaneously. This model utilises the heterogeneous structural measure method to unveil the impact of institution and paper, reflecting the effects of citation, institution, and structural measure. To evaluate the performance, the model first constructs a heterogeneous institution-citation network based on the American Physical Society (APS) dataset. Subsequently, PageRank is used to quantify the impact of institution and paper. Finally, impacts of same institution are merged, and the ranking of institutions and papers is calculated. Experimental results show that the IPRank model better identifies universities that host Nobel Prize laureates, demonstrating that the proposed technique well reflects impactful research. Refereed/Peer-reviewed

Published
2020
Full Text
View/download PDF

126. Modeling oil-paper insulation frequency domain spectroscopy based on its microscopic dielectric processes

Author

Ming Dong, Tianxin Zhuang, Yizhuo Hu, Jiacheng Xie, Johnatan M. Rodriguez-Serna, and Ricardo Albarracín-Sánchez

Subjects
010302 applied physics, Permittivity, Materials science, Frequency domain spectroscopy, Energía Eléctrica, Dielectric, Thermal conduction, 01 natural sciences, Computational physics, 0103 physical sciences, Paper sample, Thermally Stimulated Depolarization Current, Relaxation (physics), Electrical and Electronic Engineering, Polarization (electrochemistry)
Abstract

The present study sets out to devise a universal function model to explain the characteristic curve obtained in the frequency domain spectroscopy (FDS) test on oil-paper insulation, based on its microscopic conduction and relaxation processes, and thus to enhance the accuracy and applicability of the test. First, from the analysis of the relationship between the real and imaginary parts of the dielectric's complex permittivity, it is demonstrated that a relaxation peak co-exists with the conduction process in the low-frequency band of an FDS curve obtained for oil-impregnated paper sample. Second, values for polarization barrier heights, essential to the determination of the microscopic polarization mechanisms, are presented as results of FDS and thermally stimulated depolarization current experiments carried out on oil-impregnated paper samples. The polarization peaks obtained in the imaginary permittivity frequency spectrum are determined as, respectively, space charge polarization and interface polarization. Finally, a function model in good agreement with experiment data is proposed, which quantitatively describes the FDS curve in oil-impregnated sample, including two relaxation processes and one conduction process.

Published
2019
Full Text
View/download PDF

127. Dielectric response and space charge in epoxy impregnated paper composite laminates

Author

N. M. Chalashkanov, Zongren Peng, Len A. Dissado, S. J. Dodd, and Qingyu Wang

Subjects
010302 applied physics, Materials science, Epoxy, Dielectric, Composite laminates, 01 natural sciences, Space charge, Crêpe paper, Bushing, visual_art, Electric field, 0103 physical sciences, visual_art.visual_art_medium, Charge carrier, Electrical and Electronic Engineering, Composite material
Abstract

As the main material of the converter transformer dry-type bushing, the dielectric properties of epoxy/crepe paper at different temperatures and frequencies are related to the electric field and thermal field distribution of the bushing, which directly affects the safe and stable operation of the bushing. Here we report the dielectric response of samples of dry-type bushing insulation measured at a range of temperatures appropriate to operation and down to frequencies below those usually used. A significant loss peak observed below power frequency is interpreted as originating from the charging of internal epoxy resin interfaces by the transport of charge carriers on structured paths in the epoxy-impregnated crepe paper layers. A simulation model is proposed that allows estimation of the space charge and field distribution at any given frequency.

Published
2019
Full Text
View/download PDF

128. Online Partial Discharge Condition Monitoring of Complete Networks: Challenges and Solutions Explained through Case Studies for the Pulp and Paper Industry

Author

Andrew Burgess, Riccardo Giussani, Aaron McPhee, and Lewis Dodd

Subjects
Computer science, Energy Engineering and Power Technology, Condition monitoring, Network monitoring, Pulp and paper industry, Asset (computer security), Network topology, Maintenance engineering, Industrial and Manufacturing Engineering, Control and Systems Engineering, Software deployment, Retrofitting, Electrical and Electronic Engineering, Mobile device
Abstract

Unplanned outages within the paper industry lead to significant costs to operators. To reduce unplanned outages and losses, condition monitoring (CM) techniques can be implemented to determine asset health and help target maintenance to where it is required most. The challenges faced by the paper industry to implement condition-based maintenance (CBM) on their medium-voltage (MV) and high-voltage (HV) networks and solutions for online partial discharge (OLPD) monitoring are due to the range and number of assets present and the geographical spread coupled with problems of retrofitting the technology on pre-existing plants. The implementation of OLPD testing or monitoring can vary based on several factors: network topology, connected assets, switchboard type, and the owner's budget and desired local engineer involvement. This article discusses different approaches to implementing an OLPD test program, ranging from simple handheld survey units to complete network monitoring. Its focus is on case studies of the deployment of OLPD testing and monitoring solutions at several U.S. paper sites. The case studies present diagnostic testing of unshielded MV cable at one paper mill up to full permanent OLPD monitoring systems at two others.

Published
2019
Full Text
View/download PDF

129. Effect of oil–paper–pressboard mass ratio on furfural content in transformer oil

Author

Ruijin Liao, Lijun Yang, Dawei Feng, Xin Chen, and Luowei Zhou

Subjects
010302 applied physics, Pressboard, Materials science, Transformer oil, Thermal aging, Mass ratio, Pulp and paper industry, Furfural, 01 natural sciences, law.invention, Partition coefficient, chemistry.chemical_compound, chemistry, law, 0103 physical sciences, Electrical and Electronic Engineering, Transformer
Abstract

Furfural content in oil is widely accepted as an effective parameter to mirror aging of insulation paper. However, pressboards are also abundant in transformers, which are always neglected in furfural analysis. Different masses of insulation paper and pressboard produce different amounts of furfural during the aging process. Thus, the furfural content in oil may differ in systems with different oil-paper-pressboard mass ratios. To address this problem, accelerated thermal aging experiments and furfural equilibrium experiments with different oil-paper-pressboard mass ratio systems were conducted under laboratory conditions. Furfural contents in oil, paper, and pressboard were measured. In a simplified oil-paper system, the furfural content in oil differs in systems with different oil-paper mass ratios. Further analysis shows the furfural amount produced by 1 g insulation paper is the same with good repeatability in groups with different mass ratios. Different oil-paper mass ratios change the distribution coefficient of furfural between oil and paper, and an increase in the mass of insulation paper leads to more furfural remaining in the insulation paper. The pressboards in field transformers produce little furfural during the aging process, but absorb part of the furfural from oil, which decreases the furfural content in oil. Therefore, more pressboard in an oil-paper-pressboard system indicates lower furfural content in oil. An increase in insulation paper in the oil-paper-pressboard system causes a decrease in the effect of pressboard on furfural content in oil.

Published
2019
Full Text
View/download PDF

130. Effect of temperature on space charge characteristics of oil-paper insulation and its numerical simulation

Author

Minghe Chi, Jinfeng Zhang, Jinming Cao, Peng Tan, Qingguo Chen, and Wenxin Sun

Subjects
010302 applied physics, Pressboard, Materials science, Charge density, Charge (physics), 01 natural sciences, Space charge, Ion, Electric field, 0103 physical sciences, Electrode, Electrical and Electronic Engineering, Composite material, Kraft paper
Abstract

In this study, the space charge in oil-impregnated thick pressboard and Kraft paper were measured by the pulsed electroacoustic (PEA) method from -20 to +60 °C. A bipolar charge transport model was used to simulate the transport processes of homocharge and heterocharge, and the acoustic attenuation process in the samples. The test results show that space charge accumulates in the thick pressboard and Kraft paper increases first and then decreases with temperature, and its maximum appears at 40°C, while little space charge accumulates at -20°C. The space charge near the lower electrode shrinks in the oil-impregnated thick pressboard at high temperature and the shrinkage is larger at 60°C. In the oil-impregnated Kraft paper, the accumulation and charge density of positive charge is different from negative charge. The ion transport process model simulates the charge shrinkage near the electrode, and disappears at the upper electrode after the acoustic attenuation simulation. The model established in this paper can well simulate the space charge distribution of oil-impregnated thick pressboard and Kraft paper under different temperatures.

Published
2019
Full Text
View/download PDF

131. Aging Assessment of Oil-Paper Insulation of Power Equipment With Furfural Analysis Based on Furfural Generation and Partitioning

Author

Jiansheng Li, Yuandi Lin, Fengbo Tao, and Chao Wei

Subjects
Materials science, Moisture, 020209 energy, Energy Engineering and Power Technology, Thermal aging, 02 engineering and technology, Furfural, Pulp and paper industry, Accelerated aging, chemistry.chemical_compound, chemistry, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Power equipment
Abstract

The effects of furfural generation and partitioning on the aging assessment of oil-paper insulation of power equipment were investigated. Oil-paper samples with various furfural contents were prepared using an accelerated thermal aging experiment. The mass of the furfural generated during the aging of insulation paper was calculated and used to establish the quantitative equation between the accumulated furfural and the degree of polymerization (DP) of the insulation paper. Results showed that the reciprocal of the DP value was linearly related to the amount of furfural generated by the insulation paper. Effects of temperature, moisture, and temperature on the furfural partitioning ratio between oil and paper were analyzed using a furfural partitioning experiment, and a furfural partitioning model was established. Results showed that the furfural partitioning ratio in oil was positively correlated with temperature and moisture but negatively correlated with the DP of the insulation paper. A method for assessing the age of an insulation paper by integrating the furfural generation and partitioning models was proposed and applied on a 500-kV reactor that was returned for factory maintenance. The application result indicated that the method could accurately assess the overall aging condition of the oil-paper insulation of the power equipment.

Published
2019
Full Text
View/download PDF

132. PaperCraft3D: Paper-Based 3D Modeling and Scene Fabrication

Author

Julie Dorsey, Patrick Paczkowski, Holly Rushmeier, and Min H. Kim

Subjects
Developable surface, Fabrication, business.industry, Computer science, Interface (computing), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Process (computing), 020207 software engineering, 02 engineering and technology, Solid modeling, Paper based, 3D modeling, Computer Graphics and Computer-Aided Design, Human–computer interaction, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, Computer Vision and Pattern Recognition, business, Software, Gesture
Abstract

A 3D modeling system with all-inclusive functionality is too demanding for a casual 3D modeler to learn. There has been a shift towards more approachable systems, with easy-to-learn, intuitive interfaces. However, most modeling systems still employ mouse and keyboard interfaces, despite the ubiquity of tablet devices and the benefits of multi-touch interfaces. We introduce an alternative 3D modeling and fabrication paradigm using developable surfaces, inspired by traditional papercrafting, and we implement it as a complete system designed for a multi-touch tablet, allowing a user to fabricate 3D scenes. We demonstrate the modeling and fabrication process of assembling complex 3D scenes from a collection of simpler models, in turn shaped through operations applied to virtual paper. Our fabrication method facilitates the assembly of the scene with real paper by automatically converting scenes into a series of cutouts with appropriately added fiducial markers and supporting structures. Our system assists users in creating occluded supporting structures to help maintain the spatial and rigid properties of a scene without compromising its aesthetic qualities. We demonstrate several 3D scenes modeled and fabricated in our system, and evaluate the faithfulness of our fabrications relative to their virtual counterparts and 3D-printed fabrications.

Published
2019
Full Text
View/download PDF

133. Influence of metal transformer materials on oil-paper insulation after thermal aging

Author

Chen Tiansheng, Zhiping Zhu, Wei Su, Deng Wang, Zhang Li, Yihua Qian, Yaohong Zhao, and Shengping Fan

Subjects
010302 applied physics, Materials science, Silicon, Transformer oil, Scanning electron microscope, Electrical insulation paper, chemistry.chemical_element, Dielectric, Microstructure, 01 natural sciences, Copper, chemistry, 0103 physical sciences, Dissipation factor, Electrical and Electronic Engineering, Composite material
Abstract

This study investigated the influence of the main metal materials of transformers on the oil-paper insulation performance. Ten types of insulating specimens were subjected to accelerated thermal aging at 120°C. Some aging parameters, including oil acid number, furfural content and degree of polymerization (DP) of insulating paper, were measured and compared. At the same time, we conducted frequency domain spectroscopy, X-ray diffraction, scanning electron microscopy and energy dispersive spectrometry on the insulating paper. The following conclusions were drawn: silicon lamination slightly deteriorates the insulating oil, copper increases the acidity and accelerates the production of furfural, metal materials can decrease DP of insulating paper and the effect of copper is greater than that of silicon lamination. During thermal aging, the dielectric dissipation factor of insulating paper increases and the carbon content of insulating paper increases. Metal materials can significantly increase the dielectric dissipation factor and carbon content of insulating paper and the effect of copper is greater than that of silicon lamination.

Published
2019
Full Text
View/download PDF

134. Modeling and Evaluation of Paper Machine Coater Sections Part 2: 2-Coater Section and Control Loops’ Bandwidths

Author

M. Anibal Valenzuela, Steve Pittman, A Guillermo Ramirez, and Robert D. Lorenz

Subjects
0209 industrial biotechnology, business.product_category, Computer science, Bandwidth (signal processing), 0211 other engineering and technologies, Mechanical engineering, 02 engineering and technology, Industrial and Manufacturing Engineering, 020901 industrial engineering & automation, Paper machine, Control and Systems Engineering, 021105 building & construction, Process control, Torque, Electrical and Electronic Engineering, business
Abstract

Coater sections are examples of multi-span web transporting systems, with dynamic characteristics related to the sheet properties and control schemes. This paper first describes and analyzes a set of field records of a production 2-coater section paper machine. Then, extending the 1-coater section model developed in a related paper, a precise simulation model of a 2-coater section is implemented. This model is used to evaluate the beginning of the coating process and the effect on the section responses of different bandwidth settings in the tension and speed controllers. Results show agreement with the field records and demonstrate that the developed model is a powerful tool to analyze and understand the behavior of coater sections during both, transient and steady state conditions.

Published
2019
Full Text
View/download PDF

135. Guest Editorial: Special Issue Based on Papers Submitted to All 2018 IEEE TEMS Conferences

Author

Xiaohong Iris Quan and Maximilian von Zedtwitz

Subjects
Entrepreneurship, Engineering management, Engineering, Silicon valley, Process (engineering), business.industry, Strategy and Management, Rebranding, Electrical and Electronic Engineering, business, Technology management
Abstract

The papers in this special issue were submitted to all the conferences organized by IEEE Technology and Engineering Management Society (TEMS) in a given calendar year. In 2017, IEEE TEMS initiated its flagship conference TEMSCON (held in Silicon Valley), which serves as rebranding from its original International Technology Management Conferences (ITMC). Following that, in 2018, two more conferences were initiated globally, one in Asia known as IEEE TEMS International Symposium on Innovation and Entrepreneurship (ISIE), and one in Europe as IEEE TEMS International Conference on Technology and Entrepreneurship (ICTE). For this special issue, we invited authors attending any of the three aforementioned conferences in 2018 to submit full manuscripts for reviews, and the present special issue with eleven papers is the result of a careful selection following our usual rigid double-blinded peer-review process.

Published
2021
Full Text
View/download PDF

136. Pencil-on-Paper-Based Touchpad for Ecofriendly and Reusable Human–Machine Interface

Author

Muhammad Hamza Zulfiqar, Kashif Riaz, Muhammad Zubair, Muhammad Qasim Mehmood, and M. Hassan

Subjects
Fabrication, business.industry, Computer science, Capacitive sensing, Interface (computing), Process (computing), 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Touchpad, 01 natural sciences, 0104 chemical sciences, User control, Electrical and Electronic Engineering, User interface, 0210 nano-technology, business, Instrumentation, Computer hardware, Tactile sensor
Abstract

This letter presented a pencil-on-paper-based ecofriendly capacitive touchpad fabricated through a low-cost lab- and solvent-free fabrication process. Economical, readily available, and biodegradable materials, such as pencil and paper, have been used for sensor fabrication. A touchpad based on five such sensors has been developed and evaluated by using it as a user control interface to on/off LEDs and displaying results on LCD and mobile app. The graphite sensors in the user interface have been shielded from the direct interaction of humans and the environment using changeable cling film to make the interface reliable and reusable. The interface can be used in different conditions and users by changing the shielding film. Simultaneously, the system's functionality will remain consistent and functioned similarly to the conventional touch sensors and buttons. These recyclable and easily arrayed touch sensor-based keypads can contribute to future developments in disposable and lightweight interfaces for human–machine interface, medical and healthcare applications, smart packaging, security monitoring, and consumer products.

Published
2021
Full Text
View/download PDF

137. An Integrated Paper-Based Microfluidic Device for Real-Time Sweat Potassium Monitoring

Author

Qingpeng Cao, Bo Liang, Tingting Tu, Lu Fang, Xuesong Ye, Xiyu Mao, and Pan Wenhao

Subjects
Materials science, Inkwell, business.industry, Potassium, 010401 analytical chemistry, Microfluidics, chemistry.chemical_element, 01 natural sciences, 0104 chemical sciences, SWEAT, chemistry, Electrode, Optoelectronics, Electrical and Electronic Engineering, business, Instrumentation, Layer (electronics), Evaporator, Electronic circuit
Abstract

Wearable electrochemical sensors have attracted tremendous attention in recent years. Here, an integrated three-dimensional paper-based microfluidic electrochemical device (3D-PMED) with flexible wireless circuits is demonstrated for real-time monitoring of sweat potassium. The paper-based microfluidic pad is fabricated by printing wax patterns on cellulose paper and then folding the pre-patterned paper four times to form a five-layer stacked structure: sweat collector, vertical channel, transverse channel, electrode layer, and sweat evaporator. Also, we have discussed the different properties with three swear collector types. The sweat monitoring device is realized by integrating a screen-printed potassium ion-selective sensor on the PET substrate with the fabricated paper microfluidic pad. The sweat flow in 3D-PMED is modeled with red ink to generate the flow pathway of sweat and the capability of sweat storage. The detection range of the potassium ion-selective sensor is 1–32 mM, and the electrode response potential is 61.79 mV per decade of K+ concentration. The device has a small size that is suitable for everywhere on the body, and also have shown good selectivity for both anion and cation, and a stable performance within 1 week. This 3D-PMED has provided a simple, low-cost way for real-time dynamic sweat potassium monitoring when exercising.

Published
2021
Full Text
View/download PDF

138. Impedimetric Paper-Based Enzymatic Biosensor Using Electrospun Cellulose Acetate Nanofiber and Reduced Graphene Oxide for Detection of Glucose From Whole Blood

Author

Anita Ahmadi, Shima Kabiri, Seyyed Mehdi Khoshfetrat, Lida Fotouhi, Kobra Omidfar, and Parisa Seyed Dorraji

Subjects
Materials science, Working electrode, biology, 010401 analytical chemistry, 01 natural sciences, Cellulose acetate, Electrospinning, 0104 chemical sciences, Nanocellulose, Dielectric spectroscopy, chemistry.chemical_compound, chemistry, biology.protein, Glucose oxidase, Electrical and Electronic Engineering, Cyclic voltammetry, Instrumentation, Biosensor, Nuclear chemistry
Abstract

The excellent characteristics of nanocellulose fiber-based papers have made them one of the most attractive and innovative materials for the development of electrochemical paper-based analytical devices (ePADs). Here, the authors describe a new ePAD based on cellulose nanofibers (CNs) for the determination of glucose concentration from whole blood samples. Cellulose acetate (CA) nanofibers were prepared by the electrospinning method. Then, the paper layer regenerated to cellulose by deacetylation in alkaline solution. To obtain a smooth and continuous CNs layer, it was treated with trimethyl chitosan (TMC). The formation of CA layer, its alkaline regeneration and TMC modification was confirmed by atomic force microscopy, scanning electron microscopy, Fourier-transform infrared spectroscopy, and energy dispersiveX-ray. Screen-printed three electrodes (SPEs) were fabricated by sputtering a thick layer of gold (Au) on the TMC/CNs substrate. Subsequently, reduced graphene oxide (rGO) was used to modify the surface of the working electrode. The fabrication steps of rGO-Au-SPE were characterized using cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS) and scanning electron microscop. The results showed that design, construction and modification process was well achieved. Next, glucose oxidase is successfully immobilized onto the regenerated CNs layer which has been previously located in the sensing area of the rGO-Au-SPEs. The ePAD glucose assay exhibited high sensitivity of $9.9\times 10^{-4}~\text{K}\Omega ^{-1} \cdot \text{mM} ^{-1}$ to glucose in the range 3.3 – 27.7 mM ( $\text{R}^{2} =0.99$ ) with a detection limit of 0.1 mM, high reproducibility (RSD = 0.57-1.59%) and outstanding selectivity as well as stability. This biosensing motif represents a general platform for the analysis of other biomarkers.

Published
2021
Full Text
View/download PDF

139. Space Charge Characteristics in Epoxy Resin Impregnated Paper under AC and AC-DC Superimposed Electric Fields

Author

Zongren Peng, Siyu Zhang, and Zongliang Xie

Subjects
010302 applied physics, Materials science, Relative permittivity, Charge (physics), Epoxy, 01 natural sciences, Space charge, Dipole, Bushing, Electric field, visual_art, 0103 physical sciences, visual_art.visual_art_medium, Electrical and Electronic Engineering, Composite material, DC bias
Abstract

In this paper, charge distributions in three-layered epoxy resin and epoxy resin impregnated paper samples under AC and AC-DC superimposed electric fields are measured by the improved high-speed pulsed electro-acoustic system. To exclude the interferences caused by the discontinuity of relative permittivity, a method to distinguish between net dipolar charges and free charges is proposed. Through analysis, the influences of frequency, AC component and DC component on the charge transport and trapping characteristics in multi-layered epoxy composites are obtained, which could provide important reference to the structural design and optimization of converter transformer bushings.

Published
2021
Full Text
View/download PDF

140. Papertronics: Hand-Written MoS₂ on Paper Based Highly Sensitive and Recoverable Pressure and Strain Sensors

Author

Sushmitha Veeralingam, Sushmee Badhulika, and Parikshit Sahatiya

Subjects
Fabrication, Materials science, business.industry, Band gap, 010401 analytical chemistry, Substrate (electronics), 01 natural sciences, Durability, Pressure sensor, 0104 chemical sciences, Characterization (materials science), Optoelectronics, Graphite, Electronics, Electrical and Electronic Engineering, business, Instrumentation
Abstract

Pencil (graphite) on paper (PoP) electronics has gained significant attention due to its low cost and versatility in developing customizable disposable electronics. Despite the convenience of the PoP methodology in device fabrication its application in developing electronics is limited due to the absence of a bandgap in graphite. The present work is the first demonstration of the direct writing of 2D MoS2 trace on paper which was utilized as a pressure and strain sensor. Detailed characterization studies revealed the formation of rhombohedral and hexagonal phased MoS2 micro-flowers. XPS studies revealed the formation of mixed 1T (metallic) and 2H (semiconducting) phases of MoS2. With the increase in the number of traces of 2D MoS2 on paper, the resistance of the channel decreased owing to the increase in conducting channels. The as-fabricated pressure sensor displayed a sensitivity of 2.21 kPa−1 and strain sensor displayed a GF of 13. Also, the sensor displayed an excellent durability for 1600 cycles. The superior response of the sensor can be attributed to the synergistic properties of micro fibrous paper substrate and piezo-dependent electron transfer of 2D-MoS2. The presented technique enables “make it yourself” multifunctional device that have numerous potential applications in the field of consumer electronics and personal healthcare monitoring.

Published
2021
Full Text
View/download PDF

141. Interface Charge Barrier between Oil and Oil Immersed Paper

Author

Kai Wu, Hao Wu, Chuanhui Cheng, Mingli Fu, Jingfeng Wu, Ren Shuangzan, and Yanpeng Hao

Subjects
010302 applied physics, Permittivity, Materials science, Chemical physics, Interface (computing), 0103 physical sciences, Charge (physics), Electric potential, Electrical and Electronic Engineering, Conductivity, Polarization (electrochemistry), 01 natural sciences
Abstract

This paper presents an investigation of the underlying mechanism behind the interface charge barrier between oil and oil immersed paper. Two types of oils and two types of cellulose papers are selected in the study. The interface charges of the samples are measured by the pulsed electro-acoustic (PEA) method and the zeta potentials of different oil-paper combinations are also measured. The results show that the amount of interface charge changes with the type of oils and papers, and is much larger than the Maxwell-Wagner-Sillars (MWS) polarization charge. The difference in the amount of interface charges cannot be attributed to the difference in the conductivity and permittivity of the materials. It is suggested that the barrier for charge transport across the interface, which is formed due to the electric double layer, should be taken into consideration to explain the interface charge behavior in oil-paper insulation.

Published
2021
Full Text
View/download PDF

142. From Papers to Programs: Courts, Corporations, Clinics, and the Battle Over Computerized Psychological Testing

Author

Kira Lussier

Subjects
Battle, Competing interests, General Computer Science, business.industry, Interpretation (philosophy), media_common.quotation_subject, Software development, Decision rule, Intellectual property, Public relations, Test (assessment), Scholarship, Politics, History and Philosophy of Science, Minnesota Multiphasic Personality Inventory, Personality, Psychological testing, business, Psychology, media_common
Abstract

This paper examines the role of technology firms in computerizing personality tests from the early 1960s to late 1980s. It focuses on the National Computer Systems (NCS) and their development of an automated interpretation for the Minnesota Multiphasic Personality inventory (MMPI). NCS trumpeted their computerized interpretation as a way to free up clerical labor and mitigate human bias. Yet psychologists cautioned that proprietary algorithms risked obscuring decision rules. I show how clinics, courtrooms, and businesses all had competing interests in the use of computerized personality tests. As I argue, the development of computerized psychological tests was shaped both by business concerns about intellectual property and profits and psychologists' concerns with validity and access to algorithms. Across these domains, the common claim was that computerized psychological testing could provide a technical fix for bias. This paper contributes to histories of computing emphasizing the importance of IP, the relationship between labor, technology, and expertise, and to histories of algorithms.

Published
2021
Full Text
View/download PDF

143. Citation Impact of Outstanding Conference Papers of the IEEE Nuclear and Space Radiation Effects Conference

Author

Daniel M. Fleetwood

Subjects
Discrete mathematics, Nuclear and High Energy Physics, Nuclear Energy and Engineering, 010308 nuclear & particles physics, 0103 physical sciences, Electrical and Electronic Engineering, Nuclear science, Space radiation, Citation impact, Citation, 01 natural sciences, Mathematics
Abstract

Numbers of citations of outstanding conference papers (OCPs) of IEEE Nuclear and Space Radiation Effects Conferences (NSRECs) from 1966 to 2017 are compared with citations of the most highly cited papers (HCPs) of the corresponding special issues of the IEEE TRANSACTIONS ON NUCLEAR SCIENCE (TNS), as well as average numbers of citations and cumulative $h$ index, $h_{\mathrm {cum}}$ , for all TNS papers published in the same year. 85% of NSREC OCPs are cited at a higher rate than the average for all TNS articles in that year. 55% of NSREC OCP citation totals are higher than $h_{\mathrm {cum}}$ for TNS in that year; these rank among the ~8% most highly cited TNS papers for that year. In ~10% of cases, the NSREC OCP is also the most HCP. Similarly high citation impact is found for papers nominated as candidates for OCPs. Radiation effects papers published in annual NSREC special issues comprise a significant fraction of all TNS articles cited $h_{\mathrm {cum}}$ times or more. These results support the use of $h_{\mathrm {cum}}$ as a metric of citation impact in this work and show that the NSREC OCP process generally meets awards criteria guidelines for impact. Potential reasons for variations in citation rates are discussed, and recommendations are provided to enhance the awards process.

Published
2021
Full Text
View/download PDF

144. A Method for Diagnosing the State of Insulation Paper in Traction Transformer Based on FDS Test and CS-DQ Algorithm

Author

Liqing Zhang, Lijun Zhou, Dongyang Wang, Lei Guo, Yi Cui, and Lujia Wang

Subjects
010302 applied physics, Computer science, 020208 electrical & electronic engineering, Energy Engineering and Power Technology, Transportation, 02 engineering and technology, 01 natural sciences, Field (computer science), Support vector machine, Set (abstract data type), Nonlinear system, Insulation system, 0103 physical sciences, Automotive Engineering, 0202 electrical engineering, electronic engineering, information engineering, State (computer science), Electrical and Electronic Engineering, Cuckoo search, Algorithm, Reliability (statistics)
Abstract

Traction transformer is vital equipment in high-speed railway. Insulation status decides its safety and reliability, and the frequency-domain dielectric spectrum (FDS) test is one of the most effective methods reflecting the changing of insulation status. For field applications, the following problems should be addressed: 1) how to obtain the result of paper insulation from the combined result of the oil–paper insulation system and 2) how to discriminate the defects of insulation paper between aging and damp. In this article, the first problem was transferred to a nonlinear equation set, and a cuckoo search algorithm optimized by the differential evolution algorithm and the quadratic interpolation (QI) method (CS-DQ algorithm) was proposed to solve it. Then, the insulation states were discriminated by establishing a multiclass least-squares support vector machine (LS-SVM) model, in which the CS-DQ algorithm was also used. Finally, a diagnostic approach for the insulation paper in the traction transformer was proposed. The results in the laboratory show that the pure result of insulation paper can be obtained, and the insulation states can be discriminated effectively by using the proposed approach. Meanwhile, the proposed CS-DQ algorithm has a better performance than the conventional CS algorithm. The results of field testing also verify the proposed approach.

Published
2021
Full Text
View/download PDF

145. A Hybrid Personalized Scientific Paper Recommendation Approach Integrating Public Contextual Metadata

Author

Saravanakumar Gurusamy, Md. Abdul Based, Khalid Haruna, Rodina Ahmad, Mominul Ahsan, Julfikar Hiader, and Nazmus Sakib

Subjects
Context model, Information retrieval, General Computer Science, Computer science, Scientific paper recommendation, Feature extraction, General Engineering, 02 engineering and technology, Recommender system, public contextual metadata, TK1-9971, Metadata, Order (exchange), 020204 information systems, collaborative filtering, 0202 electrical engineering, electronic engineering, information engineering, Collaborative filtering, Mean reciprocal rank, content-based filtering, 020201 artificial intelligence & image processing, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, Baseline (configuration management), hybrid approach
Abstract

Rapid increase in scholarly publications on the web has posed a new challenge to the researchers in finding highly relevant and important research articles associated with a particular area of interest. Even a highly relevant paper is sometimes missed especially for novice researchers due to lack of knowledge and experience in finding and accessing the most suitable articles. Scholarly recommender system is a very appropriate tool for this purpose that can enable researchers to locate relevant publications easily and quickly. However, the main downside of the existing approaches is that their effectiveness is dependent on priori user profiles and thus, they cannot recommend papers to the new users. Furthermore, the system uses both public and non-public metadata and therefore, the system is unable to find similarities between papers efficiently due to copyright restrictions. Considering the above challenges, in this research work, a novel hybrid approach is proposed that separately combines a Content Based Filtering (CBF) recommender module and a Collaborative Filtering (CF) recommender module. Unlike previous CBF and CF approaches, public contextual metadata and paper-citation relationship information are effectively incorporated into these two approaches separately to enhance the recommendation accuracy. In order to verify the effectiveness of the proposed approach, publicly available datasets were employed. Experimental results demonstrate that the proposed approach outperforms the baseline approaches in terms of standard metrics (precision, recall, F1-measure, mean average precision, and mean reciprocal rank), indicating that the proposed approach is more efficient in recommending scholarly publications.

Published
2021

146. Raman spectrum characteristics and aging diagnosis of oil-paper insulation with different oil-paper ratios

Author

Zhou Yongkuo, Weigen Chen, Dingkun Yang, and Ruyue Zhang

Subjects
010302 applied physics, Materials science, Transformer oil, Thermal aging, 01 natural sciences, Random forest, Support vector machine, symbols.namesake, 0103 physical sciences, Hyperparameter optimization, symbols, Electrical and Electronic Engineering, Biological system, Raman spectroscopy
Abstract

In this paper, a method of aging diagnosis under different oil-paper ratios is proposed by investigating the accelerated thermal aging data with different oil-paper ratios. Aged oil-paper insulation samples with oil-paper ratios of 10:1, 15:1 and 20:1 are obtained by accelerated thermal aging tests. The Raman spectra of the transformer oil samples are measured by a Raman spectrometer, and screened by random forest algorithm to extract the features. A modified model is established to correcting the features of the aged oil samples under the conditions of 15:1 and 20:1 oil-paper ratio to features under the condition of 10:1 oil-paper ratio. An grid search optimized support vector machine (SVM) classification model is established, and verified by the corrected features. The experimental results show that the proposed method can effectively identify the aging of oil-paper insulation with different oil-paper ratios.

Published
2020
Full Text
View/download PDF

147. Microstrip Dual-Band Bandpass Filter With Wide Bandwidth Using Paper Substrate

Author

T. Rama Rao, Vamsi Krishna Velidi, Kanaparthi V. Phani Kumar, and Ayman A. Althuwayb

Subjects
Physics, Frequency response, Band-pass filter, Bandwidth (signal processing), Electronic engineering, Scattering parameters, Stopband, Filter (signal processing), Electrical and Electronic Engineering, Condensed Matter Physics, Passband, Microstrip
Abstract

This work presents the design and analysis of a novel dual-wideband bandpass filter (BPF) using the transversal filtering section (TFS), coupled lines (CLs), and stepped impedance stubs (SISs). Initially, a dual-band BPF employing TFS and CLs is designed. To enhance the bandwidth and selectivity, SIS units and quarter wavelength transmission lines are attached at the input and output ports. This novel filter’s frequency response has six transmission zeros in the stopband and four transmission poles in each passband. A prototype with center frequencies of 1.17 and 2.4 GHz is realized on a biodegradable substrate and tested. The tested and simulated results are in high congruence, validating the proposed design circuit and theory.

Published
2021
Full Text
View/download PDF