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61. Design and Analysis of controllers for paper machine subsystem

Author

Gauri Yadav, Vikas Joshi, Parvesh Saini, and Harshita Pathak

Subjects
business.product_category, Computer science, media_common.quotation_subject, Multivariable calculus, PID controller, Transfer function, Nonlinear system, Paper machine, Control theory, Integrator, Process control, Quality (business), business, media_common
Abstract

The economy of the paper industry largely depends on the quality of the paper manufactured and the quality depends on the precise operation of Headbox, which is the key element of the paper machine and is highly responsible for the quality of the paper manufactured. Being a nonlinear multivariable system, a headbox needs to be controlled efficiently to have the desired response which in turn reflects in the quality of the paper. The headbox is subjected to various disturbances and thus it is required not only to suppress the effect of disturbances but also to ensure the smooth start of the headbox and fast response to the set-point changes. A control technique is proposed in this paper for a paper machine headbox based on the determination of ultimate gain and frequency using the fractional-order integrator (FOI). The PID tuning technique proposed has been applied on paper machine headbox and the responses are compared with the existing techniques.

Published
2020

62. The toilet paper issue during the COVID-19 crisis

Author

Serge Galam, D. Nishiyama, Fujio Toriumi, Akira Ishii, Taiga Abe, and D. Higashi

Subjects
Coronavirus disease 2019 (COVID-19), Opinion dynamics, Distrust, Computer science, media_common.quotation_subject, Toilet paper, Rumor, Social psychology, media_common
Abstract

Using a new opinion dynamics using the polarity analysis of measured data of Twitter about "toilet paper" and "COVID-19", we analyzed the chain of fear that people feel for the rumor of lack of toilet paper and COVID-19 itself. We use opinion dynamics for the analysis of the fears, and we obtain the opinion distribution of the fear calculated using the opinion dynamics and the observed distribution. By comparing the two distribution, we found that the opinion distribution for the fear is consisted with the mixture of trust and distrust.

Published
2020

63. Performance Evaluation of Pulp and Paper Mills: Bootstrap Data Envelopment Analysis Approach

Author

Mohamed Dia and Shashi K. Shahi

Subjects
stomatognathic system, Capital (economics), Pulp (paper), technology, industry, and agriculture, Data envelopment analysis, engineering, food and beverages, Production (economics), Mill, Business, engineering.material, Investment (macroeconomics), Pulp and paper industry
Abstract

The pulp and paper industry converts roundwood and recycled fibre, collected from wastepaper into printing and writing papers. The pulp and paper mills in Ontario have been facing extreme competitive pressures, which have affected their performance leading to several mill closures. The purpose of this study is to evaluate and compare the relative performance of three types of Ontario's pulp and paper mills (using all fibre, only roundwood fibre, and only recycled fibre). This study uses bootstrap data envelopment analysis and the results indicate low levels of overall technical and managerial efficiencies. The results of this study provide policy makers with detailed performance analysis so that future input resources can be reallocated to improve the performance of the pulp and paper mills in Ontario. It is recommended that the pulp and paper mills using recycled fibre require huge capital investments to install de-inking technology to improve performance.

Published
2020

64. High-Performance Paper-Based Fluidic Cassette for Mass Spectrometry Analyzing Caffeine and Nicotine Metabolites

Author

Yi-Chieh Li, Che-Hsin Lin, and Ming-Hsu Cheng

Subjects
Electrospray, Materials science, Chromatography, Filter paper, 010401 analytical chemistry, 010402 general chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, Nicotine, Paper chromatography, chemistry.chemical_compound, chemistry, Ionization, medicine, Fluidics, Caffeine, medicine.drug
Abstract

This paper develops a high-performance paper-based fluidic cassette for mass spectrometry (MS) analyzing caffeine and nicotine metabolism in urine and hair samples. The device uses a novel two-dimensional paper chromatography to separate the species in the liquid sample and then analyze the metabolic species via the MS using a specially designed paper spray ionization (PSI) mechanism. The paper-based fluidic chip is produced in the laboratory filter paper with the IR laser for patterning the multifunctional paper for sample chromatography and multiple tip for PSI. To enhance the MS detection performance, an integrated sliding cassette with a pair of pinching electrodes is designed for retarding electrospray at the neighboring tooth and simultaneously focusing the main spray plumb for sample ionization. Numerical and experimental results show that the undesired neighboring electrospray plumbs are significantly retarded by the applying electric field at the pinch electrodes. Successfully detecting the caffeine species in the urine sample and the nicotine/cotinine species in the extracted solution of a heavy smoker's hair are demonstrated with the developed device. The developed paper fluidic cassette has shown its potential in the application of drug abuse prevention.

Published
2020

65. Survey Paper Key Generation Using Ant Colony Optimization Technique

Author

Inderpreet Kaur, Sukriti Srivastava, Prakhar Chandra, and Paridhi Baliyan

Subjects
Public-key cryptography, Key generation, Theoretical computer science, business.industry, Computer science, Ant colony optimization algorithms, Paper key, Hash function, Plaintext, Cryptography, business, Encryption
Abstract

Cryptography is the methodology in which the information is cast into a form that forestalls the abuse of it. In this advanced time of the wireless, it is imperative to guarantee the safe conveyance of the pertinent information which are otherwise exposed to disgusting goals. The procedure of transformation of plaintext to encode text is known as encryption and its converse is known as decryption. The three kinds of cryptography methods, viz., Asymmetric key, Symmetric-key, and Hash Functions. A huge segment of this contemporary method is the key; which is a specific component of extreme significance, as this is what is utilized while scrambling or descrambling the desired information. In this paper, we have compared the two techniques. Incipiently, Particle Swarm Optimization, a strategy of delivering keys to design a stream figure for text encryption. The tale methodology named Particle Swarm Optimization Key Generation Algorithm (PKGA) uses a character code table for encoding the keys. The essential ideal situation of this procedure is that it diminishes the quantity of keys to be fused and coursed. On the other hand is Ant Colony Optimization Techniques to produce keys for the encryption of the information. This entire philosophy depends on the conduct of the ants in their characteristic inquiry of food. The drawback of using Ant Colony Optimization is to downscale the number of keys to be utilized during encipherment when contrasted with different strategies of cryptography in presence. ACO would warrant the generation of such keys with utmost proficiency.

Published
2020

66. Steerable Pyramid for Texture Classification of Photographic Paper

Author

Nicholas Rogers, Damon Crockett, and Paul Messier

Subjects
business.industry, Computer science, Nearest neighbor search, Texture Descriptor, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, Texture (music), Data set, Salient, Artificial intelligence, Representation (mathematics), business, Curse of dimensionality, Photographic paper
Abstract

In this work, we describe the application of the ‘steerable pyramid’ (Portilla and Simoncelli, 2000), a high-dimensional texture descriptor, to the discrimination and classification of a large collection of photographic paper textures. This work is part of a broader effort to bring precise physical measurements to the characterization of photographic papers, and our intended audience includes photograph conservators, curators, and collectors. For our purposes, it is important both to enable fine-grained local comparisons of very similar textures and to identify salient groupings across the entire landscape of photographic papers. The steerable pyramid was developed with the explicit goal of synthesizing textures; as such, it is an overcomplete representation. Its high native dimensionality is an advantage for highly precise local comparisons of texture, as in nearest neighbor search; it is, however, a disadvantage for grouping tasks, which require a well-structured global topology. For grouping tasks, we describe a number of compression and grouping approaches designed to meet a variety of analytical needs. Finally, we validate the steerable pyramid descriptor numerically using ‘one versus all’ classification on an augmented data set that includes multiple samples per paper type.

Published
2020

67. Furan Analysis of Oil Impregnated Paper Aged by Chemical Stress

Author

Dusit Suksawat, Chiranuwat Raphephat, Norasage Pattanadech, Kanin Satirapattanakiat, Kittiphot Atthaphotpong, and Kriangsak Takboontam

Subjects
Materials science, Moisture, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, 021001 nanoscience & nanotechnology, Oxygen, Stress (mechanics), chemistry.chemical_compound, Acetic acid, Volume (thermodynamics), chemistry, Furan, medicine, 021108 energy, 0210 nano-technology, Mineral oil, Kraft paper, Nuclear chemistry, medicine.drug
Abstract

The objective of this paper is to study the deterioration of impregnated kraft papers immersed in dielectric liquids under the chemical stress conditions by furan analysis according to ASTM D5837 and IEC 61198. Mineral oil and natural ester (FR3) were liquid used in this study. Kraft paper samples, 3 pieces per each case study, are prepared in rectangle shape with 25.4 ± 0.5 millimeters (1.00 ± 0.02 inches) wide and approximately 254 millimeters (10.0 inches) long according to the ASTM D828 standard. The paper and liquid insulation are heated to dehydrate at 80 °C for 12 hours with 200 mbar pressure, and then they are filled in 200 milliliter bottles and heated with 5 different temperatures being 60 °C, 80 °C, 100 °C, 120 °C and 140 °C respectively. In the case of 120 °C and 140 °C are only conducted with FR3 due to its thermal characteristics. After that, 98% concentration of acetic acid of 2 quantities, 0.04 and 0.08 milliliters, and oxygen (O2) at 1 psi for 1,200 ml, are used for the chemical aging process for 9 days of the test samples before being tested to find furanic compounds. According to the test result, it can be concluded that all 4 factors, temperature, acetic volume, oxygen and moisture, effect on generated furanic compounds of aging paper insulation.

Published
2020

68. Electrical strength of the oil-paper insulation system at DC and AC voltage

Author

Iraida Kolcunová, Samuel Bucko, Dusan Medved, Bystrík Dolník, Marek Pavlik, and Jan Zbojovsky

Subjects
Materials science, Transformer oil, 020209 energy, 020208 electrical & electronic engineering, Electrical insulation paper, Mechanical engineering, 02 engineering and technology, law.invention, Reliability (semiconductor), law, Insulation system, Service life, 0202 electrical engineering, electronic engineering, information engineering, Breakdown voltage, Transformer, Voltage
Abstract

In power transformers in which is dominated the oil-paper insulation system, it is the effort to use innovative insulating materials to achieve greater quality, reliability and longer service life of the transformer. In this paper, we present the results of research into the insulating properties of an oil-paper insulation system in a DC and AC electric field. In the experiments MOL TO 40A transformer oil and two types of paper used in transformers, KREMPEL DPP and insulating paper used in BEZ transformers, were used. The results from the experiments show that KREMPEL insulating paper has a higher electrical strength and the electrical strength of both oil-impregnated insulating papers is greater when applying DC voltage.

Published
2020

69. Novel Sensor for Determining the Aging Condition of Insulation Paper in a Transformer

Author

T. Munster, Peter Werle, T. Kinkeldey, J. Preusel, and K. Hamel

Subjects
Variable (computer science), law, Transformer oil, Operational safety, Computer science, Mechanical stability, Electrical insulation paper, High voltage, Transformer, Condition assessment, Automotive engineering, law.invention
Abstract

The online monitoring is becoming increasingly important for operators of high voltage assets. One of the most important assets are transformers, especially power transformers, which are mainly insulated with paper together with an insulating liquid for impregnation. An important parameter is the aging condition of the insulating paper, which allows an estimation of the operational safety. This variable is determined by the degree of polymerization (DP-value) and provides information about the mechanical stability of the paper. However, paper samples are currently required for the measurement, which is carried out in a laboratory in accordance with IEC 60450, whereby the paper is destroyed. This study is conducted to determine the DP-value of a paper insulation using a novel, patented optical sensor. The investigation shows that oil-free paper samples have very strong linear correlation between the value measured with the sensor and the DP-value. Therefore, a condition assessment is possible within seconds, as the measurement by means of the optical method is significantly faster and more precise than the conventional viscometric method. It also shows that the assessment is independent of the insulating oil, in which the paper is aged. The sensor could be used for an improved condition assessment of transformers to increase the operational safety.

Published
2020

70. Comparison of Aging Markers of Insulating Liquids during Aging with and without Paper Insulation

Author

T. Kinkeldey, Peter Werle, K. Hamel, T. Munster, and J. Preusel

Subjects
010302 applied physics, Materials science, Transformer oil, 020208 electrical & electronic engineering, Electrical insulation paper, High voltage, 02 engineering and technology, 01 natural sciences, Condition assessment, law.invention, law, Electrical power grid, 0103 physical sciences, Service life, 0202 electrical engineering, electronic engineering, information engineering, Composite material, Transformer
Abstract

The assessment of the aging condition is becoming increasingly important for operators of high voltage assets. Power transformers are especially one of the most important units in the electrical power grid. Due to the fact that oil-paper insulation is still the most economical form of insulation, and is therefore found in the majority of transformers, the condition assessment of the paper insulation is decisive for estimating the remaining service life. Since the determination of the condition via furans is associated with certain fluctuations, several other aging parameters are investigated. Therefore, this study intends to determine how those aging markers of the insulating liquid behave in the absence of insulating paper and how the values change with insulating paper; thus, from the difference between important parameters, indicating the paper aging might be possible. For the investigation, a non-inhibited and an inhibited insulating oil as well as a further inhibited oil with a different composition, are tested as the most common insulating liquids. For this purpose, an open system is reproduced, which has permanent contact with the environment air. Accordingly, the study is carried out for long-term thermal stress to obtain samples with a wide spectrum of aging status. The entire study extended over a period of 14–15 weeks at a temperature of 130 °C with performing the measurements of the parameters at various aging times. The study reveals that the results can be used for an improved condition assessment of transformers.

Published
2020

71. A Comparative Study on the Difference of Paper-cut between Northern Shaanxi and Mexico

Author

Tiantian Liu and Peng Lu

Subjects
Sustainable development, media_common.quotation_subject, Paper cut, medicine.disease, Worship, The arts, Geography, medicine, Ethnology, Hardware design languages, Inheritance, media_common, Connotation, Theme (narrative)
Abstract

With the deepening of cultural and artistic exchanges in various countries, many local arts actively or passively absorb the nutrients of foreign art, but the folk paper-cut art of northern Shaanxi and Mexico completely preserve the regional cultural characteristics of the nation. This paper studies the difference and connection between northern Shaanxi paper-cut and Mexican paper-cut by means of semantic analysis and contrastive demonstration. This paper analyzes the theme expression and art types of paper-cut and Mexican paper-cut in northern shaanxi, and collates the rich connotation culture contained in paper-cut patterns and the paper-cut culture of the sustainable development of northern shaanxi and Mexico bearing the message of ancient tu Teng worship, showing a unique artistic connotation. The precipitation of experienced also reflects the application and inheritance in today’s society.

Published
2020

72. A Comparative Study of Traditional Folk Paper-cut Art Design and Modern Graphic Design Based on Plane Composition

Author

Xiaoyan Liu

Subjects
Structure (mathematical logic), Engineering, business.industry, media_common.quotation_subject, Paper cut, Enlightenment, Graphic design, Atmosphere (architecture and spatial design), medicine.disease, Visual arts, Cultural diversity, medicine, Graphics, business, Composition (language), media_common
Abstract

Chinese folk paper-cutting has a long history of development, and it is a major folk art form created by the working people of all ages in our country in order to meet the needs of material and spiritual life, and Return lived in it. It has become a design art rooted in the folk, and it is entrusted with the beautiful expectation of the broad working group from life. Plane composition is a very important part of modern design foundation. Points, lines and surfaces are not only the basic elements of plane composition, but also create a colorful environment atmosphere through the artistic treatment of points, lines and surfaces in different indoor environment designs. Many artistic inspirations of modern design come from folk paper-cutting, and we get creative inspiration and enlightenment from the structure and composition of paper-cutting. By studying the comparison between folk paper-cut art and modern graphic design, this paper tries to provide an innovative way for modern graphic design.

Published
2020

73. Flexible Patch Antennas on Filter Paper Substrate for Biosensing Applications

Author

Angie R. Eldamak and Elise C. Fear

Subjects
Patch antenna, Materials science, Filter paper, business.industry, 020206 networking & telecommunications, 02 engineering and technology, Dielectric, Substrate (printing), Copper tape, 021001 nanoscience & nanotechnology, Microstrip antenna, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Antenna (radio), 0210 nano-technology, business, Ground plane
Abstract

This paper presents a novel, low cost flexible paper substrate suitable for biosensing applications. A microstrip patch antenna consisting of copper tape foil and a cellulose filter paper as a substrate with thickness of 180 μm is fabricated and tested. The substrate has measured dielectric constant (e r ) of 1.9 and losses (tan δ ) of 0.025. For 3.8 GHz resonance, the antenna has size of 29.5 mm x 38 mm on a ground plane of 50 mm x 60 mm. Measurements of the final design are in excellent agreement with simulations. Moreover, measurements of the patch antenna on the proposed substrate (cellulose filter paper) collected at different bending radii and folding angles demonstrate performance consistency.

Published
2020

74. Prediction of Aging Degree of Oil-paper Insulation Based on Raman Spectroscopy and Fuzzy Neural Network

Author

Ruyue Zhang, Ruimin Song, Dingkun Yang, Zewei Wang, Weigen Chen, and Zhou Yongkuo

Subjects
010302 applied physics, chemistry.chemical_classification, 0303 health sciences, Materials science, Transformer oil, Electrical insulation paper, Polymer, Degree of polymerization, 01 natural sciences, Degree (temperature), 03 medical and health sciences, symbols.namesake, chemistry, 0103 physical sciences, symbols, Composite material, Raman spectroscopy, Raman scattering, Membership function, 030304 developmental biology
Abstract

In this paper, a method based on Raman spectroscopy to diagnose the aging degree of oil-paper insulation is discussed. According to IEEE guidelines, oil-paper insulation samples were prepared in the laboratory, and the degree of polymerization values of the samples were measured to obtain the exact aging states. Raman detections of the samples were carried out based on the Raman experimental platform. T-S fuzzy neural network was used to analyze the Raman spectrum data of insulating oil. By using the experimental data to train the diagnosis model, constantly modifying the membership function, and mining the internal mathematical relationship between the Raman spectrum characteristics of oil paper insulation and the degree of polymerization of insulating paper, this paper managed to use the Raman spectrum data of insulating oil to predict the aging degree of oil paper insulation. Finally, the deviations between the predicted and the measured degree of polymerization values of the five test samples in this experiment are both less than 150.

Published
2020

75. Effect of Temperature on Methanol Equilibrium in Oil-paper Insulation System of Power Transformers

Author

Chaohai Zhang, Chuansheng Zhang, Kuikui Shi, Enze Zhang, Yiyi Zhang, and Hanbo Zheng

Subjects
010407 polymers, Materials science, 02 engineering and technology, Atmospheric temperature range, Standard solution, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Boiling point, Adsorption, Chemical engineering, chemistry, Insulation system, Degradation (geology), Methanol, 0210 nano-technology, Kraft paper
Abstract

Methanol in oil can be used to evaluate the aging status of oil-paper insulation system of power transformers. Many scholars have shown that the production of methanol in oil is closely related to the degradation of paper. However, the methanol distributed in oil is affected by the oil-paper adsorption equilibrium. In this paper, the equilibrium distribution of methanol between oil and paper at different temperatures were investigated. The equilibrium experiments were conducted by soaking methanol-oil standard solution with ordinary Kraft paper at 20°C, 45°C and 60°C respectively. The results showed that temperature obviously affects the adsorption capacity of oil and paper for methanol: with the increase of temperature, the equilibrium time of methanol between oil and paper is accelerated. Within a certain temperature range, the adsorption capacity of paper for methanol will decrease with the increase of temperature. However, when the temperature was near the boiling point of methanol, the content of methanol in oil declined, which might be related to the existence of gaseous methanol at high temperature. At this time, the equilibrium distribution model of methanol changed from the two-phase model of oil-paper system to the three-phase model of oil-paper-gas system.

Published
2020

76. Analysis of Phase Resolved Partial Discharge Patterns of Kraft Paper Insulation Impregnated in Transformer Mineral oil

Author

K M Mahesh Kumar, L Sanjeev Kumar, and B. Ramachandra

Subjects
Pigtail, Materials science, Bubble, Liquid dielectric, High voltage, law.invention, law, Partial discharge, medicine, Composite material, Transformer, Mineral oil, Kraft paper, medicine.drug
Abstract

Partial Discharge (PD) is referred as a small discharge that partially bridges the insulation over a s mall portion of its space. PD occurs laecause of small de fects in insulation such as voi din solid and bubble in liquid Insulation. The power transformer uses both solid and liquid insulation in terms of Kraft paper for winding and oil for cooling vhich protects transformer for long life operation. The partial discharge defects in insulation need to be identified early in order to estimate and extend the life of transformer. In this paper partial discharge patterns of pigtail specimen (a model of transformer winding) is impregnated in liquid insulation (mineral oil) is discussedL The detection of PD in dielectric liquid required PD measuring system and Instrument with low background noise. A unique measuring setup was designed and calibrated as per IEC Standard. The high voltage stress is applied on the pigtail specimen continuously until specimen failure; simultaneously PD data are recorded with a ten second delay from one acquisition to another. The pulses appear like burst in liquid insulation are comprised of discrete variable high frequency pulses. These pulse burst occurrence is compared with the phase of the input wave and the acquired data is further investigated to study its behaviors.

Published
2020

77. Data-driven soft sensor for continuous production monitoring: an application to paper strength

Author

Tomas Ondruch and Davide Raffaele

Subjects
0209 industrial biotechnology, business.product_category, Computer science, Process (computing), Control engineering, Feature selection, 02 engineering and technology, Soft sensor, Continuous production, Data-driven, Set (abstract data type), 020901 industrial engineering & automation, Paper machine, 020401 chemical engineering, Ultimate tensile strength, 0204 chemical engineering, business
Abstract

This paper presents a set of modeling procedures which are substantial for developing a data-driven soft sensor for paper strength parameters in production environment. Special focus is put on describing methods for efficient data aggregation, data cleaning and feature selection, which were employed to appropriately model the inherently complex process of papermaking and handle the challenging nature of collected data. The resulting soft sensor for tensile index deployed at a paper machine shows solid performance. Moreover, good quality of calculated real-time predictions is also confirmed by means of experiment-based validation.

Published
2020

78. Cellulose paper and Pencil based Smart Switch

Author

M P Gowtham, Madhu Kiran, Shridhar Mundinamani, and B M Gopinatha

Subjects
Imagination, Resistive touchscreen, Materials science, Fabrication, Filter paper, business.industry, media_common.quotation_subject, Smart switch, Pencil (optics), Optoelectronics, Graphite, business, Graphite electrode, media_common
Abstract

The fabrication and characterization of a paper and pencil based resistive touch sensor is carried out in the present work. The sensor detects the effective change in the resistance, when the finger is placed on it. An ash less, low cost, easy to access, bio-degradable, flexible, light weight, easy to fabricate and ultra-thin sensor is developed by drawing interdigitated graphite electrodes on the Whatman filter paper of grade 42. Change in the resistance is due to the path created for flow of electrons, when the finger is placed. Current versus time and $\Delta$ R/Ro versus time characterization of fabricated device is done using Keithley 2450 source meter. Response of the device has made noticeable changes for the finger contact. The measured resistance of the non-touch and touch is found to be 80.154 M $\Omega$ and 4.748 M $\Omega$ respectively. This huge change in resistance is sufficient to detect the touch. The performance and sensitivity of the proposed sensor are evaluated using the test circuit and smart switch is developed on paper substrate.

Published
2020

79. Silicone Mold Implementation for High-Sensitive Detection of Strain Sensing using Paper-Based Piezoresistive System

Author

Batin Muslu, O. Gokalp Akcan, Dogukan Korkut, Y. Daghan Gokdel, Kuter Erdil, and Eray A. Baran

Subjects
Fabrication, Materials science, Bending (metalworking), Mechanical engineering, Paper based, medicine.disease_cause, High sensitive, Piezoresistive effect, chemistry.chemical_compound, Silicone, chemistry, Mold, medicine, Graphite, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

This paper presents the design, fabrication, experimental results and related discussion of a portable bending enhancing silicone mold structure for biomedical applications in which a high-sensitive but low-cost force measurement structure with a large-dynamic range is required. Proposed system is composed of a replaceable parts like graphite coated Strathmore® 400 series Bristol paper and cheap RTV-2 silicone molds. The results shows that low-cost, portable and high-sensitive force and strain sensor systems can be realized for point-of-care biomedical applications in the future.

Published
2020

80. Facile and Cost Effective Paper Based Triboelectric Nanogenerators for Self Powered Environmental Sensing System

Author

Memoon Sajid, Muhammad Umaid Bukhari, Muhammad Zubair, Muhammad Qasim Mehmood, and Kashif Riaz

Subjects
Fabrication, Materials science, Open-circuit voltage, business.industry, Electrical engineering, Paper based, law.invention, Capacitor, law, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, Environmental sensing, Electronics, business, Short circuit, Triboelectric effect
Abstract

Triboelectric nanogenerators (TENGs) have been introduced as a rational and effective way of powering the low consuming electronic devices and sensors. Mostly these nanogenerators are manufactured using costly materials and complex fabrication processes that restrict their usage especially in developing countries. In this paper, we have presented an inexpensive and facile TENG for powering the environmental sensor. Readily available and cost-effective materials were used for manufacturing TENG like paper, thread sealant PTFE tape, and pencil. The manufactured paper based TENG produced short circuit current and open circuit voltage of $110\ \mu \mathrm{A}$ and 234 V respectively. The maximum power density of $96.22\ \mu \mathrm{W} /$ cm2 was achieved at 5 M $\Omega$. The rectified signal from TENG was used to charge a capacitor array of $300\ \mu \mathrm{F}$ which was successively used to power the environmental sensor. Temperature and humidity can be measured by powering the environmental sensor with the help of the proposed TENG. This facile and cost-effective TENG can be easily manufactured and deployed in resource limited environment for self-powered sensing systems.

Published
2020

81. A Modified 2nd Order Kinetic Model by Including Temperature Effect and LODP of Oil-impregnated Paper under thermal degradation

Author

Lijun Yang, Sheikh Jamshed Ali, Chen Han, Nouman Faiz, Umer Farooq, Muhammad Shoaib Bhutta, and Muhammad Arshad Shehzad Hassan

Subjects
Work (thermodynamics), Materials science, Transformer oil, 020209 energy, 02 engineering and technology, Degree of polymerization, 021001 nanoscience & nanotechnology, Temperature measurement, Vegetable oil, Thermal, 0202 electrical engineering, electronic engineering, information engineering, medicine, Composite material, 0210 nano-technology, Mineral oil, Kraft paper, medicine.drug
Abstract

The degree of polymerization is a useful technique to monitor insulation capabilities of oil impregnated paper. In present work, accelerated thermal ageing experiments have been conducted by taking Kraft and thermal upgraded papers along with two types of dielectric oil (mineral oil and vegetable oil) at different temperatures $(90^{\circ}C, 110^{\circ}C$ and $130^{\circ}C)$. An improved 2nd order kinetic model has been developed based on experimental results which utilized to develop a relationship between temperature and final degree of polymerization. The proposed model can be used to analyze and monitor thermal deterioration of oil paper insulation at any temperature. Moreover, the proposed novel mathematical modelling can be employed to predict premature failure as well as end of life criteria of power transformers.

Published
2020

82. Monitored Migration of Additives from Thermally Upgraded Paper into Various Insulation Liquids

Author

Maximilian Meissner, Martin Mittelbach, Martin Darmann, Sigurd Schober, and Eleonora Matic

Subjects
010302 applied physics, Pressboard, Materials science, Continuous sampling, chemistry.chemical_element, 01 natural sciences, Temperature measurement, Nitrogen, Copper, chemistry, 0103 physical sciences, medicine, Thermal stability, Composite material, Mineral oil, Kraft paper, medicine.drug
Abstract

To determine the long-term persistence of stabilizing additives in thermally upgraded Kraft paper insulation material under operation conditions, the nitrogen migration from the solid material into the encircling insulation material was monitored as part of a large-scale ageing study. Therefore, thermally upgraded as well as normal Kraft paper, combined with pressboard, copper and sheet metal in representative amounts and ratios, was immersed in different types of insulation liquids (mineral oil, G-t-L oil, synthetic as well as natural ester). A continuous 56-day ageing experiment under oxygen-free conditions at elevated temperatures (130 and 150°C) was conducted, with a continuous sampling interval of 2 weeks. The nitrogen concentration of the embedding insulation liquids stayed constant for every insulation liquid aged with natural Kraft paper material, whereas a clear increase of nitrogen levels could be observed over time as soon as thermally upgraded Kraft paper was immersed into the insulation liquids. For prolonged ageing periods at 150°C the measured nitrogen levels in the insulation liquid could rise by as much as 120 ppm, corresponding to nearly 0.3% of dry insulation paper mass, indicating a significant loss of nitrogen-rich stabilizing agents into the corresponding insulation liquid just within weeks of ageing.

Published
2020

83. AC Breakdown and Trap Distribution Characteristics of Polypropylene Laminated Paper after Electrical Ageing

Author

Z.X. Liu, Kai Yang, B. H. Ouyang, Shihang Wang, Jianying Li, and Zhimin Yan

Subjects
010302 applied physics, Polypropylene, Materials science, High-temperature superconductivity, Scanning electron microscope, Electrical insulation paper, Electron, Liquid nitrogen, 01 natural sciences, law.invention, chemistry.chemical_compound, chemistry, law, 0103 physical sciences, Charge carrier, Composite material, Fourier transform infrared spectroscopy, 010306 general physics
Abstract

The failures of polypropylene laminated paper (PPLP), the major insulation of high temperature superconducting (HTS) cables, are mainly rooted in the electrical ageing. In this paper, effects of electrical ageing on AC breakdown and trap distribution characteristics of PPLP are investigated. Electrical ageing under AC voltage of PPLP in liquid nitrogen is carried out. The breakdown performance and trap distribution of PPLP are characterized by AC breakdown and isothermal surface potential decay (ISPD) measurements. In addition, the aged samples are further analyzed by Fourier transform infrared (FTIR) spectroscopy and scanning electron microscope (SEM). Results demonstrate that the breakdown strength of PPLP decreases from 113.32 kV/mm to 92.36 kV/mm after ageing for 60 min under 30 kV. The energy level and trap density of deep trap calculated by ISPD results both decrease with ageing. FTIR and SEM indicate that the partial cellulose of insulating paper on the out-layer of PPLP is broken under the impact of high-energy electrons. As a result, the free volume of insulating paper is expanded, and the binding ability of cellulose molecular chains to charge carriers is weakened, which leads to the decrease of energy level and trap density of deep trap and further promotes the charge transportation. Therefore, a decreased breakdown strength of PPLP can be observed after electrical ageing. In conclusion, it is proposed that the destruction of molecular chain structure in the aged PPLP can lead the change of trap distribution, further resulting in the decline of breakdown strength.

Published
2020

84. New Composite Paper: Determination of Degree of Polymerization (DP) and End-of-Life Criteria

Author

R. P. Marek, H. M. Wilhelm, M. Ziliotto, C. Steffens, Kethlyn G. Moscon, S. M. Peres, and Paulo O. Fernandes

Subjects
chemistry.chemical_classification, Materials science, business.industry, Composite number, Test method, Polymer, Degree of polymerization, chemistry.chemical_compound, chemistry, Thermal insulation, Ultimate tensile strength, Cellulose, Composite material, business, Kraft paper
Abstract

This paper presents the development of a “modified Degree of Polymerization test method” based on IEC 60450 for the DuPont™ Nomex® 910, engineered cellulose composite paper. In order to check how retained tensile strength corresponds to the DP value of 200 for the composite 910 paper, accelerated ageing tests of 910 and TUK were performed and DP vs tensile curves were obtained. Although the thermal insulation system test procedures allow the choice of either DP or percent tensile strength retention as the end-life criteria for cellulose-based papers, our data indicates that the traditional kraft DP of 200 is not a good indication for the composite 910 paper end-of-life criteria.

Published
2020

85. Dielectric and Mechanical Assessment of Kraft and Diamond Dotted Paper Aged with Commercial Vegetable Oil

Author

Jorda Franquet, Inmaculada Fernández, Alfredo Ortiz, and Universidad de Cantabria

Subjects
010302 applied physics, Materials science, Transformer oil, Diamond, 02 engineering and technology, Dielectric, engineering.material, 021001 nanoscience & nanotechnology, 01 natural sciences, 7. Clean energy, law.invention, Vegetable oil, law, 0103 physical sciences, engineering, Cellulose insulation, Electric power, Composite material, 0210 nano-technology, Transformer, Kraft paper
Abstract

The use of vegetable oil (natural ester) in electrical devices like power transformers is increasing due to their high biodegradability and better safety. The lifespan of power trans- formers is mainly defined by cellulose insulation condition, which usually works together with dielectric oil as electrical insulation and also as mechanical winding protector and compactor. That is why the aim and results of this research shows us not only the dielectric parameters evolution, but also the relationship between the mechanical factors and the moisture content of thermal accelerated ageing processes, with commercial vegetable oil, of Kraft paper and Diamond Dotted Paper (DDP). These are two of the most common insulating materials in electric power transformers. In addition, the new tests have been done by a different method of paper ageing analysis. This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement Nº 823969 - BIOTRAFO.

Published
2020

86. Novel investigations on ageing behaviour of thermally upgraded papers for power transformers

Author

Barnet Axelle, Brun Huguette, Ramousse Agnes, Marlin Nathalie, Boiron Lucie, and Mortha Gerard

Subjects
010302 applied physics, 010407 polymers, Aqueous solution, Materials science, Cellulose degradation, Kinetic model, Thermodynamics, Degree of polymerization, 01 natural sciences, 0104 chemical sciences, Ageing, 0103 physical sciences, medicine, Mineral oil, Kraft paper, medicine.drug
Abstract

In this paper, two studies are presented whose main objective is to go further on the comprehension of thermally upgraded paper ageing. The first one is about the accelerated ageing of standard (STD) and thermally upgraded (TU) Kraft paper in mineral oil. After plotting the viscometric degree of polymerization (DPv) according to the kinetic model proposed by Calvini in 2005 [1], the model is validated for STD paper but not for T U paper. A modification of this model for T U paper is suggested to improve the correlation with experimental data. In the second part, a study is presented on the investigation of the effect of a nitrogen-based additive (DICY) concentration on the paper ageing in oil. The DPv results confirm the protective effect of the DICY on the cellulose chains and show that this effect depends on the nitrogen content, but not linearly. The pH of aqueous extracts and surface FTIR analysis brought new support for a hypothesis regarding the functioning mechanisms of the DICY that are reported in the literature.

Published
2020

87. Assessing the condition of Nomex paper-based Insulation in Open Wound and VPI type Dry-type Transformer using Frequency Domain Spectroscopy Data

Author

Arijit Baral, Sivaji Chakravorti, and Satyasis Mishra

Subjects
Materials science, Power rating, Open wounds, law, Frequency domain spectroscopy, Thermal aging, Nomex, Paper based, Composite material, Distribution transformer, Transformer, law.invention
Abstract

Dry-type transformers are becoming increasingly popular in urban areas due to its non-flammable properties. Being air-cooled, such units require less installation space compared to their counterpart Oil Impregnated Paper (OIP) having the same power rating. Open Wound types of dry-type transformer insulation like Dip-Bake type or Vacuum Pressure Impregnation (VPI) are popular and are being used extensively for constructing distribution transformers. Nomex paper is usually considered as the main insulation for such dry-type transformer insulation. The present paper describes the effect of thermal aging of Dip -Bake type and VPI type dry-type transformer insulation samples constructed in the laboratory. At the end of thermal aging, Frequency Domain Spectroscopy (FDS) data for both the dry type construction is recorded and compared.

Published
2020

88. Electronic receipts using near-field communication protocol as a solution for thermal paper receipts

Author

Ovidiu Constantin Novac, Mihai-Catalin Arva, and Nicu Bizon

Subjects
Receipt, business.industry, Computer science, media_common.quotation_subject, 010401 analytical chemistry, Thermal paper, 010501 environmental sciences, Payment, 01 natural sciences, 0104 chemical sciences, Near field communication, Human health, Component (UML), ComputingMilieux_COMPUTERSANDSOCIETY, business, Protocol (object-oriented programming), 0105 earth and related environmental sciences, Computer network, media_common
Abstract

This paper presents the main disadvantages of receipts printed on thermal paper, underlining the impact that BPA (component of thermal paper) has on the environment and human health. The conceptual solution proposes to use the near-field communication (NFC) protocol available in smartphones, integrating a virtual receipt printing device (called e-receipt) at the end of the contactless payment chain.

Published
2020

89. The Automated Technology for Converting Drawing and Design Paper-Based Documentation into Electronic 3D Model of an Object

Author

Sergey Rotkov, Sergey Romensky, Vladimir Gromov, and Dmitry Vasin

Subjects
Engineering drawing, Transformation (function), Documentation, Computer science, business.industry, Frame (networking), Representation (systemics), Information technology, 3d model, Paper based, business, Object (computer science)
Abstract

We propose the original automated information technology for transformation of paper archives of drawing and design documentation into electronic 3D model of an object for CALS and BIM ideologies of designing and manufacturing of an object. The technology assumes the full automated cycle of processing of projective kinds from initial paper drawings to electronic frame 3D model of an object. Original models of representation and algorithms of solving the given problem are proposed.

Published
2020

90. Aging Life Assessment of Oil-paper Insulation of Traction Transformer Under Shock Load

Author

Peng Zhang, Zhixin Li, and Buchao Jia

Subjects
Materials science, Kinetic model, business.industry, Electrical insulation paper, Structural engineering, Atmospheric temperature range, law.invention, Traction transformer, law, Life assessment, Transformer, business, Test data, Oil temperature
Abstract

Traction transformers have been withstood the effects of shock load, which would become more than 2~3 times rated load when the train passes, and it can result in the winding insulation under short-term high temperature frequently. And the average load far less than 50% result in relatively low oil temperature, the very uneven rise of temperature lead to the very uneven distribution of insulation aging. In order to evaluate the aging life of oil-paper insulation of traction transformer under shock load effectively, in this paper, Ekenstam aging kinetic model was optimized considering the effect of shock temperature, shock duration and shock interval on cellulose degradation rate of insulating paper. Firstly, the effects of shock temperature, shock duration and shock interval on the parameters of Ekenstam model are analyzed and determined by handing and testing experimental materials. Then, according to the test data, the Ekenstam optimization model considering shock temperature, shock duration and shock interval is obtained. Finally, the optimized model is verified by experiments. The results show that the optimization model can effectively evaluate the aging life of oil-paper insulation of traction transformer under shock load in the temperature range, which provides a basis and reference for the subsequent related research.

Published
2020

91. Maintenance with Augmented Reality Remote Support in Comparison to Paper-Based Instructions: Experiment and Analysis

Author

A. Lechner, F. Obermair, P. Zeilinger, U. Seiler, M. Richter, Josef Wolfartsberger, L. Pfaffeneder, and J. Althaler

Subjects
0209 industrial biotechnology, SIMPLE (military communications protocol), Computer science, Process (engineering), business.industry, 02 engineering and technology, Paper based, 020901 industrial engineering & automation, Component (UML), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Augmented reality, Software engineering, business
Abstract

Basic repair and maintenance tasks of industrial machines are usually performed by local service personnel at the location of the component to be maintained. Complex maintenance tasks require an expert who travels to the customer to solve a specific problem. This process is time and cost intensive. Augmented Reality (AR) Remote Assistance offers means to support newcomers on site by guiding personnel through the maintenance process with novel visualizations. This paper describes an Augmented Reality based remote assistance tool for industrial purposes. We present the technology and our implementation approach, as well as the challenges and limitations we have encountered. The potential of the tool was evaluated and analyzed in an industry oriented use case for repairing an industrial PC. The results were compared with a maintenance procedure that was carried out using standard paper repair instructions. Our approach enabled the users to perform complex tasks faster and with fewer errors. Overall, the error rate decreased significantly due to the AR-based remote support. We also found that paper-based instructions are still more efficient in solving simple tasks.

Published
2020

92. SwiftPad: Exploring WYSIWYG TEX Editing on Electronic Paper

Author

Elliott Wen and Gerald Weber

Subjects
010302 applied physics, Focus (computing), Computer science, 05 social sciences, Composition system, WYSIWYG, Cascading Style Sheets, 01 natural sciences, Readability, Refresh rate, law.invention, Human–computer interaction, law, 0103 physical sciences, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Identity (object-oriented programming), 0501 psychology and cognitive sciences, Electronic paper, computer, 050107 human factors, computer.programming_language
Abstract

Electronic paper (i.e., e-paper) is a display technology that aims to imitate and substitute the conventional paper. Previous studies of e-paper mainly focus on evaluating or making practical use of its readability. However, there is little research to explore the potential of e-paper on input-oriented applications. In this paper, we introduce a document composition system named SwiftPad for e-paper. Specifically, SwiftPad renovates the famous TEX typesetting system, enabling users to compose high typographic quality documents on e-paper in a WYSIWYG (what you see is what you get), offline-first, and collaborative fashion. Building such a system on resource-constrained e-paper with low screen refresh rate creates unique challenges. In this paper, we identity these challenges and provides workable solutions. We also provide a preliminary evaluation of the new system.

Published
2020

93. Robustness Analysis of decoupled PID controller for Paper Machine Headbox

Author

Parvesh Saini, Deepak Parashar, Rajesh Kumar, and Pradeep Kumar Juneja

Subjects
Paper machine, business.product_category, Control theory, Computer science, Robustness (computer science), PID controller, Particle swarm optimization, business, Actuator
Abstract

A Particle Swarm Optimisation (PSO) based PID controller has been proposed in this paper for a paper machine headbox. The considered headbox model has been perturbed and the proposed controller has been implemented on the perturbed model to assess the robustness of the system. The robustness of the proposed controller has been evaluated on the basis of sensitivity and complementary sensitivity functions. Sensitivity and complementary sensitivity functions provide significant insight into the system's behavior for disturbance, uncertainties, and noise (due to sensors/actuators). Hence, the controller to be designed for a given system should be concerned about these functions. Apart from these functions, worst-case sensitivity analysis has also been carried out for the perturbed headbox. The responses obtained from the proposed controller have been compared with some conventional PID tuning techniques and it is observed that the proposed controller yields better robustness.

Published
2020

94. Comparing online and paper-based testing for physics courses at HCT, UAE

Author

Roy D. Forrest, Khaldoun Tarawneh, and Zahid Shareef

Subjects
Technology system, ComputingMilieux_COMPUTERSANDEDUCATION, Online test, Mathematics education, Paper based, Blackboard (design pattern), Test (assessment)
Abstract

online testing was introduced for the Physics 1 course at the Higher Colleges of Technology; Fujairah Men's College in the Fall 2016 semester. The students wrote an online test 1 in Blackboard Learn and a paper-based test 2. The validity of the online testing was assessed by comparing the performance of students, relative to the other students in their section, for the paper-based and online tests. Analysis of the results did not show any measurable difference in relative student performance for the online test compared to the paper-based version. An online system-wide Physics 1 final exam for all the seventeen colleges in the Higher Colleges of Technology system was introduced in the Fall semester of 2018. The results for this final exam and those from the subsequent two semesters are shown and briefly discussed. These results indicate a general improvement in grades subsequent to the Fall 2018 semester. Current and future work is described.

Published
2020

95. Shape-printed nanozyme coated wet tissue paper based sensor for electrochemical sensing of 8-Hydroxy-2’ -deoxyguanosine

Author

Indu Pandey and Jai Deo Tiwari

Subjects
chemistry.chemical_classification, Materials science, Graphene, Biomolecule, 8-Hydroxy-2'-deoxyguanosine, Nanotechnology, Biocompatible material, Electrochemistry, law.invention, Tissue paper, chemistry, Linear range, law, Selective adsorption
Abstract

Flexible and biocompatible wearable sensors for the management of chronic diseases are in demand. The disposable, biocompatible, flexible and lightweight conductive paper-based sensing system was fabricated for 8-hydroxydeoxyguanosine. This biomolecule can biomark the early symptoms of various clinically important diseases such as cancer, diabetes, and atherosclerosis. Wet tissue paper modified with graphene nanoparticles was used for the analysis of 8-hydroxydeoxyguanosine in healthy human and patient biological samples. Here imprinted nanozymes were used as a receptor that promotes selective sensing of 8-hydroxydeoxyguanosine. Shape printed nanozyme contains hydroxyl and carboxyl groups which promote the penetration of 8-hydroxydeoxyguanosine and its selective adsorption. Graphene and nanozyme both catalyze the selective sensing of 8-hydroxydeoxyguanosine. When 8-OHdG was added the specific interaction of 8-OHdG and nanozyme was examined by current signals. The current signal was linear with 8-OHdG concentration. The fabricated shape printed nanozyme based sensor shows a biological justifiable sensitivity with linear range of 1.0-100.00 μg mL-1 with no matrix effects. The Shape printed nanozyme modified tissue paper could be used as a wearable patch for early monitoring of oxidative stress biomarker by cancer patients itself without any preprocessing plan.

Published
2020

96. Study of the Dynamics of Insulating Paper Electrical Breakdown

Author

Nataliya M. Zhuravleva, Denis A. Trubin, Dmitry Kiesewetter, and Alexandr S. Reznik

Subjects
Materials science, Electric breakdown, Electrical breakdown, Electrical insulation paper, Breakdown voltage, Mechanics, Total energy, Voltage
Abstract

The dynamics of electric breakdown of insulating paper with different technical characteristics is investigated. In addition to the value of the breakdown voltage the following parameters: the rate of change of the total energy released in the discharge gap during one half-cycle of industrial frequency voltage, changing the voltage of the occurrence of electrical discharges in each half-cycle in the process of the breakdown development, as well as the statistical characteristics of breakdown were measured. The voltampere characteristics of the discharge within one half-cycle at different stages of development of electric breakdown are presented. The difference between the dynamics of electric breakdown of dry insulating paper and paper-impregnated insulation is demonstrated. On the basis of the obtained data, an assumption about the possibility of determining some parameters of the structure of the insulating paper is annonced.

Published
2020

98. Temperature Effect on Electrical Aging Model for Field-Aged Oil Impregnated Paper Insulation

Author

Devayan Basu, Babak Gholizad, Rob Ross, and Shima Mousavi Gargari

Abstract

The time-to-failure for oil-impregnated paper (OIP) insulation is governed by two primary aging mechanisms: electrical and thermal. The electrical life can be represented as an Inverse Power Law, where lifetime is inversely proportional to applied electric field. The process of thermal aging on the other hand is established by Arrhenius Law, which relates the rate of aging exponentially to temperature. Due to thermal aging, the structure of insulation is altered owing to chemical changes like oxidation, polymerization, and cellulose degradation. For life estimation of a service-aged high-pressure gas filled (HPGF) cables, electrical endurance tests are normally performed at controlled voltage levels to estimate the time to breakdown. However, it is equally necessary to investigate how thermal aging influence changes in the electrical life of insulation. Therefore, in this paper, firstly short-term ramped stress tests are carried out on elevated thermal aged OIP samples extracted from already field-aged HPGF to find a rough estimate of breakdown voltages at different temperatures. Then, long-term electro-thermal step stress tests are performed on the samples to establish a correlation of temperature on the electrical life of the OIP insulation. The long-term stress tests produce reliable breakdown statistics and Maximum Likelihood Estimation of Inverse Power Law fitted on 2-parameter Weibull distributed breakdown data indicate a reduction of model parameter, n from 13.61 to 7.38 with an increase in temperature from 45 to 75 °C and a constant shape factor, beta of 1.50. The dissipation factor, tandelta related to the aging also shows an increase with temperature across a wide frequency range and is inversely proportional to the breakdown voltage.

Published
2022

99. Toward Inclusion and Accessibility in Visualization Research: Speculations on Challenges, Solution Strategies, and Calls for Action (Position Paper)

Author

Angerbauer, Katrin and Sedlmair, Michael

Subjects
FOS: Computer and information sciences, Computer Science - Human-Computer Interaction, Human-Computer Interaction (cs.HC)
Abstract

Inclusion and accessibility in visualization research have gained increasing attention in recent years. However, many challenges still remain to be solved on the road toward a more inclusive, shared-experience-driven visualization design and evaluation process. In this position paper, we discuss challenges and speculate about potential solutions, based on related work, our own research, as well as personal experiences. The goal of this paper is to start discussions on the role of accessibility and inclusion in visualization design and evaluation., Comment: 8 pages, IEEE VIS BELIV 2022 workshop, preprint

Published
2022

100. A Method to Predict Degree of Polymerization Value of Oil-paper Insulation Using Interfacial Charge

Author

D. Mishra, Arijit Baral, Sivaji Chakravorti, and Vijeta Singh

Subjects
chemistry.chemical_classification, Materials science, chemistry, Moisture, Paper sample, Degradation (geology), Charge (physics), Polymer, Composite material, Degree of polymerization, Polarization (electrochemistry), Value (mathematics)
Abstract

Analysis based on Degree of Polymerization (DP) value is assumed to provide reliable regarding insulation condition. However, due to the invasive nature of testing, DP value based-analysis is not feasible in practical cases as it requires a paper sample from the in-service unit. Here, an attempt is made to develop a methodology to predict DP value based on non-invasive testing of oil-paper insulation. In this paper, it is found that DP value maintains a well-known relation with interfacial charge (estimated using Polarization Depolarization Current data) as both these parameters are related to the cellulosic condition. The proposed method successfully applied on various laboratory prepared samples containing different moisture content.

Published
2019