Showing total 190,151 results

1. Modeling thermomechanical pulp and paper activated sludge treatment plants to gain insight to the causes of bulking.

Author

Brault JM, Comeau Y, Perrier M, and Stuart P

Subjects

Industrial Waste, Waste Disposal, Fluid instrumentation, Hot Temperature, Mechanics, Models, Theoretical, Paper, Sewage, Waste Disposal, Fluid methods

Abstract

The Activated Sludge Model No. 1 was chosen as the basis for model development and was modified to take into account the specific characteristics of pulp and paper effluents. The model was incorporated to the GPS-X simulation environment (Hydromantis, Hamilton, Ontario, Canada) to study operating deficiencies and nutrient transformations, particularly in relation to bulking. The results show that the process of ammonification is not significant at the studied mill and that the process of phosphatification (transformation of soluble organic phosphorus into orthophosphates) seems to be related to settling problems, as indicated by the sludge volume index. The phosphatification rate and the standard oxygen-transfer efficiency were found to decrease as the system entered a bulking state. Understanding the behavior of pulp and paper activated sludge can be improved by the incorporation of industry-specific processes and components to comprehensive models. These models then can be used to gain insight to the causes of bulking.

Published

2010

2. Microstructure and mechanical properties of free and restrained dried paper: a comprehensive investigation

Author

Urstöger, Georg, Kulachenko, Artem, Schennach, Robert, and Hirn, Ulrich

Published

2020

3. Constitutive Modelling of Knitted Abdominal Implants in Numerical Simulations of Repaired Hernia Mechanics

Author

Tomaszewska, Agnieszka, Reznikov, Daniil, Szymczak, Czesław, Lubowiecka, Izabela, Tavares, João Manuel R. S., Series Editor, Jorge, Renato Natal, Series Editor, Ateshian, Gerard A., editor, and Myers, Kristin M., editor

Published

2020

4. Rhino horns and paper cups: deceptive similarities between natural and human designs.

Author

Vogel S

Subjects

Animals, Biological Evolution, Biomechanical Phenomena, Humans, Equipment and Supplies, Mechanics, Technology

Abstract

One cannot assume that resemblances between the mechanical devices of human technology and those produced by the evolutionary process reflect either specific copying of nature by people or some particular point of functional superiority. A third alternative is that the two mechanical contexts derive quite different advantages from a given arrangement. While this latter might appear unlikely, one can argue that it underlies such things as the use of conical shapes, helical tensile structures, spheres and cylinders, beams and columns of relatively low torsional stiffness, and geodesic shells.

Published

2000

5. Comprehensive model of electromigrative transport in microfluidic paper based analytical devices

Author

Federico Schaumburg, Pablo A. Kler, and Claudio Luis Alberto Berli

Subjects

Electrophoresis, Paper, Materials science, Otras Ingenierías y Tecnologías, Differential equation, Capillary action, Clinical Biochemistry, Microfluidics, INGENIERÍAS Y TECNOLOGÍAS, 02 engineering and technology, ELECTROPHORESIS, 01 natural sciences, Biochemistry, Electromigration, Analytical Chemistry, Diffusion, ELECTROOSMOTIC FLOW, PAPER-BASED MICROFLUIDICS, Diffusion (business), 010401 analytical chemistry, Electric Conductivity, TRANSPORT PHENOMENA, Mechanics, Microfluidic Analytical Techniques, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Models, Chemical, MATHEMATICAL MODELING, Electric potential, 0210 nano-technology, Transport phenomena, Porous medium

Abstract

A complete mathematical model for electromigration in paper-based analytical devices is derived, based on differential equations describing the motion of fluids by pressure sources and EOF, the transport of charged chemical species, and the electric potential distribution. The porous medium created by the cellulose fibers is considered like a network of tortuous capillaries and represented by macroscopic parameters following an effective medium approach. The equations are obtained starting from their open-channel counterparts, applying scaling laws and, where necessary, including additional terms. With this approach, effective parameters are derived, describing diffusion, mobility, and conductivity for porous media. While the foundations of these phenomena can be found in previous reports, here, all the contributions are analyzed systematically and provided in a comprehensive way. Moreover, a novel electrophoretically driven dispersive transport mechanism in porous materials is proposed. Results of the numerical implementation of the mathematical model are compared with experimental data, showing good agreement and supporting the validity of the proposed model. Finally, the model succeeds in simulating a challenging case of free-flow electrophoresis in paper, involving capillary flow and electrophoretic transport developed in a 2D geometry. Fil: Schaumburg, Federico. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Desarrollo Tecnológico para la Industria Química. Universidad Nacional del Litoral. Instituto de Desarrollo Tecnológico para la Industria Química; Argentina Fil: Kler, Pablo Alejandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Centro de Investigaciones en Métodos Computacionales. Universidad Nacional del Litoral. Centro de Investigaciones en Métodos Computacionales; Argentina Fil: Berli, Claudio Luis Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Desarrollo Tecnológico para la Industria Química. Universidad Nacional del Litoral. Instituto de Desarrollo Tecnológico para la Industria Química; Argentina

Published

2020

6. A novel thermodynamic and heat and mass transfer model for the multicylinder dryer section of a paper machine

Author

Ali Anjomshoaa and Mazyar Salmanzadeh

Subjects

Materials science, business.product_category, General Chemical Engineering, Papermaking, Evaporation rate, 04 agricultural and veterinary sciences, 02 engineering and technology, Mechanics, 040401 food science, Water consumption, 0404 agricultural biotechnology, Paper machine, 020401 chemical engineering, Section (archaeology), Mass transfer, Heat transfer, 0204 chemical engineering, Physical and Theoretical Chemistry, business

Abstract

Modeling of the dryer section of a paper machine is of high importance in both designing and operation points of view. In this research, a novel thermodynamic and heat and mass transfer model has b...

Published

2021

7. Concurrent flame spread over vertically oriented paper sheet: The effect of sample thickness

Author

Xianli Zhu, Yong Jiang, and Ning Zhu

Subjects

Paper sheet, Materials science, Polymers and Plastics, Flame spread, Metals and Alloys, Ceramics and Composites, Direct numerical simulation, General Chemistry, Mechanics, Sample (graphics), Electronic, Optical and Magnetic Materials, Fire hazard

Published

2021

8. Liquid Wicking in a Paper Strip: An Experimental and Numerical Study

Author

Subhashis Patari and Pallab Sinha Mahapatra

Subjects

Work (thermodynamics), Filter paper, Capillary action, General Chemical Engineering, Microfluidics, Evaporation, General Chemistry, Mechanics, Article, Chemistry, Porous medium, Water content, Scaling, QD1-999

Abstract

In this decade, paper-based microfluidics has gained more interest in the research due to the vast applications in medical diagnosis, environmental monitoring, food safety analysis, etc. In this work, we presented a set of experiments to understand the physics of the capillary flow phenomenon through paper strips. Here, using the wicking phenomenon of the liquid in porous media, experimentally, we find out the capillary height of the liquid in filter paper at different time intervals. It was found that the Lucas-Washburn (L-W) model, as well as the evaporation model, fails to predict the capillary rise accurately. However, the detailed numerical solution shows a better similarity with the experimental results. We have also shown the different regimes of the wicking phenomenon using scaling analysis of the modified L-W model. The capillary rise method was applied to detect the added water content in milk. We used milk as a liquid food and found the added water content from the change in the capillary height at different concentrations of milk. Finally, results obtained from the paper-based device were verified with the commercially available lactometer data.

Published

2020

9. The Study of Paper Capillarity with a Simple Technique

Author

Septia Ardiani, Handika Dany Rahmayanti, and Nurul Akmalia

Subjects

Absorption of water, Materials science, Absorption time, Capillary action, Simple (abstract algebra), visual_art, visual_art.visual_art_medium, cardboard, Mechanics, Absorption (electromagnetic radiation), Tissue paper, Physical quantity

Abstract

The study of water absorption by capillarity on paper with a simple technique is simple but important to do to inform the public about the characteristics of paper and for the development of research on the absorption of different types of paper. In this study, five types of paper were used, namely HVS paper, cardboard, tissue paper, concord paper and buffalo paper. In the capillary water absorption test on paper, the physical quantities analyzed are the water absorption, the absorption time and the water absorption rate. The capillarity of the paper is a comparison of the rate of water absorption by the paper which is analyzed using the straight line movement approach. The value of water absorption is estimated using the ratio between the height of water absorption and the time absorption. Based on the results of the capillary test on paper, it was found that the water absorption height for the five types of paper increases with increasing absorption time. The highest water absorption capacity is tissue paper, which is 7.4 ± 0.2 cm every 180 seconds. While the lowest water absorption capillarity is HVS paper which is 0.5 ± 0.1 cm at the 180th second. Cardstock and buffalo paper have almost the same water absorption value and are higher than HVS paper and match. The absorption speed which is almost the same between cardboard and buffalo paper is due to the fact that both belong to the same type of paper, namely printing paper.

Published

2020

10. Modeling the effect of creep in paper fibres under the influence of external loading and changes in moisture

Author

P. Samantray, Marc G.D. Geers, Ron H. J. Peerlings, Thierry Massart, Mechanics of Materials, Group Peerlings, and EAISI Foundational

Subjects

Paper, Work (thermodynamics), Résistance et comportement des matériaux, Materials science, Moisture, Scale (ratio), Hygro-mechanics, Mechanics, Creep, Microstructure, Sciences de l'ingénieur, Power law, Technologie matières ligneuses, Mechanics of Materials, Fibrous network, Stress relaxation, Connaissance des matériaux, Relaxation (physics), Déformation, rupture matériaux, General Materials Science, Instrumentation

Abstract

Paper is a material exhibiting a complex microstructure that is composed of a network of fibres at the micro-level. When subjected to external loading or variations in moisture conditions over different time scales, changes in strain that are non-linear with respect to time are observed at the sheet level (macro-scale). In order to investigate this time-dependent behavior of paper, a creep power law model is implemented within a finite element approach at the level of single fibres. This rate-dependent model is found to capture experimental results available in literature for single fibres with a good agreement (both quantitatively and qualitatively). Based on the identified model at the level of single fibres, the time-dependent hygro-mechanical response is upscaled towards the network scale. To this end, random model networks of ribbon shaped fibres are generated and their response is simulated. The network-scale response, emerging from the rate-dependent fibre model, demonstrates the ability to predict the response of networks subjected to relaxation at a constant moisture level. The developed numerical model predicts lower values of overall stress response in single fibres as compared to networks. Also, stress relaxation predicted by the rate-dependent model in the cross-direction of the networks is in agreement with the experimental observations. Therefore, one of the remarkable findings of the present work is that the developed rate-dependent model is robust enough to capture the sheet scale response also qualitatively. Based on the study of these computational results, a better understanding is achieved regarding the influence of mechanical and rate-dependent properties of single fibres on the hygro-expansion of complete fibre networks, and in particular of paper sheets., info:eu-repo/semantics/published

Published

2021

11. Creped Tissue Paper: A Microarchitected Fibrous Network.

Author

Das, Ratul, Pan, Kui, Green, Sheldon, and Phani, A. Srikantha

Subjects

DEFORMATIONS (Mechanics), BIOMEDICAL materials, PAPER arts, CONSUMER goods, TISSUES, ELASTIC modulus

Abstract

Tissue paper is a thin complex nonlinear fibrous material made from fiber layers thinner (≈100 μm) than a human hair. Though it appears as a slender two‐dimensional material to our eyes, its internal microstructure reveals an intricate architected fibrous network of only 1–5 wood fibers within its thickness. The fiber network is folded in one direction giving rise to a characteristic crepe structure. Using high‐speed imaging, the crepe structure is shown to emerge from a dynamic, coupled mechanical deformation processes of fracture and buckling, occurring on a length scale of few hundred micrometer. Bending and stretching of the folds at the macroscale of the paper and at the microscale of the individual fibers are shown to govern the material's tensile properties, including the strain to rupture and the elastic modulus. Insights from this study can guide the development of strong, soft fibrous materials for biomedical and consumer products. [ABSTRACT FROM AUTHOR]

Published

2021

12. Numerical Simulation of Condensation Heat Transfer and Structural Optimization in Dryer of Paper Machine

Author

Mingliang Zheng

Subjects

Materials science, Paper machine, business.product_category, Computer simulation, Condensation heat transfer, Media Technology, General Materials Science, General Chemistry, Mechanics, business

Published

2020

13. Application of Cole–Cole model to transformer oil‐paper insulation considering distributed dielectric relaxation

Author

Sivaji Chakravorti, Biswendu Chatterjee, S. K. Ojha, and Prithwiraj Purkait

Subjects

transformer oil-paper insulation, dielectric testing techniques, Materials science, Transformer oil, power transformer insulation, lcsh:QC501-721, Energy Engineering and Power Technology, Dielectric, dielectric relaxation, frequency domain, Dielectric withstand test, cable insulating oil, law.invention, ionic liquids, oil-paper insulated transformers, law, elementary Debye relaxation properties, lcsh:Electricity, Cole–Cole diagram, Time domain, Electrical and Electronic Engineering, time domain dielectric response, Transformer, transformer oil, distributed dielectric relaxation, paper, dielectric mixtures, Mechanics, distribution density functions, many-body interaction process, Cole–Cole model, polar liquids, Nonlinear Sciences::Exactly Solvable and Integrable Systems, Frequency domain, dielectric materials, insulation condition assessment, Cole–Cole plots, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Cole–Cole equation, Test data

Abstract

Researchers have been exploring dielectric testing techniques both in time and frequency domain for insulation condition assessment of oil-paper insulated transformers. In a practical dielectric system, dipoles are found to behave according to a distribution of elementary Debye relaxation properties. Suitable distribution density functions have been proposed to characterise such many-body interaction processes. Cole–Cole diagrams can be one of the methods for studying the nature of frequency dependency of dielectric materials of complex structure. Cole–Cole plots are commonly used for characterising different materials such as dielectric mixtures, ionic liquids, cable insulating oil, polar liquids etc. The scope of its application for assessing transformer oil-paper insulation considering distributed relaxation process has not been explored yet. The present contribution discusses mathematical formulations used for transforming the experimentally obtained time domain dielectric response test data to distribution domain and further to frequency domain for obtaining the Cole–Cole plots. Findings about the influence of various operating conditions and insulation status on the Cole–Cole diagram have been reported in this contribution. Results of tests on field transformers are also presented. This paper attempts to employ the features of Cole–Cole diagrams as potential indicators for analysing condition of the oil-paper insulation considering distributed relaxation process.

Published

2019

14. Experimental study on the friction stability of paper-based clutches concerning groove patterns

Author

Jikai Liu, Man Chen, He Yan Li, Biao Ma, and Liang Yu

Subjects

Automatic transmission fluid, Variable coefficient, Materials science, Mechanical Engineering, 02 engineering and technology, Paper based, Mechanics, 021001 nanoscience & nanotechnology, Stability (probability), Surfaces, Coatings and Films, 020303 mechanical engineering & transports, General Energy, 0203 mechanical engineering, Clutch, Temperature difference, 0210 nano-technology, Friction torque, Groove (music)

Abstract

Purpose This paper aims to study and compare the friction stability of wet paper-based clutches with regard to the radial grooves (RG) and waffle grooves (WG). Design/methodology/approach This paper presents an experimental study of a wet clutch concerning the effect of groove patterns on the friction torque and surface temperature. The friction stabilities of RG and WG are investigated with the applied pressure, rotating speed and automatic transmission fluid (ATF) temperature taken into consideration. Findings The friction torque and surface temperature of WG are larger than those of RG under the same operating condition. The friction torque difference between RG and WG grows with the increase of applied pressure and narrows with the increase of ATF temperature. Additionally, their temperature difference expands via increasing the rotating speed and ATF temperature or reducing the applied pressure; in this way, not only the variable coefficient difference between RG and WG can be narrowed, but also the friction stability of the clutch can be improved dramatically. Originality/value This paper explains the thermodynamic differences between RG and WG; moreover, it is verified experimentally that WG has a better friction stability than RG.

Published

2019

15. Symbolic computation applied to industrial robots through SAGE

Author

Nájera, S., Elvira, C., García-Verde, L. F., Rico-Azagra, J., López-Paredes, Adolfo, Series editor, Ayuso Muñoz, José Luis, editor, Yagüe Blanco, José Luis, editor, and Capuz-Rizo, Salvador F., editor

Published

2015

16. IMPROVING THE QUALITY OF MONITORING OF CIRCULATING AND WASTE WATERS OF PULP AND PAPER PRODUCTION

Author

Михаил (Mikhail) Семенович (Semenovich) Лурье (Lur'e), Юрий (Iuriy) Давыдович (Davydovich) Алашкевич (Alashkevich), Александр (Aleksandr) Владимирович (Vladimirovich) Смородько (Smorod'ko), and Ольга (Ol'ga) Михайловна (Mikhaylovna) Лурье (Lur'e)

Subjects

погрешности монтажа, Materials science, installation errors, Plant Science, engineering.material, vortex flowmeters, Flow measurement, sewage and circulating water, Biomaterials, symbols.namesake, вихревые расходомеры, Deflection (engineering), численное моделирование, Measurement method, Pulp (paper), Organic Chemistry, flow body, Paper production, Mechanics, Frequency spectrum, Volumetric flow rate, сточные и оборотные воды, numerical simulation, тело обтекания, engineering, symbols, Strouhal number

Abstract

The issue of operation of submersible vortex flowmeters used in the systems of monitoring of circulating and waste waters of pulp and paper production is considered. It is shown that in the event of an error in the installation of these instruments, an additional error appears due to the angle between the axis of the flow body (TO) of the flowmeter and the axis of the pipeline. This error is related to the measurement method, which in turn leads to a change in the Strouhal number (Sh). The influence of this error leads to a change in the geometry of the flow part of the submerged flowmeter (the appearance of the angle β), which in turn leads to a change in the vortex formation process. Variants of finding this error are considered, from which the method of numerical modeling of hydrodynamic processes with subsequent processing by the method of experiment planning was chosen. For each investigated velocity of the fiber suspension and the angle of deflection of the TO axis, a graph of the frequency spectrum of the vortex formation process was obtained. Which was later used to find the number Sh. The dependence of the installation error ΔSh,% is presented. in the form of a response surface. It is revealed that the error in the installation of the TO, which is estimated by the angle β, is relatively small and varies linearly with increasing β. If the angle β = ± 3 ° is accepted as an allowable value, then the error in measuring the flow rate of the suspension will not exceed 0.25% over the entire range of velocities under consideration., Рассматривается вопрос особенностей эксплуатации погружных вихревых расходомеров, применяемых в системах мониторинга оборотных и сточных вод целлюлозно-бумажного производства. Показано, что при ошибке монтажа данных приборов может появляться дополнительная погрешность, появляющаяся вследствие угла между осью тело обтекания (ТО) расходомера и осью трубопровода. Данная погрешность связана с методом измерения, которая в свою очередь ведет к изменению числа Струхаля (Sh). Влияние данной погрешности приводит к изменению геометрии проточной части погружного расходомера (появление угла β), что способствует изменению процесса вихреобразования. Рассмотрены варианты нахождения данной погрешности из которых был выбран метод численного моделирования гидродинамических процессов с последующей обработкой методом планирования эксперимента. Для каждой исследуемой скорости волокнистой суспензии и угле отклонения оси ТО был получен график частотного спектра процесса вихреобразования на ТО, который впоследствии использовался для нахождения числа Sh. Представлена зависимость погрешности монтажа ΔSh,% в виде поверхности отклика. Выявлено, что погрешность монтажа ТО, которая оценивается углом β, является относительно небольшой иизменяется сувеличением β линейно. Если принять в качестве допустимой величины угла β=±3°, то погрешность измерения расхода суспензии не будет превосходить 0,25% во всем диапазоне рассматриваемых скоростей.

Published

2018

17. Crack growth and energy dissipation in paper

Author

Juha Koivisto, Tero Mäkinen, Mikko J. Alava, Markus Ovaska, Maryam Hanifpour, Complex Systems and Materials, Department of Applied Physics, Aalto-yliopisto, and Aalto University

Subjects

Digital image correlation, Multidisciplinary, Materials science, Nonlinear phenomena, lcsh:R, lcsh:Medicine, Hot spot (veterinary medicine), 02 engineering and technology, Mechanics, Dissipation, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, law.invention, law, Intermittency, 0103 physical sciences, Paper sample, lcsh:Q, Fracture process, 010306 general physics, 0210 nano-technology, lcsh:Science

Abstract

Here, we follow the stable propagation of a roughening crack using simultaneously Digital Image Correlation and Infra-Red imaging. In a quasi-two-dimensional paper sample, the crack tip and ahead of that the fracture process zone follow the slowly, diffusively moving “hot spot” ahead of the tip. This also holds when the crack starts to roughen during propagation. The well-established intermittency of the crack advancement and the roughening of the crack in paper are thus subject to the dissipation and decohesion in the hot spot zone. They are therefore not only a result of the depinning of the crack in a heterogeneous material.

Published

2018

18. Numerical calculation of transient electric field considering space charge in oil-paper insulation of converter transformers

Author

Hongwei Cai, Jingxuan He, Zhiye Du, Liancheng Xiu, Fan Yi, and Yu Tian

Subjects

Materials science, Computer simulation, Field (physics), Applied Mathematics, Mechanics, Space charge, Finite element method, Computer Science Applications, law.invention, Computational Theory and Mathematics, law, Electric field, Transient (oscillation), Electrical and Electronic Engineering, Transformer, Voltage

Abstract

Purpose The purpose of this paper is to develop a numerical simulation method based on the transient upstream finite element method (FEM) and Schottky emission theory to reveal the distribution characteristics of space charge in oil-paper insulation. Design/methodology/approach The main insulation medium of the converter transformer in high voltage direct current transmission is oil-paper insulation. However, the influence of space charge is difficult to be fully considered in the insulation design and simulation of converter transformers. To reveal the influence characteristics of the space charge, this paper proposes a numerical simulation method based on Schottky emission theory and the transient upstream FEM. This method considers the influence of factors, such as carrier mobility, carrier recombination coefficient, trap capture coefficient and diffusion coefficient on the basis of multi-physics field coupling calculation of the electric field and fluid field. Findings A numerical simulation method considering multiple charge states is proposed for the space charge problem in oil-paper insulation. Meanwhile, a space charge measurement platform based on the electrostatic capacitance probe method for oil-paper insulation structure is built, and the effectiveness and accuracy of the numerical simulation method is verified. Originality/value A variety of models are calculated and analyzed by the numerical simulation method in this paper, and the distribution characteristics of the space charge and total electric field in oil-paper insulation medium with single-layer, polarity reversal of plate voltage and double-layer are obtained. The research results of this paper have the guiding significance for the engineering application of oil-paper insulation and the optimal design of converter transformer insulation.

Published

2021

19. Effect of multi‐factors on heterocharges for oil‐impregnated paper in converter transformer using modified charge transport model

Author

Heng Zhang, Jiefeng Liu, Shen Yan, Xianhao Fan, Yiyi Zhang, and Mingchen Shi

Subjects

TK1001-1841, Materials science, Computer simulation, Distribution or transmission of electric power, Energy Engineering and Power Technology, Mechanics, TK3001-3521, Conductivity, Space charge, law.invention, Dynamic simulation, Temperature gradient, Production of electric energy or power. Powerplants. Central stations, Control and Systems Engineering, law, Insulation system, Electric field, Electrical and Electronic Engineering, Transformer

Abstract

The heterocharge accumulated in the oil‐paper insulation system of the converter transformer will enhance the local electric field and cause insulation deterioration. Numerical simulation is an effective method to analyze heterocharge. Currently, the numerical simulation of heterocharge is mainly based on the bipolar charge transport (BCT) model and the impurity ion transport (IIT) model. However, the effects of temperature, conductivity, and thickness of oil‐impregnated paper on charge transport have not been considered in these models. In view of this, a modified charge transport (MCT) model by introducing the Maxwell–Wagner model and heat conduction equation is proposed in this paper based on the BCT model and IIT model. Then, the influence of multi‐factors (temperature gradient, moisture content, and oil‐impregnated paper thickness) on heterocharge accumulation is investigated by using the MCT model. The simulation results obtained by the MCT model are more consistent with the experimental results than the BCT model, which proves the accuracy and superiority of the MCT model. Moreover, the increase in temperature gradient, moisture content, and oil‐impregnated paper thickness will enlarge the ion dissociation rate, conductivity, and trap density, and thus promote the generation of heterocharge. In that respect, the MCT model is expected to optimize the insulation design and provide a reference for space charge dynamic simulation.

Published

2021

20. BREAKDOWN VOLTAGE OF MICRON RANGE AIR INCLUSIONS IN CAPACITOR PAPER

Author

O. O. Palchykov

Subjects

Permittivity, Materials science, электрический пробой, модель конденсаторной бумаги, микронный промежуток, электростатическое поле, метод конечных элементов, finite element method, Electrical breakdown, electrostatic field, Mechanics, Finite element method, TK1-9971, law.invention, electrical breakdown, model of capacitor paper, micron gap, Capacitor, Volume (thermodynamics), law, 621.3.048.8, Electric field, Breakdown voltage, Electrical engineering. Electronics. Nuclear engineering, Intensity (heat transfer)

Abstract

Purpose. To substantiate the breakdown mechanism of capacitor paper on the basis of numerical-field models with segmented cross-sections of cylindrical volumes of air and water, and also use the proposed models to determine the breakdown strength of air in micron-sized gaps under normal conditions. Methodology. The model bases on a finite element solution to an electrostatic problem in a volume of capacitor paper consisting of cellulose and pores with air and water. First, the possible scenarios for the growth of breakdown in capacitor paper are analyzed and to the conclusion is made, that complete breakdown developed from a partial breakdown in the air cavity. A brand of capacitor paper is chosen in such a way that when its thickness changed, the breakdown strength of the electric field changed over a wide range. Then, for the paper with the lowest average electric field intensity the possibility of explaining the complete breakdown by the breakdown of air segments on the basis of the Paschen dependence is checked. Further points of the obtained dependence by constructing models of papers of the same brand and a different thickness under the assumption of the similarity of electrostatic fields are determined. As such a criterion, the constancy of the equivalent effective permittivity are taken. Results. The dependence of the breakdown strength of the air in the range of 1.36...5.54 μm under normal conditions is determined. The obtained relationship is between the Peschot and Taev curves. Originality. For the first time, the possibility of indirectly estimation the breakdown strength of an insulating material using an electrostatic field model is indicated. Practical value. The proposed method for the numerical calculation of the breakdown voltage of air inclusions in the presence of water inclusions in the thickness of solid insulation can be applied to other types of solid thin-layer insulation., Полученная в работе зависимость напряженности электрического поля воздуха от длины разрядного промежутка удовлетворительно объясняет значения пробивных напряжений образцов конденсаторной бумаги при изменении их марок и толщины. Построена зависимость пробивной напряженности воздуха при нормальных условиях в диапазоне 1,36…5,54 мкм на основании расчета электростатических полей в моделях конденсаторной бумаги с сегментными поперечными сечениями цилиндрических объемов воздуха и воды. Проведено сопоставление полученной зависимости с известными экспериментальными данными. Полученные данные в диапазоне 2…5,54 мкм наиболее близки экспериментальным данным Пешо.

Published

2020

21. Numerical and experimental studies on the characteristics of friction torque based on wet paper-based clutches

Author

Man Chen, Liang Yu, Jikai Liu, Liangjie Zheng, Biao Ma, and Heyan Li

Subjects

Materials science, Mechanical Engineering, 02 engineering and technology, Surfaces and Interfaces, Paper based, Mechanics, Growth model, 021001 nanoscience & nanotechnology, Stability (probability), Surfaces, Coatings and Films, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, Heat transfer, Torque, Clutch, 0210 nano-technology, Friction torque

Abstract

A coupled numerical multi-physics model is developed to study the generation and variation mechanisms of friction torque, including fluid lubricating, micro-contact, sliding and heat transfer among the friction components. The engagement experiment is conducted to verify the accuracy of numerical model and investigate the stability of friction torque. The results show that the most significant operating factor affecting the friction stability is the applied pressure, followed by the rotating speed and the ATF temperature. Simultaneously, the operating factors have great influence on the torque response, engagement time and temperature rise. Moreover, the growth model of friction torque can be divided into two categories: one is increasing linearly and the other is concave parabolic rising.

Published

2019

22. A flow chemiluminescence paper-based microfluidic device for detection of chromium (III) in water

Author

Huijie Li, Chunsun Zhang, Rui Liu, Peng Zhang, and Qiuping Shang

Subjects

Work (thermodynamics), Gravity (chemistry), Materials science, Capillary action, paper-based microfluidics, Microfluidics, Biomedical Engineering, Medicine (miscellaneous), chemistry.chemical_element, 02 engineering and technology, lcsh:Technology, 01 natural sciences, law.invention, Chromium, law, gravity flow, lcsh:QC350-467, Chemiluminescence, capillary flow, lcsh:T, 010401 analytical chemistry, detection of chromium (iii), Mechanics, Paper based, 021001 nanoscience & nanotechnology, chemiluminescence, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, chemistry, Flow (mathematics), 0210 nano-technology, wax screen-printing, lcsh:Optics. Light

Abstract

In this work, a solely gravity and capillary force-driven flow chemiluminescence (GCF-CL) paper-based microfluidic device has been proved for the first time as a new platform for inexpensive, usable, minimally-instrumented dynamic chemiluminescence (CL) detection of chromium (III) [Cr(III)], where an appropriate angle of inclination between the loading and detection zones on the paper produces a rapid flow of CL prompt solution through the paper channel. For this study, we use a cost-effective paper device that is manufactured by a simple wax screen-printing method, while the signal generated from the Cr(III)-catalyzed oxidation of luminol by H2O2 is recorded by a low-cost and luggable CCD camera. A series of GCF-CL affecting factors have been evaluated carefully. At optimal conditions, two linear relationships between GCF-CL intensities and the logarithms of Cr(III) concentrations are obtained in the concentration ranges of 0.025–35[Formula: see text]mg/L and 50–500[Formula: see text]mg/L separately, with the detection limit of 0.0245[Formula: see text]mg/L for a less than 30[Formula: see text]s assay, and relative standard deviations (RSDs) of 3.8%, 4.5% and 2.3% for 0.75, 5 and 50[Formula: see text]mg/L of Cr(III) ([Formula: see text]). The above results indicate that the GCF-CL paper-based microfluidic device possesses a receivable sensitivity, dynamic range, storage stability and reproducibility. Finally, the developed GCF-CL is utilized for Cr(III) detection in real water samples.

Published

2019

23. Vibration analysis of paper machine’s asymmetric tube roll supported by spherical roller bearings

Author

Behnam Ghalamchi, Aki Mikkola, Janne Heikkinen, Jussi Sopanen, Jari Juhanko, Petri Kuosmanen, Raine Viitala, LUT University, Department of Mechanical Engineering, Aalto-yliopisto, and Aalto University

Subjects

Timoshenko beam theory, Materials science, Spherical roller bearings, Spherical roller bearing, Aerospace Engineering, 02 engineering and technology, 01 natural sciences, law.invention, Physics::Fluid Dynamics, Paper machine bearing defect, 0203 mechanical engineering, law, 0103 physical sciences, 010301 acoustics, Asymmetric rotor, Civil and Structural Engineering, Bearing (mechanical), ta214, Waviness, Rotor (electric), Mechanical Engineering, Mechanics, Computer Science Applications, Vibration, Bearing waviness, 020303 mechanical engineering & transports, Control and Systems Engineering, Rolling-element bearing, Signal Processing, Subcritical vibrations, Paper machine roll, Beam (structure)

Abstract

This paper presents a simulation method that is used to study subcritical vibrations of a tube roll in a paper machine. This study employs asymmetric 3D beam elements based on the Timoshenko beam theory. An asymmetric beam model accounts for varying stiffness and mass distributions. Additionally, a detailed rolling element bearing model defines the excitations arising from the set of spherical roller bearings at both ends of the rotor. The results obtained from the simulation model are compared against the results from the measurements. The results indicate that the waviness of the bearing rolling surfaces contributes significantly to the subcritical vibrations while the asymmetric properties of the tube roll have only a fractional effect on the studied vibrations.

Published

2018

24. Aging of oil-impregnated paper at different frequencies

Author

Weichuan Zhao and Mohamad Ghaffarian Niasar

Subjects

Work (thermodynamics), Materials science, Computer Science::Neural and Evolutionary Computation, aging, Oil-impregnated paper, Mechanics, Time–frequency analysis, breakdown voltage, high frequency electric stress, Breakdown strength, lifetime curve, Waveform, Breakdown voltage, Peak value, Voltage, Weibull distribution

Abstract

In this work, breakdown strength and lifetime curve of oil-impregnated paper (OIP) are compared at 50Hz and 1500 Hz. For the ramp breakdown tests, sinusoidal voltage ramp of 1 kVp/s is used. The ramp breakdown experiments is conducted on OIP samples made of single and double sheets of OIP. Weibull plots and interpretation of the results are presented. In order to obtain lifetime curves, a step sinusoidal voltage waveform whose peak value is close to the minimum OIP ramp breakdown voltage is applied on single sheet of OIP samples. Time to breakdown is measured, and each experiment is repeated between 20-30 times to obtain good statistical results. The experiments were focused on four different voltage levels and the lifetime curves are plotted for those two target frequencies. Parameters of the lifetime curves are extracted and the interpretation is given.

Published

2021

25. Axisymmetric acoustophoresis for paper pulp concentration

Author

Pierre Gelinas, Maxime Bilodeau, Romain Le Magueresse, Robert Schiavi, Tamara Krpic, and Nicolas Quaegebeur

Subjects

Materials science, Acoustics and Ultrasonics, QC221-246, 02 engineering and technology, engineering.material, Acoustic levitation, 01 natural sciences, Inorganic Chemistry, Paper pulp concentration, symbols.namesake, stomatognathic system, Pulp flow simulation, Stokes' law, Acoustophoresis, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Original Research Article, Acoustic radiation force, QD1-999, Turbulence, Pulp (paper), Papermaking, 010401 analytical chemistry, Organic Chemistry, Acoustics. Sound, Mechanics, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemistry, stomatognathic diseases, Fiber suspension flow, symbols, engineering, Particle, Particle size, 0210 nano-technology

Abstract

Highlights • Numerical simulations of acoustophoresis in pulp flow is conducted. • Parametric study of fiber characteristics, pulp flow regimes and acoustic parameters are conducted. • A feasibility study of industrial acoustophoresis for pulp concentration is performed. • A potential concentration gain of 15% is obtained experimentally., In pulp and paper mills, mechanical processes such as screening and washing are commonly used to remove accumulated solid suspensions and concentrate the pulp. For environmental reasons and to optimize paper production, an emerging challenge is to develop alternative methods to concentrate paper pulp between 3 % and 6 % consistency for which the mixed pulp-water flow is complex. Among the proposed solutions in the literature, solutions based on acoustic levitation, also referred as acoustophoresis, of low-consistency pulp have been demonstrated as a potential solution for efficient pulp concentration and water recirculation. However, no sensitivity analysis on the ultrasound and physical parameters was proposed, limiting the extension to a realistic application. Thus, this paper presents a numerical modeling of acoustophoresis for pulp flow concentration in a pipe. For this purpose, the pulp flow is defined as a pseudo-homogenous fluid with a turbulent Low Re k- ∊ formalism, and the pulp particles are considered spherical and deflected by two acoustic forces, namely the acoustic radiation force and the Stokes drag force, both induced by an ultrasound wave generated along the walls of a circular pipe. The combined action of these two forces in the pulp flow enables to concentrate the particles at the center of the pipe. The influences of particle size and mechanical properties, fluid properties and ultrasound parameters are analyzed within a parametric study to optimize the particle deflection and the pulp concentration. The experimental feasibility of the industrial use of acoustophoresis for the concentration of paper pulp is demonstrated with a concentration gain up to 15 %.

Published

2021

26. ROTATIONAL PAPER PULP VISCOMETER WITH MEASUREMENT AT TWO SHEAR SPEEDS

Author

O. V. Kril, O. M. Romaniuk, В. A. Kril, and H. B. Krykh

Subjects

rotational viscometer, Materials science, Pulp (paper), Viscometer, flow behavior index, Mechanics, Repeatability, engineering.material, paper pulp consistency measurement, Power law, Non-Newtonian fluid, non-newtonian fluids, effective viscosity, consistency ratio, Flow velocity, engineering, lcsh:SD1-669.5, General Earth and Planetary Sciences, Torque, lcsh:Forestry, Friction torque, General Environmental Science

Abstract

Maintaining of the proper predetermined paper pulp consistency on the different stages of the paper or cardboard manufacturing process significantly affects on quality and self cost of manufactured articles. The improvement of precision and repeatability of the paper pulp viscosity and consistency measurements is relevant to paper industry. Objective of the work is to improve the industrial-type paper pulp rotational consistometer. A new method for measurement of paper pulp concentration by means of a rotational viscometer was suggested which enables determining the flow consistency index K and flow behavior index n in the Ostwald-de Waele power law. The influence of the following torques on the measurement results is eliminated thanks to the new method: the friction torque in the seal of the sensitive element, the friction torque in the bearings of the shaft and the torque created under the influence of the flow with distorted flow speed profile. This is achieved by measuring the torque which acts on the sensitive element approaching the selected frequencies of sensitive element rotation both from the lower and higher frequencies. The mean torque value is calculated based on the obtained values. The measurements are conducted for two sensitive element rotation frequencies adjusted in advance. The frequency of sensitive element rotation is changed by means of a frequency converter. It is shown that by using two different rotation frequencies of the sensitive element of a rotational viscometer it is possible to define the flow consistency index and the flow behavior index. Paper pulp viscosity and consistency is defined on the basis of these two indexes. It is also suggested to average the results of viscous friction torque measurement approaching the rotation frequency of the viscometer sensitive element to the working frequency chosen for measurement from the lower and higher frequency ranges. By averaging the results of such measurement the friction torques in sealing and bearings supporting the sensitive element shaft are compensated. By changing the rotation direction of the sensitive element and by further averaging the obtained results it is possible to eliminate the influence of the asymmetrical distribution of paper pulp flow speed in the pipeline. This improves accuracy of the paper pulp consistency measurement.

Published

2017

27. Wicking in Paper Strips under Consideration of Liquid Absorption Capacity

Author

Surasak Kasetsirikul, Nam-Trung Nguyen, and Muhammad J. A. Shiddiky

Subjects

Materials science, Capillary action, paper-based microfluidics, Flow (psychology), 02 engineering and technology, STRIPS, absorption capacity, 01 natural sciences, Capacitance, Analytical Chemistry, law.invention, Physics::Fluid Dynamics, lcsh:Biochemistry, law, wicking, lcsh:QD415-436, Physical and Theoretical Chemistry, Absorption (electromagnetic radiation), Electronic circuit, ComputingMethodologies_COMPUTERGRAPHICS, 010401 analytical chemistry, Mechanics, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Electrical network, electrical circuit analogy, Current (fluid), 0210 nano-technology

Abstract

Paper-based microfluidic devices have the potential of being a low-cost platform for diagnostic devices. Electrical circuit analogy (ECA) model has been used to model the wicking process in paper-based microfluidic devices. However, material characteristics such as absorption capacity cannot be included in the previous ECA models. This paper proposes a new model to describe the wicking process with liquid absorption in a paper strip. We observed that the fluid continues to flow in a paper strip, even after the fluid reservoir has been removed. This phenomenon is caused by the ability of the paper to store liquid in its matrix. The model presented in this paper is derived from the analogy to the current response of an electric circuit with a capacitance. All coefficients in the model are fitted with data of capillary rise experiments and compared with direct measurement of the absorption capacity. The theoretical data of the model agrees well with experimental data and the conventional Washburn model. Considering liquid absorption capacity as a capacitance helps to explain the relationship between material characteristics and the wicking mechanism.

Published

2020

28. 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

29. Virtual Laboratory for the Study of Kinematics in Engineering Faculties

Author

Craifaleanu, Andrei, Dragomirescu, Cristian, Craifaleanu, Iolanda-Gabriela, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Kobsa, Alfred, editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Weikum, Gerhard, editor, Chiu, Dickson K. W., editor, Wang, Minhong, editor, Popescu, Elvira, editor, Li, Qing, editor, and Lau, Rynson, editor

Published

2014

30. Description of space charge transport in oil‐paper insulation using adaptive time‐stepping transient upstream finite element method

Author

Jiefeng Liu, Yiyi Zhang, Wei Zhang, Bing Gao, Mingchen Shi, and Shuo Liang

Subjects

QC501-721, Materials science, Electricity, Time stepping, Energy Engineering and Power Technology, Upstream (networking), Electrical engineering. Electronics. Nuclear engineering, Mechanics, Transient (oscillation), Electrical and Electronic Engineering, Space charge, Finite element method, TK1-9971

Abstract

The charge transport and accumulation in oil–paper can cause the insulation degradation. So far, the most widely used model to simulate space charge transport and accumulation is the bipolar charge transport (BCT) model, which can well simulate the space charge dynamics. However, there are two shortcomings in the algorithms for solving the BCT model. One is that there is almost no use of vectorisation technology, which may increase the complexity of the algorithm, the other is the usage of fixed step size which might bring extra computation cost. In view of this, an adaptive time‐stepping transient upstream finite element method (FEM) is developed to solve the BCT model considering trapping/detrapping, as well as the recombination phenomenon under DC condition in this article. Then, a vectorisation technology is used in the method to optimise the algorithm. Moreover, the adaptive time‐stepping method is introduced in simulation to reduce computation time and calculation amount. Simulation results are obtained by programing and later presented, which are basically consistent with the corresponding experimental results. Therefore, the proposed method is expected to promote the optimization design of the oil–paper insulation system.

Published

2021

31. The Mechanics of Intervention and the Green Paper on Land Reform

Author

Juanita Pienaar

Subjects

Government, Sociology and Political Science, National Development Plan, Green paper, Land law, Legislation, Mechanics, Public administration, Collective impact, Intervention (law), Law, Sociology, Land reform

Abstract

The South African land control system has always, to some extent, been interfered with by government. Interventions in the course of the twentieth century in particular have resulted in an unequal, fragmented and diverse land control system. The law has been integral to this process. Since 1994, within a constitutional paradigm, interventions have been aimed at untangling the complex web of land-related measures so as to affect an equitable, co-ordinated and less complex land system. In this process law - including policy documents, plans, programmes and legislative measures - is again integral. The aim of this contribution is to ascertain whether, under the present government, the mechanics of intervention within the land reform arena have resulted overall in a sensible, workable framework within which challenges and weaknesses linked to land reform can be addressed effectively. In this regard both the structural and material dimensions of recent interventions are set out. Within this context the most recent intervention dealing with land reform in particular, the Green Paper on Land Reform of 2011, is placed in perspective and investigated further in light of the recent National Development Plan. Specific themes that have resonated in the recent mechanics of intervention, as well as the persons and communities who stand to be affected by them and the possible extent of their collective impact, are thereafter discussed. Due to the general vagueness of the Green Paper and its lack of depth and detail, the extent of the impact of the recent measures cannot be ascertained fully. The alignment of the new bodies and institutions proposed by and their contribution to actually addressing the challenges identified in the Green Paper are furthermore problematic and disappointing. Excluding vast portions of rural land comprising communal areas from all of the recent tenure-related measures is especially disconcerting. Clearly, huge gaps prevail in the resultant framework. Overall, the analysis of the recent structural and material dimensions of the recent mechanics underlines that further engineering is urgently required.

Published

2017

32. Nonlinear Dielectric Response Characteristics of Damp Oil-Paper Insulation and Application of H-W Model in Time-Frequency Conversion

Author

Lijun Yang, Zhen Qin, Wei Li, Xingjun Guo, Yingxin Deng, Wei Nie, and Ruijin Liao

Subjects

010302 applied physics, Work (thermodynamics), Materials science, Mechanics, 01 natural sciences, Domain (software engineering), Time–frequency analysis, symbols.namesake, Nonlinear system, Fourier transform, Frequency domain, 0103 physical sciences, symbols, Time domain, Electrical and Electronic Engineering, Debye model

Abstract

In this work, the extended Debye model or Fourier transform is adopted to convert the polarization and depolarization current test results from the time domain into the frequency domain at low frequencies, thereby shortening the test time but producing large errors when the oil-paper insulation exhibits nonlinear characteristics. The voltage-current response characteristics of samples with three different moisture contents are tested to study the influence of moisture on the nonlinear characteristics. Hammerstein-Wiener (H-W) equivalent mathematical model is proposed for time-frequency domain conversion, and the results from this model and two formal methods are compared. The findings show that the errors of the two conventional methods increase with nonlinearity. The H-W model accurately depicts the nonlinear dielectric response of oil-paper insulation and thus can provide high-precision time-frequency domain conversion data.

Published

2020

33. Discussion on the Paper 'Combined Effects of Thermal Radiation and Magnetohydrodynamic on Peristaltic Flow of Nanofluids: Applications to Radiotherapy and Thermotherapy of Cancer' by Wahed Hasona et al

Author

A. Elogail Mostafa

Subjects

Cancer Research, Materials science, Peristaltic flow, medicine.medical_treatment, Cancer, Mechanics, medicine.disease, Radiation therapy, Nanofluid, Oncology, Thermal radiation, medicine, Molecular Medicine, Magnetohydrodynamic drive

Abstract

Recently, Hasona et al. Aimed to investigate the influence of thermal radiation and magnetic field on the peristaltic flow of Carreau nanofluid in a vertical asymmetric channel. The authors have considered the Joule heating, viscous dissipation, chemical reaction, Brownian motion, thermophoresis, Soret, and Dufour effects in their study. Several mistakes and typos were discovered in the study mentioned above, which would affect the obtained results. This report outlines some of these mistakes with suggested corrections to attract the readers' attention through a more in-depth insight into analyzing and exposing these defects.

Published

2021

34. Assessing the rapid flow in multilayer paper-based microfluidic devices

Author

Federico Schaumburg and Claudio Luis Alberto Berli

Subjects

Work (thermodynamics), Computer science, Orders of magnitude (temperature), Microfluidics, CAPILLARY PRESSURE, INGENIERÍAS Y TECNOLOGÍAS, 02 engineering and technology, 01 natural sciences, MULTILAYER SYSTEMS, Physics::Fluid Dynamics, Filter (large eddy simulation), Materials Chemistry, PAPER-BASED MICROFLUIDICS, Ingeniería Médica, 010401 analytical chemistry, Mechanics, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Fluid transport, RAPID FLOW, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Volumetric flow rate, Flow velocity, Flow (mathematics), 0210 nano-technology

Abstract

A hot topic in paper-based microfluidics is the achievement of capillary-driven flows much faster than the ones theoretically allowed by the hydrodynamic permeability of common filter papers. Recent works have experimentally shown that the flow rates can be substantially improved by using multilayer paper systems instead of single-layer papers. The present work discusses a theoretical assessment of fluid transport in multilayer paper-based microfluidic devices. The proposed model effectively predicts a series of experimental observations, namely: the occurrence of fluid velocities 2 orders of magnitudelarger than those measured in single-layer paper; the variation of fluid velocity as a function of the gap thickness, whichpresents a particular maximum; the effects of gravity on the filling dynamics, which is unexpected for single-layer paper; and the effect of the sample volume size, which leads to non-trivial filling dynamics. It is worth mentioning that these effects cannot be described by Lucas?Washburn model for single layers, because they arise from the interplay among the coupled flow domains in the multilayer system, together with the action of the gravitational force. The proposed model provides clues to understand the fundamentals behind the capillary-driven flow in multilayer systems, and hence to better design paper-based microfluidics devices for specified flow rates and time-stepped functions. Fil: Schaumburg, Federico. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Desarrollo Tecnológico para la Industria Química. Universidad Nacional del Litoral. Instituto de Desarrollo Tecnológico para la Industria Química; Argentina Fil: Berli, Claudio Luis Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto de Desarrollo Tecnológico para la Industria Química. Universidad Nacional del Litoral. Instituto de Desarrollo Tecnológico para la Industria Química; Argentina

Published

2019

35. Calibration of filter paper for measuring total soil suction

Author

S. P. Bajad, S. R. Khandeshwar, S. P. Raut, and P. B. Pande

Subjects

Suction, Filter paper, Calibration curve, Calibration (statistics), General Chemical Engineering, General Engineering, General Physics and Astronomy, Mechanics, Exponential function, General Earth and Planetary Sciences, General Materials Science, Relative humidity, Osmotic coefficient, General Environmental Science, Mathematics

Abstract

Calibration curve plays an important role in filter paper method because it affects accuracy in soil suction values. Osmotic coefficient and relative humidity govern the osmotic suction required to develop calibration curve and equation. Most of the researchers used the readily available total (osmotic) suction values from various studies to develop the calibration curve. Very few researchers used the osmotic coefficient in calibration and studied its effect on calibration and measuring suction. In this paper, the effect of the osmotic suction proposed by various researchers on calibration of Whatman 42 Filter paper was studied. Logarithmic and exponential calibration equations were developed and compared. The NaCl solution used in the present study provides limited total suction range of 0–30,000 kPa. The total suction of clayey soil was measured to validate the calibration curves proposed in this study. The feasibility of proposed osmotic coefficients is verified by measuring total suction of soil. The total suction estimated from calibration curve using osmotic coefficients was found to be more accurate.

Published

2019

36. The Influence of Pressure on the Discharge along Oil-Paper Interface under AC Stress

Author

Liu Kai, Bo Gao, Zhou Peng, Yan Yang, Yu Rui, Guangning Wu, and Guangcai Hu

Subjects

Control and Optimization, Materials science, white mark, Bubble, flashover, Hydrostatic pressure, Energy Engineering and Power Technology, 01 natural sciences, lcsh:Technology, oil-paper interface, 010305 fluids & plasmas, law.invention, Stress (mechanics), law, 0103 physical sciences, Arc flash, bubble effect, Electrical and Electronic Engineering, Engineering (miscellaneous), normal operating condition, 010302 applied physics, Renewable Energy, Sustainability and the Environment, lcsh:T, Mechanics, Dissipation, partial discharge, Partial discharge, hydrostatic pressure, Hydrostatic equilibrium, Energy (miscellaneous), Voltage

Abstract

This study explores the influence of hydrostatic pressure on the discharge along the oil-paper interface under AC voltage, especially for the normal operating condition and breakdown. In this paper, an experimental platform was set up to record the partial discharge (PD) parameters of the test sample under different hydrostatic pressures, while the applied AC voltage was increased to final flashover voltage step by step. Experimental results showed that higher hydrostatic pressure had different effects on PD under different voltages. Higher pressure decreased the PD energy and increased the flashover voltage. Furthermore, under higher hydrostatic pressure, discharge traces (white mark) were found on the surface of the samples after intense discharging on the oil-paper interfaces, indicating that the hydrostatic pressure can affect the gas generation and dissipation process underneath the surface of the pressboards. Finally, the mechanism of how hydrostatic pressure influences the PD, flashover voltage, and white mark was interpreted based on the bubble theory. The results derived in this paper can be helpful for an optimal design and reasonable operation of oil-paper insulation systems, especially for power transformers.

Published

2019

37. On the History of Computer Algebra at the Keldysh Institute of Applied Mathematics

Author

Efimov, G. B., Tshenkov, I. B., Zueva, E. Yu, Impagliazzo, John, editor, and Proydakov, Eduard, editor

Published

2011

38. MPEG-7 Features in Hilbert Spaces: Querying Similar Images with Linear Superpositions

Author

Todarello, Elisa Maria, Allasia, Walter, Stroppiana, Mario, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Song, Dawei, editor, Melucci, Massimo, editor, Frommholz, Ingo, editor, Zhang, Peng, editor, Wang, Lei, editor, and Arafat, Sachi, editor

Published

2011

39. Charging and Discharging Current Measurements and Impact of Polarization Dynamics on Electric Field Modeling in HVDC Paper-Insulated Cables

Author

Pasquale Cambareri, Carlo De Falco, Luca Di Rienzo, Paolo Seri, Gian Carlo Montanari, Cambareri P., De Falco C., Di Rienzo L., Seri P., and Montanari G.C.

Subjects

Permittivity, Electric fields, Materials science, General Computer Science, Field (physics), 020209 energy, 02 engineering and technology, Dielectric, HVDC transmission, 01 natural sciences, Electric fields, Transient analysis, Current measurement, HVDC transmission, Permittivity, Mathematical model, Dielectrics, Transient analysis, Mathematical model, electric field transient, dielectric polarization, Insulation system, Electric field, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Polarization (electrochemistry), 010302 applied physics, General Engineering, Mechanics, Current measurement, HVDC cables, Dielectrics, electrical insulation, lcsh:Electrical engineering. Electronics. Nuclear engineering, Transient (oscillation), lcsh:TK1-9971, Voltage

Abstract

Accurate modeling and simulation of electric field transients in HVDC cables is an important support to optimize insulation system design and to evaluate the influence of voltage transients and steady-state conditions on accelerated ageing mechanisms and insulation reliability. Traditionally, field models considering time-independent permittivity and conductivity are used, but this approach neglects polarization mechanisms and charge trapping-detrapping phenomena. This article includes polarization dynamics in the field model and shows that its impact on transient electric field simulations in HVDC paper-insulated cables can be significant. A method is presented to infer the model parameters from experimental polarization and depolarization current measurements.

Published

2021

40. Application of Paper Folding Technique to Three-Dimensional Space Sound Absorber with Permeable Membrane: Case Studies of Trial Productions

Author

Kimihiro Sakagami, Hirotaka Suzuki, Masahiro Toyoda, Takeshi Okuzono, and Nao Koyanagi

Subjects

Materials science, Semipermeable membrane, Mechanics, Folding (DSP implementation), Sound Absorber, Three-dimensional space

Abstract

The authors propose a space sound absorber made of a permeable membrane (PM), including woven or non-woven fabrics in three-dimensional shapes, e.g., cylinder, rectangle, etc. The proposed absorbers are examined by experimental measurements and boundary element analyses, and it is found that they can be effectively used especially for middle and high frequencies. In order to develop these absorbers for wider applications, it would be desirable to give them additional values and functions, particularly to elaborate on their design. Supposing that they could also be used for lighting equipment, such as lampshades as one of the applications, pilot studies on pseudo-cylindrical, and pseudo-spherical PM space absorbers with uneven surfaces produced by paper-folding (origami technique) are carried out. The pseudo-cylindrical concave curves (PCCC) shell shape has been proven as a suitable form for a lampshade, and the pseudo-spherical concave curves (PSCC) shell shape is an application of PCCC. In this paper, PCCC and PSCC shell shapes are applied to three-dimensional PM space absorbers, and trials are conducted using PMs selected by flow resistance measurements and preliminary simulations. The sound absorptivity of the specimens is measured in a reverberation chamber, and their absorptivity is 0.6 (PCCC case) and 0.4 (PSCC case) at mid-high frequencies.

Published

2020

41. Radial Wicking of Biological Fluids in Paper

Author

Rico F. Tabor, Michael J. Hertaeg, Joseph D. Berry, and Gil Garnier

Subjects

Capillary action, Drop (liquid), 02 engineering and technology, Surfaces and Interfaces, Mechanics, Plasma, Penetration (firestop), 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Physics::Fluid Dynamics, Surface tension, Contact angle, 13. Climate action, Electrochemistry, General Materials Science, Wetting, Dewetting, 0210 nano-technology, Spectroscopy

Abstract

In this study, we analyze stain growth kinetics from droplets of biological fluids such as blood, plasma, and protein solutions on paper both experimentally and numerically. The primary difference of biological fluids from a simple fluid is a significant wetting/dewetting hysteresis in paper. This becomes important in later stages of droplet wicking, after the droplet has been completely absorbed into paper. This is shown by anomalous power dependence of area with time in the later stages of radial wicking. At early stages, current numerical wicking models can predict stain growth of biological fluids. However, at later stages, the introduction of hysteresis complicates modeling significantly. We show that the cause of the observed hysteresis is due to contact angle effects and that this is the dominant mechanism that leads to the anomalous stain growth kinetics measured uniquely in biological fluids. Results presented will streamline the design process of paper-based diagnostics, allowing a modeling approach instead of a trial and error method.

Published

2020

42. New Soft Tissue Implants Using Organic Elastomers

Author

Ku, David N., Fred, Ana, editor, Filipe, Joaquim, editor, and Gamboa, Hugo, editor

Published

2009

43. Multiphysics simulation of paper curl due to moisture transport

Author

Seungjun Lee, Taehan Kim, Gil Ho Yoon, Junseong Woo, Byoungho Yoo, and Woon Kyung Kim

Subjects

Curl (mathematics), 0209 industrial biotechnology, Materials science, Moisture, Viscoplasticity, Mechanical Engineering, Multiphysics, 02 engineering and technology, Mechanics, Physics::Classical Physics, Curvature, Finite element method, Computer Science::Other, Curling, 020303 mechanical engineering & transports, 020901 industrial engineering & automation, 0203 mechanical engineering, Mechanics of Materials, Material properties, Physics::Atmospheric and Oceanic Physics

Abstract

The moisture transport at the fuser nip of printers is postulated to be the main reason for paper curls. However, the fundamental mechanisms of paper curling remain unclear. Observing the moisture transport inside a sheet of paper through experiments is difficult because moisture transport rapidly occurs in a micro-scale thickness. Therefore, developing a theoretical model is crucial to understand the mechanisms of paper curling and to control the curls. In this study, we proposed a multiphysics model that includes the moisture and heat transport and mechanical deformation. The elasticity, plasticity, viscosity, and expansion caused by moisture were considered in the mechanical model to describe the complex material characteristics of paper. The curvature of curls was calculated using an effective two-spring model. The mechanisms of curling in printers and the direction of curls were understood through finite element simulations. The proposed model can qualitatively predict the paper curls observed in experiments. The temperature- and moisture-dependent material properties of paper will be studied in the future to improve the proposed model.

Published

2020

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

Author

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

Subjects

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

Abstract

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

Published

2020

45. FLUID FLOW BODIES FOR THE PULP AND PAPER INDUSTRY

Author

Yuriy Davidovich Alashkevich, Ol'ga Mikhaylovna Lur’e, Mikhail Semenovich Lur’e, and Aleksandr Sergeyevich Frolov

Subjects

Physics, 010405 organic chemistry, Organic Chemistry, Flow (psychology), Plant Science, Mechanics, Vortex generator, 01 natural sciences, Noise (electronics), 0104 chemical sciences, Working range, Volumetric flow rate, Biomaterials, 010404 medicinal & biomolecular chemistry, symbols.namesake, Flow velocity, symbols, Strouhal number, Suspension (vehicle)

Abstract

The question of the use of vortex flowmeters with different versions of the flow body (TO) under operating conditions on the technological lines of pulp and paper production is considered. It is shown that when using different TO in vortex flowmeters, an error occurs in the working range of speeds (flow rates). The observed error arises due to a change in the Strouhal number (Sh) and is associated with the measurement method. In this case, the Strouhal number begins to depend not only on the TO used as a vortex generator, but also on the flow velocity and the concentration of the fibrous suspension. As the main comparative factor for the investigated TOs, the force action on the sensitive element (flexible electrode) located inside the TO was taken. The study was carried out in several stages using numerical modeling and experimental design method. According to the results of a numerical study, the dependence of the Strouhal number (Sh) on the flow rate (V) and the concentration of the suspension (c) is presented. In a comparative analysis of the deviation of the Strouhal number from the average values, it was revealed that MOT No. 1 has a minimal effect on the concentration of the suspension in the working range of flow rates (± 0.5%). This circumstance makes it possible to verify and test flow meters with such maintenance in conventional pouring installations. The analysis of the maintenance with respect to the signal-to-noise ratio shows that the purest signal is generated by the cylindrical maintenance (maintenance No. 3), and maintenance No. 2 and No. 1 have noticeably large noise. The differences are explained by the absence on the surface of a cylindrical TO of extra protrusions, faces, which leads to a smoother flow of a suspension around its surface, as well as to a decrease in internal spurious noise.

Published

2020

46. Radial Imbibition in Paper under Temperature Differences

Author

J. M. Gomba, F. J. Higuera, Jonatan Raúl Mac Intyre, Abraham Medina, Carlos Alberto Perazzo, and Abel López-Villa

Subjects

Materials science, Ciencias Físicas, THERMOCAPILLARY PHENOMENA, 02 engineering and technology, lcsh:Thermodynamics, 7. Clean energy, 01 natural sciences, IMBIBITION, Darcy–Weisbach equation, 010305 fluids & plasmas, Aeronáutica, Surface tension, purl.org/becyt/ford/1 [https], thermocapillary phenomena, porous media, 020401 chemical engineering, lcsh:QC310.15-319, 0103 physical sciences, imbibition, 0204 chemical engineering, Blotting paper, Porosity, lcsh:QC120-168.85, Fluid Flow and Transfer Processes, Física de los Fluidos y Plasma, Mechanical Engineering, POROUS MEDIA, Single parameter, Mechanics, purl.org/becyt/ford/1.3 [https], Condensed Matter Physics, lcsh:Descriptive and experimental mechanics, Imbibition, Porous medium, CIENCIAS NATURALES Y EXACTAS

Abstract

Spontaneous radial imbibition into thin circular samples of porous material when they have been subjected to radial temperature differences was analyzed theoretically and experimentally. The use of the Darcy equation allows us to take into account temperature variations in the dynamic viscosity and surface tension in order to found the one-dimensional equation for the imbibition fronts. Experiments in blotting paper show the good fit between the experimental data to theoretical profiles. Fil: Lopez Villa, Abel. Instituto Politécnico Nacional. Centro de Investigación y de Estudios Avanzados. Departamento de Investigaciones Educativas.; México Fil: Medina, Abraham. Instituto Politécnico Nacional. Centro de Investigación y de Estudios Avanzados. Departamento de Investigaciones Educativas.; México Fil: Higuera, F. J.. No especifíca; Fil: Mac Intyre, Jonatan Raúl. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional del Centro de la Provincia de Buenos Aires. Facultad de Ciencias Exactas. Instituto de Física Arroyo Seco; Argentina Fil: Perazzo, Carlos Alberto. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Houssay. Instituto de Medicina Traslacional, Trasplante y Bioingeniería. Fundación Favaloro. Instituto de Medicina Traslacional, Trasplante y Bioingeniería; Argentina Fil: Gomba, Juan Manuel. Universidad Favaloro; Argentina. Consejo Nacional de Investigaciones Cientificas y Tecnicas. Centro Cientifico Tecnologico Conicet - Tandil. Centro de Investigaciones En Fisica E Ingenieria del Centro de la Provincia de Buenos Aires. Sede Olavarria del Centro de Investifaciones En Fisica E Ingenieria del Centro de la Provincia de Buenos Aires | Universidad Nacional del Centro de la Pcia.de Bs.as.. Centro de Investigaciones En Fisica E Ingenieria del Centro de la Provincia de Buenos Aires. Sede Olavarria del Centro de Investifaciones En Fisica E Ingenieria del Centro de la Provincia de Buenos Aires.; Argentina

Published

2019

47. Investigation of Two-Phase Rimming Flow and Heat Transfer Inside Rotational Paper Cylinder Dryers Using Three Multiphase Computational Models

Author

Chris Kononchek, Victor Barboza Pereira, Ting Wang, Joseph V. D'Amico, and Hamed Abdul Majeed

Subjects

Fluid Flow and Transfer Processes, Computational model, Materials science, Flow (mathematics), Phase (matter), Heat transfer, General Engineering, Cylinder, General Materials Science, Mechanics, Condensed Matter Physics

Abstract

The paper industry uses rotating cylinder dryers that employ steam to heat the paper web moving over the cylinder outer walls. As steam condenses, the condensate is accumulated inside the dryers and evacuated using siphons. The form of condensate motion occurring inside a rotating dryer consists of three modes: puddling, cascading, or rimming. To help improve the drying performance, it is important to understand the fundamental thermal-fluid physics in the rotational dryer. Thus, the objectives of this study are to (a) investigate the dynamic two-phase flow and heat transfer behavior inside the rotational dryer at different rotational speeds; (b) employ three different multiphase computational models, the Volume of Fluid (VOF) model, the Mixture model, and the Eulerian–Eulerian (E–E) model; and compare their results. The results show that the E–E model better captures the physics of condensate behavior inside the dryer. It also predicts very well the rimming speed in comparison with the empirical correlation although it takes longer computational time than the VOF model. The mixture model does not adequately capture the cascade and rimming physics due to excessive liquid dispersion. Based on the results, the categorization of the thermal-flow behavior of the liquid layer is expanded from the traditional three phases to five phases: puddling, transitional cascading, cascading, transitional rimming, and steady rimming. Generally, the heat transfer increases during the initial puddling period, followed by oscillatory attenuation during the cascade period, and finally reaches the steady-state after rimming is achieved.

Published

2022

48. Liquid film thickness of two‐phase slug flows in capillary microchannels: A review paper

Author

Yuri S. Muzychka, Amin Etminan, and Kevin Pope

Subjects

Liquid film, Microchannel, Materials science, biology, Capillary action, Slug, General Chemical Engineering, Phase (matter), Two-phase flow, Mechanics, Slug flow, biology.organism_classification

Published

2021

49. Pressure as a Motivator: A Conceptual Paper on the Physics of Stress and Flow

Author

Michael G. Frino, Matthew Toppin, and Katie P. Desiderio

Subjects

Stress (mechanics), Physics, Flow (mathematics), General Medicine, Mechanics

Published

2021

50. Heat and Mass Transfer on Free Path Portions in Drying Paper in Multicylinder Contact-Convective Units

Author

A. G. Nikolaeva, V. Yu. Lakomkin, and E. N. Gromova

Subjects

Convection, Imagination, Chemical substance, Materials science, Convective heat transfer, media_common.quotation_subject, General Engineering, Mechanics, Condensed Matter Physics, Physics::Fluid Dynamics, Mass transfer, Path (graph theory), Water content, Physics::Atmospheric and Oceanic Physics, media_common

Abstract

Convective heat- and mass-transfer processes are considered that occur on free surfaces of a wet paper web in an air medium with a single-row arrangement of drying cylinders. Calculated dependences are determined making it possible to predict the duration of the process of drying the paper web in multicylinder contact-convective units.

Published

2019