Showing total 27,245 results

1. A Method for Measuring the Directional Pattern of Scattered Radiation from Laser Plasma Using Exposed Photographic Paper.

Author

Lavrov, L. M., Pozdnyakov, E. V., Ul'mov, E. A., Yamshchikov, V. M., and Yamshchikova, M. A.

Subjects

*LASER plasmas, *LASER beams, *ENERGY dissipation, *SPATIAL resolution, *RADIATION

Abstract

A method for recording the spatial distribution of radiation scattered from laser plasma in a wide angular range, up to 4π, using preexposed and developed photographic paper is proposed. This method makes it possible to obtain a radiation pattern of scattered radiation with a sufficiently high spatial and angular resolution. By calibrating the sensitivity of photographic paper, one can quantify the energy of scattered radiation in various directions and determine the integral value of the energy loss due to scattering in a wide spectral range from UV to IR. [ABSTRACT FROM AUTHOR]

Published

2023

2. Energy Efficient Designing Approach of Flip-Flops Using 2-Dot 1-Electron QCA

Author

Ghosh, Mili, Mukhopadhyay, Debarka, Dutta, Paramartha, Barbosa, Simone Diniz Junqueira, Editorial Board Member, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Kotenko, Igor, Editorial Board Member, Yuan, Junsong, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Mandal, Jyotsna Kumar, editor, Mukhopadhyay, Somnath, editor, Dutta, Paramartha, editor, and Dasgupta, Kousik, editor

Published

2019

3. High energy dissipation rates from the impingement of free paper-thin sheets of liquids: Determination of the volume of the energy dissipation zone.

Author

Demyanovich, Robert J.

Subjects

*ENERGY dissipation, *KINETIC energy, *COEFFICIENT of restitution, *LIQUIDS, *UNITS of time

Abstract

• Impinging paper-thin sheets of liquids produces high energy dissipation rates. • The volume of energy dissipation is equal to the volume of the impingement zone. • A new expression for the energy dissipation rate was derived and compared with turbulence theory. • Large-eddy turnover time is approximately equal to liquid residence time in impingement zone. • Large-eddy kinetic energy decays exponentially in the impingement zone. The micromixing time of impinging thin liquid sheets depends upon the energy dissipation rate (∊). The kinetic energy released by the impingement has been previously studied and was found to be a function of the coefficient of restitution of the collision. In this work, the volume within which the released kinetic energy is dissipated was investigated. The volume of energy dissipation was determined by measuring the time required for the velocity of the liquid prior to the collision to be reduced to the velocity after the collision. High-speed video was used to measure the velocity of features, generated in the front single sheet, as they passed through the impingement zone and into the mixed sheet. The experimental results showed that the time required for the velocity change was approximately equal to the residence time of liquid in the impingement zone (t r). A new equation for ∊ was developed and compared with ∊ derived from turbulence energy-cascade theory. This comparison showed that the large-eddy turnover time (t Λ) was approximately equal to t r ; a result that is in accordance with the notion from turbulence energy-cascade theory that large, energy-containing eddies lose their energy within t Λ. Within the impingement zone, the large-eddy kinetic energy was found to decay exponentially with time. [ABSTRACT FROM AUTHOR]

Published

2024

4. Viscoelastic behavior of pressure-sensitive adhesive based on block copolymer and kraft lignin.

Author

de Sousa Júnior, Rogerio R., Garcia, Guilherme E. S., dos Santos, Demetrio J., and Carastan, Danilo J.

Subjects

PRESSURE-sensitive adhesives, MEASUREMENT of shear strength, LIGNINS, PAPER pulp, ENERGY dissipation

Abstract

Practical adhesion of pressure-sensitive adhesives (PSAs) is strongly dependent on their viscoelastic properties. The use of biobased materials emerged as an effective approach to modify the rheological, mechanical, and adhesive properties of PSAs. The biopolymer kraft lignin (KL), a by-product of pulp and paper manufacturing, appeared as a potential candidate for modifying the adhesive behavior of PSAs. In this study, we developed a block copolymer-based PSA by incorporating a hydrocarbon resin (HCR) and kraft lignin into the block copolymer polystyreneb-poly(ethylene-co-butylene)-b-polystyrene (SEBS). "Viscoelastic windows", which describe the potential application of a PSA based on its viscoelastic behavior, were constructed for PSAs with the addition of KL. These results demonstrate the potential for application as a high-shear PSA due to the increased energy dissipation of the samples. Practical adhesion was evaluated using probe tack tests and lap shear strength measurements, which effectively demonstrated an increase in the cohesive strength of the PSA with an optimized concentration of 5 wt% KL. [ABSTRACT FROM AUTHOR]

Published

2024

5. Experimental analysis of specific energy with variable deformation volume under sphere oblique impact.

Author

Wang, Qing-Peng, Lv, Shao-Yun, Han, Jin-Li, Wang, Heng, Li, De-Feng, and Wang, Zhen-Feng

Subjects

*CARBON paper, *ENERGY dissipation, *SPHERES

Abstract

Experiments of a steel sphere oblique impact with a rubber cushion have been proceeded to research the variation laws of the specific energy at interface. The contact surfaces above and under the rubber cushion can be recorded with a thin carbon paper. The parameters of deformation volume and specific energy are analyzed by the developed formulas in different cases of the impact angle, cushion thickness, drop height and sphere diameter. It is found that the deformation volume and related geometrical sizes decrease approximately exponentially with the impact angle, and the volume of the tangential moving part reaches a maximum at 50° or 60°. The variation laws of the specific energy absorption/dissipation in normal are similar to that of the axis length. The tangential specific energy can be divided into three main phases, the first two appear the states of slow increase and plateau, between of them a fluctuating peak exists at 30–40°. In final phase, the energy absorption shows sharp increase, but the energy dissipation first increases and then decreases. In addition, they increase linearly with the drop height and sphere diameter, and an optimum cushion thickness of 4 or 5 mm in the given cases. [ABSTRACT FROM AUTHOR]

Published

2023

6. Energy flow analysis in pulp and paper industry

Author

Hong, Gui-Bing, Ma, Chih-Ming, Chen, Hua-Wei, Chuang, Kai-Jen, Chang, Chang-Tang, and Su, Te-Li

Subjects

*PAPER industry, *PULP mills, *ENERGY dissipation, *ENERGY conservation, *ENERGY consumption, *TECHNOLOGY

Abstract

Abstract: This work analyzed the energy flow of the pulp and paper industry in Taiwan. The potential technology options that were examined focus on how to capture some of the energy currently lost in the processes and then identifying the areas with energy-saving potential that could also have large impacts across a variety of industries. In addition, the energy-saving potential of these options was evaluated. The energy-saving potential of the pulp and paper industry would be around 6939.9 KLOE/M. The greatest energy-saving potential lies with improving energy distribution and equipment efficiency, which would together potentially comprise 86.8% of total energy conservation. This analysis can serve as a benchmark for current pulp and paper making operations, and as a base case for stimulating changes toward more efficient energy utilization in the pulp and paper industry. [Copyright &y& Elsevier]

Published

2011

7. Identifying the weak spots in packaging paper: local variations in grammage, fiber orientation and density and the resulting local strain and failure under load.

Author

Lahti, Jussi, Dauer, Michael, Keller, D. Steven, and Hirn, Ulrich

Subjects

FRACTURE mechanics, DENSITY, TENSILE tests, FIBER orientation, ENERGY dissipation, REGRESSION analysis

Abstract

Measured local paper structure—i.e. local basis weight, local thickness, local density and local fiber orientation—has been linked to local strain and local material failure (local temperature increase due to energy dissipation upon fiber–fiber bond failure) measured during tensile testing. The data has been spatially linked through data map registration delivering several thousand 1 × 1 mm 2 paper regions, each containing all measured properties. The relation between local paper structure and resulting local deformation and failure is studied with regression models. Multiple linear regression modeling was used to identify the paper structure related drivers for local concentrations of strain under load and local concentrations of material failure, which are both starting to occur considerably before rupture of the paper. Analyzing the development of local strain in paper we found that regions with higher basis weight and higher fiber orientation in load direction tend to exhibit considerably lower strain during tensile testing. Furthermore, the relation between local strain and local grammage can be predicted with the statistical theory of elasticity. Also regions with higher density have lower local strain, but not as pronounced. The findings for local fiber–fiber bond failure of paper are similar but not equivalent. The strongest correlation exists with local grammage. Local density and local fiber orientation show in turn weaker correlation with local bond failure. Local variations in paper thickness were not relevant in any case. These findings are highlighting the relevance of local fiber orientation and local density variations as structural mechanisms governing paper failure. In the past the focus has been mostly on paper formation. Together with local grammage (formation) they are responsible for the weak spots in paper, and thus cause local concentrations of paper strain and the initiation of failure under tensile load. [ABSTRACT FROM AUTHOR]

Published

2020

8. An assessment of a pulp and paper mill through energy and exergy analyses.

Author

Utlu, Zafer and Kincay, Olcay

Subjects

*PAPER mills, *PAPER industry, *EXERGY, *MACHINE separators, *SEPARATION (Technology), *THERMODYNAMICS, *ENERGY consumption, *ENERGY dissipation, *EVAPORATION (Chemistry), *DRYING

Abstract

Abstract: In this study, a pulp and paper mill (PPM) in the SEKA Papermaking Plant in İzmit, Turkey, is analysed through energy and exergy balances. The plant utilises recycled waste paper for papermaking. This type of raw material input makes the process highly sophisticated. The pulping uses strictly mechanical processes, such as digestion, separation by screening and hydrocyclone, and refining. The milling, as an integrated process, provides the final operations necessary to prepare the conditions required for the end-product by stock-preparation, wiring, rolling, and drying by dewatering, pressing, and evaporation. The possibility of making the entire process more thermodynamically efficient is discussed by calculating the energy and exergy losses for all the mechanical and physical sub-processes. The study shows that the energy efficiencies for each of the mechanical and physical steps in the PPM vary between 34% and 97.4%, whereas the exergy efficiencies vary between 30.2% and 94.2%. In conclusion, based on the results from the energy and exergy flow analyses, the exergy output can be improved through more efforts directed primarily to further measurements toward more efficient energy utilisation in the PPM. [Copyright &y& Elsevier]

Published

2013

9. Security Implications of Crosstalk in Switching CMOS Gates

Author

Dyrkolbotn, Geir Olav, Wold, Knut, Snekkenes, Einar, 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, Burmester, Mike, editor, Tsudik, Gene, editor, Magliveras, Spyros, editor, and Ilić, Ivana, editor

Published

2011

10. Energy Dissipation Effect on a Quantum Neural Network

Author

Kinjo, Mitsunaga, Sato, Shigeo, Nakajima, Koji, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Ishikawa, Masumi, editor, Doya, Kenji, editor, Miyamoto, Hiroyuki, editor, and Yamakawa, Takeshi, editor

Published

2008

11. Synergistic effect of size distribution on the electrical and thermal conductivities of graphene-based paper.

Author

Li, Qi, Tian, Xiaojuan, Chen, Zhuo, Wu, Jiaye, Li, Yun, and Li, Yongfeng

Subjects

THERMAL conductivity, GRAPHENE, THERMAL properties of metals, ENERGY dissipation, LIGHTWEIGHT materials

Abstract

Flexible graphene-based paper is promising for wide applications due to its outstanding electrical and thermal conductivities. Graphene flakes with large size are usually known as the key factor for improved paper performance. However, we find that a combination of flakes with large and small sizes is more favorable for both electrical and thermal conductivities than pure large flakes. In this work, flexible paper with enhanced electrical and thermal properties was fabricated by mixing graphene flakes with various size distributions. Large-size graphene (LSG) flakes play the role of a backbone structure, whereas small-size graphene (SSG) flakes fill the voids in the paper without disturbing the high orientation. The physical properties of the as-prepared graphene papers with contents of SSG varying from 0 to 100% have been investigated. It is found that the electrical and thermal conductivities of the paper with 25 wt% SSG are both around 140% higher than that of pure LSG paper. Our results indicate that the lightweight and flexible graphene-based paper has great potential for lateral heat dissipation applications requiring heat movement in a particular direction. [ABSTRACT FROM AUTHOR]

Published

2018

12. Description and Dynamics of Vortical Structures of Turbulence

Author

Kida, Shigeo, Beig, R., editor, Ehlers, J., editor, Frisch, U., editor, Hepp, K., editor, Hillebrandt, W., editor, Imboden, D., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Lipowsky, R., editor, v Löhneysen, H., editor, Ojima, I., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Reguera, David, editor, Rubí, José Miguel, editor, and Bonilla, Luis López, editor

Published

2001

13. A Research Paper on Types, Advantages, and Components of Hotends.

Author

Agashe, Kaustubh, Deshmukh, Vighnesh, Shevatikar, Hreshikesh, Tendulkar, Anish, and Bhilawade, Utkarsh

Subjects

FUSED deposition modeling, THREE-dimensional printing, ENERGY dissipation, TEMPERATURE sensors, THERMAL conductivity

Abstract

This document gives detailed information about the components of hotend used in fused deposition modelling technology of additive manufacturing. This paper also provides different types of hotends used in FDM technology and the advantages of various types of hotends. [ABSTRACT FROM AUTHOR]

Published

2023

14. STUDY AND MODELING OF THE DISINTEGRATION KINETICS OF COATED PAPER.

Author

Vilaseca, Fabiola, Puig, Josep, Pèlach, M. Àngels, El Mansouri, Nour-Eddine, Alcalà, Manuel, Roux, Jean-Claude, and Mutjé, Pere

Subjects

*PAPER coatings, *WASTE recycling, *PULPING, *ENERGY dissipation, *DISTILLATION, *RAYLEIGH number, *TEMPERATURE effect

Published

2011

15. The effect of partial discharge by-products on the dielectric frequency response of oil-paper insulation comprising of a small cavity.

Author

Kiiza, R. Clemence, Niasar, M. Ghaffarian, Nikjoo, R., Wang, X., and Edin, H.

Subjects

PARTIAL discharges, WASTE products, DIELECTRICS, ELECTRIC insulators & insulation, ALTERNATING currents, ENERGY dissipation

Abstract

This work investigates the effect of alternating current partial discharge (AC PD) byproducts on the dielectric frequency response (DFR) of oil-paper insulation comprising of a small cavity, in the frequency range of 1.0 mHz to 1.0 kHz. The investigations were done by utilizing experimental results in combination with a Finite Element Method (FEM) model. The results presented in this paper show that ageing by-products in the cavity (PD stressed volume) alone will not result into the change in DFR of oil-paper insulation. According to simulation results, the significant change in the DFR results is mainly caused by PD by-products (positive and negative charges, and electrons) which tend to conduct or diffuse into the bulk of oil-paper insulation. The change in a dissipation factor curve due to PD by-products was observed to occur mainly in the middle and low frequency regions. The results indicate that the dissipation factor curves in the middle and low frequency regions depend on the level of PD by-products in oil and paper, respectively. [ABSTRACT FROM AUTHOR]

Published

2015

16. Research paper Novel Ultra-Low-Power Mirrored Folded-Cascade Transimpedance Amplifier.

Author

Sadeghi, S., Nayeri, M., Dolatshahi, M., and Moftakharzadeh, A.

Subjects

ELECTRIC capacity, BANDWIDTHS, MONTE Carlo method, ENERGY dissipation, FEEDFORWARD amplifiers, THERMAL noise

Abstract

Background and Objectives: In this paper, a novel structure as a Folded-Mirror (FM) Trans-impedance Amplifier (TIA) is designed and introduced for the first time based on the combination of the current-mirror and the folded-cascade topologies. The trans-impedance amplifier stage is the most critical building block in a receiver system. This novel proposed topology is based on the combination of the current mirror topology and the folded-cascade topology, which is designed using active elements. The idea is to use a current mirror topology at the input node. In the proposed circuit, unlike many other reported designs, the signal current (and not the voltage) is being amplified till it reaches the output node. The proposed TIA benefits from a low input resistance, due to the use of a diode-connected transistor, as part of the current mirror topology, which helps to isolate the dominant input capacitance. So, as a result, the data rate of 5Gbps is obtained by consuming considerably low power. Also, the designed circuit employs only six active elements, which yields a small occupied chip area, while providing 40.6dBΩ of trans-impedance gain, 3.55GHz frequency bandwidth, and 664nArms input-referred noise by consuming only 315µW power using a 1V supply. Results justify the proper performance of the proposed circuit structure as a low-power TIA stage. Methods: The proposed topology is based on the combination of the current mirror topology and the folded-cascade topology. The circuit performance of the proposed folded-mirror TIA is simulated using 90nm CMOS technology parameters in the Hspice software. Furthermore, the Monte-Carlo analysis over the size of widths and lengths of the transistors is performed for 200runs, to analyze the fabrication process. Results: The proposed FM TIA circuit provides 40.6dBΩ trans-impedance gain and 3.55GHz frequency bandwidth, while, consuming only 315µW power using a 1V supply. Besides, as analyzing the quality of the output signal in the receiver circuits for communication applications is vital, the eye-diagram of the proposed FM TIA for a 50µA input signal is opened about 5mV, while, for a 100µA input signal the eye is opened vertically about 10mV. So, the vertical and horizontal opening of the eye is clearly shown. Furthermore, Monte-Carlo analysis over the trans-impedance gain represents a normal distribution with the mean value of 40.6dBΩ and standard deviation of 0.4dBΩ. Also, the value of the input resistance of the FM TIA is equal to 84.4Ω at low frequencies and reaches the value of 75Ω at -3dB frequency. The analysis of the effect of the feedback network on the value of the input resistance demonstrates the input resistance in the absence of the feedback network reaches up to 1.4MΩ, which yields the importance of the existence of the feedback network to obtain a broadband system. Conclusion: In this paper, a trans-impedance amplifier based on a combination of the current-mirror topology and the folded-cascade topology is presented, which amplifies the current signal and converts it to the voltage at the output node. Due to the existence of a diode-connected transistor at the input node, the input resistance of the TIA is comparatively small. Furthermore, four out of six transistors are PMOS transistors, which represent less thermal noise in comparison with NMOS transistors. Also, the proposed Folded-Mirror topology occupies a relatively small area on-chip, due to the fact that no passive element is used in the feedforward network. Results using 90nm CMOS technology parameters show 40.6dBΩ trans-impedance gain, 3.55GHz frequency bandwidth, 664nArms input-referred noise, and only 315µW power dissipation using a 1volt supply, [ABSTRACT FROM AUTHOR]

Published

2023

17. Assessment of interfacial charge accumulation in oil-paper interface in transformer insulation from polarization-depolarization current measurements.

Author

Mishra, D., Baral, A., Haque, N., and Chakravorti, S.

Subjects

*ELECTRIC transformers, *TRANSFORMER insulation, *PARTIAL discharges, *ELECTRODES, *ENERGY dissipation, *CATIONS, *IONIC mobility

Abstract

Accumulation of interfacial space charge in oil-paper interface is a critical issue in insulation diagnostics of transformers. This interfacial charge mainly accumulates due to the conductivity difference of oil and paper. Accumulation of interfacial charge leads to localized field enhancement, which further leads to partial discharges and acceleration in the aging of insulation. Therefore, from the point of view of transformer insulation diagnostics, assessment of interfacial charge is very important. However, it is not easy to estimate interfacial space charge behavior from the transformer diagnostics methods currently in use. In case of Polarization-Depolarization Current (PDC) measurement, a well known method for transformer condition monitoring, the effect of interfacial charge is reflected in the non-linearity of current response during polarization and de-polarization. During de-polarization process, a part of the interfacial charge accumulated during polarization period is absorbed by the electrodes producing a current, which is difficult to separate using conventional linear dielectric theory. In this paper, an attempt has been made to separate this current component from de-polarization current through considering charge de-trapping mechanism. Terming this current component as de-trapping current, its relationship with other parameters of transformer insulation is discussed. The developed methodology has been applied on several practical transformers. It was observed that the time constant of de-trapping current is related to the paper conductivity, oil conductivity, dissipation factor and age of the insulation. [ABSTRACT FROM PUBLISHER]

Published

2017

18. ASSESSMENT OF LONG THERMAL AGEING ON THE OIL-PAPER INSULATION.

Author

KOLCUNOVA, Iraida, PAVLIK, Marek, and LISON, Lukas

Subjects

ELECTRIC insulators & insulation, ELECTRIC power equipment, ELECTRIC transformers, INSULATING oils, ENERGY dissipation

Abstract

Electric power equipment has complex construction. Therefore, it is very important to have enough information about the state of equipment. High voltage transformers play a very important role in the electric power system. One of the most important parts of electric power equipment is the insulation system. Insulation system must be in a good condition for reliable and safe operation of electrical devices. Insulation system of electrical equipment is exposed to various factors which could have negative influence on its condition. Oil impregnated insulation paper is one of the oldest insulation systems used in electrical power equipment. Mineral oils have been used for decades as transformer fluids because of their excellent dielectric properties and availability. However, performance of mineral oil starts to be limited due to environmental consideration. The aim of this paper is to simulate a real insulation system of transformer and to show the influence of accelerated thermal ageing on the insulation system. Properties such as relative permittivity, dissipation factor and the breakdown voltage will be described and analysed. [ABSTRACT FROM AUTHOR]

Published

2016

19. Effect of charge accumulated at oil-paper interface on parameters considered for power transformer insulation diagnosis.

Author

Mishra, Deepak, Haque, Nasirul, Baral, Arijit, and Chakravorti, Sivaji

Subjects

*POWER transformer insulation, *POLARIZATION (Electricity), *CONDUCTION electrons, *ENERGY dissipation, *DIELECTRIC depolarization

Abstract

Polarisation and depolarisation current (PDC) measurement and analysis is one of the popular tools for effective diagnosis of power transformer insulation. Normally, it is assumed that polarisation current is the combination of the current due to dipole movement and conduction current. Similarly, the depolarisation current is only due to the relaxation of dipoles. However, it is found that after eliminating the effect of dc conduction from polarisation current the resulting current is not similar to that of measured depolarisation current. This shows some non-linearity is present in the system. This non-linearity occurs due to movement of trapped charge that resides in the interfacial region of oil--paper insulation. This study shows the effect of detrapping charge on various performance parameters that are used for insulation diagnosis like paper moisture and dielectric dissipation factor (tanδ). [ABSTRACT FROM AUTHOR]

Published

2018

20. Frequency domain spectroscopy measurements of oil-paper insulation for energized transformers.

Author

Yang, Xu, Nielsen, Shawn, and Ledwich, Gerard

Subjects

*SPECTRUM analysis, *POWER transformers, *DIELECTRIC measurements, *ENERGY dissipation, *NONLINEAR theories, *FAST Fourier transforms

Abstract

Frequency Domain Spectroscopy (FDS) is proposed as a suitable diagnostic method in this paper for implementation on energized oil-paper insulation systems. In present FDS tests, the measurement method is only designed for offline applications. To overcome the deficiencies with the offline testing, this work investigates the feasibility of performing FDS measurements on energized transformers with the view to developing an online diagnostic tool using neutral connections as injection and measurement paths. In the proposed technique, a low-pass filter system is designed to remove the high frequency noise as well as the power frequency signals present in the measured neutral currents. The technique has been successfully applied in a laboratory environment on transformers with oil-paper insulation systems with different operational ages and is feasible for single-phase as well as 3-phase transformers with the accessible neutral points. Compared with the conventional FDS results, a nonlinear dielectric phenomenon is observed from the energized insulation systems as higher dissipation factor Tan5 values primarily due to the increased losses under power frequency voltage excitation. The degree of the nonlinearity is found to correlate well with the degradation status of insulation systems under test. [ABSTRACT FROM PUBLISHER]

Published

2017

21. Estimation of paper moisture content based on dielectric dissipation factor of oil-paper insulation under non-sinusoidal excitations.

Author

Pradhan, A., Chatterjee, B., and Chakravorti, S.

Subjects

*DIELECTRIC measurements, *ENERGY dissipation, *ELECTRIC insulators & insulation, *MOISTURE, *AMPLITUDE modulation

Abstract

Frequency Domain Spectroscopy is a popular non-invasive method that is widely used for condition assessment of oil-paper insulation in real-life power transformers. Conventional Frequency Domain Spectroscopy is done using sinusoidal excitation over a wide frequency range. In this work, a different approach has been taken to investigate some more possibilities of Frequency Domain Spectroscopy using non-sinusoidal excitation for a better condition assessment of oil-paper insulation. For that, triangular waveshape was chosen as non-sinusoidal excitations whose slope can be changed to vary the harmonic content and amplitudes of constituent components. Samples with preset moisture contents that emulate the oil-paper insulation of real-life transformer have been prepared in the laboratory for the assessment of insulation condition. For a comparative study, both sinusoidal and triangular excitations having same peak as well as time period are applied to the prepared samples under controlled environmental condition and corresponding dielectric response currents are measured. From the applied voltages and corresponding dielectric response currents, dielectric dissipation factors are calculated and compared. It has been observed that use of nonsinusoidal excitation provides better results than sinusoidal excitation in the estimation of paper moisture content. It has also been observed that among the applied non-sinusoidal excitations, a particular waveform provides more accurate information about the paper moisture content. [ABSTRACT FROM AUTHOR]

Published

2015

22. Hierarchical Graphene-Carbon Fiber Composite Paper as a Flexible Lateral Heat Spreader.

Author

Kong, Qing‐Qiang, Liu, Zhuo, Gao, Jian‐Guo, Chen, Cheng‐Meng, Zhang, Qiang, Zhou, Guangmin, Tao, Ze‐Chao, Zhang, Xing‐Hua, Wang, Mao‐Zhang, Li, Feng, and Cai, Rong

Subjects

GRAPHENE, CARBON fibers, COMPOSITE materials, CARBONIZATION, HEAT transfer, ENERGY dissipation

Abstract

As a low dimensional crystal, graphene attracts great attention as heat dissipation material due to its unique thermal transfer property exceeding the limit of bulk graphite. In this contribution, flexible graphene-carbon fiber composite paper is fabricated by depositing graphene oxide into the carbon fiber precursor followed by carbonization. In this full-carbon architecture, scaffold of one-dimensional carbon fiber is employed as the structural component to reinforce the mechanical strength, while the hierarchically arranged two-dimensional graphene in the framework provides a convenient pathway for in-plane acoustic phonon transmission. The as-obtained hierarchical carbon/carbon composite paper possesses ultra-high in-plane thermal conductivity of 977 W m−1 K−1 and favorable tensile strength of 15.3 MPa. The combined mechanical and thermal performances make the material highly desirable as lateral heat spreader for next-generation commercial portable electronics. [ABSTRACT FROM AUTHOR]

Published

2014

23. Application of Digital Image Correlation (DIC) Technique for Semi Interlocking Masonry (SIM) Panels under Large Cyclic In-Plane Shear Displacement.

Author

Hossain, M. Akhtar, Totoev, Y.Z., and Masia, M.J.

Subjects

DIGITAL image correlation, MASONRY, STEEL framing, ENERGY dissipation, SLIDING friction, CONFERENCE papers

Abstract

Semi interlocking masonry (SIM) is an innovative masonry building system which is being developed in the Centre for Infrastructure Performance and Reliability at The University of Newcastle, Australia. It utilizes a special method of interlocking of mortar-less engineered masonry panels made of semi-interlocking masonry (SIM) units which possess significant energy dissipation capacity due to friction on sliding bed joints between units of the panel during a seismic event. This special method of interlocking SIM bricks allows relative sliding of unit courses in-plane of a wall and prevents out-of-plane relative movement of units. Because all bed joints in a SIM panel are sliding joints, SIM panels can withstand large in-plane displacements without damage. To test SIM panels, a special steel frame with pin connections at each corner was designed and built. The arrangement with pin connections allows application of in-plane shear distortion to the panel of up to 120 mm. The study presented herein focused on the experimental investigation of displacement capacities of three different types of panels (panel with open gap between the steel frame and top of the panel, panel with foam in the gap, panel with grout in the gap) with two types of SIM units. The paper expands significantly from the previously published conference paper and examines the behavior of SIM panels subject to 100 mm (5% storey drift) cyclic in-plane lateral displacement on six SIM panels. The horizontal and vertical movement of SIM units were recorded using Digital Image Correlation (DIC) every 10 s over approximately 8 h of testing. This study reveals that the DIC displacement outputs show good agreement with displacements measured using traditional instrumentation, even at large displacements (up to 100 mm). The structural performance of the SIM panels is also analyzed and potential joint opening widths are quantified under large displacement by plotting the outputs from DIC results. [ABSTRACT FROM AUTHOR]

Published

2021

24. "Turbulence effect on total mechanical energy budget and energy loss of turbulent flows with different hydraulic regimes in open-channel transitions".

Author

Mazumder, S.K.

Subjects

TURBULENT flow, MECHANICAL energy, ENERGY dissipation, TURBULENCE, RIVER channels, FLOW separation, ELECTRON energy loss spectroscopy

Abstract

Transitions are needed in hydraulic structures which are flumed. In expanding transitions, flow separates from the boundary if the angle of divergence exceeds about 5 degrees. The present paper gives an insight into the turbulence effect and energy loss in expanding transition with small angle of divergence. In wide angle expansion, flow separates from the boundary resulting in highly non-uniform velocity distribution at the exit of expansion resulting in erosion of down stream channel. Author performed experiments to control separation of flow in wide angle expansion. The paper discusses about the devices used by the author to control separation in wide angle expanding transition. [ABSTRACT FROM AUTHOR]

Published

2024

25. Research on the Icing Diagnosis of Wind Turbine Blades Based on FS-XGBoost-EWMA.

Author

Jicai Guo, Xiaowen Song, Chang Liu, Yanfeng Zhang, Shijie Guo, Jianxin Wu, Chang Cai, and Qing'an Li

Subjects

WIND turbine blades, WIND turbines, SUPERVISORY control systems, FEATURE selection, ARTIFICIAL intelligence, ENERGY dissipation

Abstract

In winter, wind turbines are susceptible to blade icing, which results in a series of energy losses and safe operation problems. Therefore, blade icing detection has become a top priority. Conventional methods primarily rely on sensor monitoring, which is expensive and has limited applications. Data-driven blade icing detection methods have become feasible with the development of artificial intelligence. However, the data-driven method is plagued by limited training samples and icing samples; therefore, this paper proposes an icing warning strategy based on the combination of feature selection (FS), eXtreme Gradient Boosting (XGBoost) algorithm, and exponentially weighted moving average (EWMA) analysis. In the training phase, FS is performed using correlation analysis to eliminate redundant features, and the XGBoost algorithm is applied to learn the hidden effective information in supervisory control and data acquisition analysis (SCADA) data to build a normal behavior model. In the online monitoring phase, an EWMA analysis is introduced to monitor the abnormal changes in features. A blade icing warning is issued when the monitored features continuously exceed the control limit, and the ambient temperature is below 0°C. This study uses data from three icing-affected wind turbines and one normally operating wind turbine for validation. The experimental results reveal that the strategy can promptly predict the icing trend among wind turbines and stably monitor the normally operating wind turbines. [ABSTRACT FROM AUTHOR]

Published

2024

26. On dissipative effects of paper web adhesion strength

Author

Edvardsson, S., Gradin, P.A., and Isaksson, P.

Subjects

*ENERGY dissipation, *STRENGTH of materials, *ROLLING (Metalwork), *ADHESION, *MATHEMATICAL models, *ELASTOPLASTICITY, *EXPERIMENTAL design

Abstract

Abstract: This work is concerned with the adhesion strength between a paper web and a metal roll surface, which is a common situation in paper machines world-wide. It is shown that the classic expression relating the work of adhesion to the peeling angle and web tension is, in general, insufficient. An improved model is suggested to take into account the energy dissipation due to elastic–plastic deformation behavior of wet paper materials. To judge the model, an industrially relevant example of wet newsprint and a mild steel surface is studied. It is found that the agreement between theory and experimental observations is excellent. A key result is that elastic–plastic material behavior must always be included for wet paper materials in peeling processes. [ABSTRACT FROM AUTHOR]

Published

2011

27. The numerical study of CLT shear walls with low-yield steel dampers

Author

Li, Guodong, Liu, Wenhan, and Feng, Guangzhi

Published

2022

28. Extraction of Frequency Domain Dielectric Characteristic Parameter of Oil-paper Insulation for Transformer Condition Assessment.

Author

Liao, Ruijin, Liu, Jiefeng, Yang, Lijun, Zhang, Yiyi, Gao, Jun, Ma, Zhiqing, and Hao, Jian

Subjects

*ELECTRIC insulators & insulation, *ELECTRIC transformers, *POWER transmission, *PERMITTIVITY measurement, *ENERGY dissipation

Abstract

In modern power transmission and distribution systems, power transformers are critical components and their electrical properties together with service lives are determined by the insulation property of oil-paper insulation. To better apply the frequency domain spectroscopy technique to assess transformer insulation condition, a series of experiments were performed under controlled laboratory conditions. First, this article presents the frequency domain dielectric response measurement results of oil-paper insulation samples under different moisture contents and aging states, and then the extracted frequency dielectric characteristic parameters determined from the imaginary part of relative permittivity (ϵr′′) and dielectric dissipation factor (tanδ) curves are used to assess the moisture contents and aging states of oil-paper insulation. Finally, the quantitative relationships among dielectric characteristic parameters, moisture content, and degree of polymerization are also established. Results show that in the frequency range of 10–3–102Hz, ϵr′′ and tanδ obviously increase as the moisture content of oil-paper insulation rises, while ϵr′′ and tanδ are very sensitive to aging only in 10–3–10–1Hz. Consequently, ϵr′′ and tanδ in different frequency ranges can be used to distinguish the influences of moisture content and aging state on frequency domain spectroscopy measurement results. [ABSTRACT FROM AUTHOR]

Published

2015

29. Quantitative analysis of insulation condition of oil-paper insulation based on frequency domain spectroscopy.

Author

Liao, Ruijin, Liu, Jiefeng, Yang, Lijun, Wang, Ke, Hao, Jian, Ma, Zhiqin, Gao, Jun, and Lv, Yandong

Subjects

*INSULATING materials, *QUANTITATIVE research, *PARAMETER estimation, *ENERGY dissipation, *POLYMERIZATION, *MOISTURE, *TEMPERATURE measurements

Abstract

In order to distinguish the influences of moisture and aging on the frequency domain dielectric response of oil-paper insulation and better apply frequency domain spectroscopy (FDS) to assess the insulation condition of power transformers, the oil-paper insulation samples with different moisture contents and different aging states were prepared in the laboratory. The FDS of the samples were tested and a group of characteristic parameters were extracted from dissipation factor (tan?) curves which could be used to assess the moisture content and aging states of oil-paper insulation respectively. The quantitative relationship among characteristic parameters, degree of polymerization (DP) and moisture contents (Km.c) was accurately established. The observations show that the proposed characteristic parameters are sensitive to the moisture in 10-3-102Hz, while the aging states influence the characteristic parameters in 10-3-10-1Hz. Meanwhile, an exponential relationship equation which could be used to assess the oil-paper insulation condition was established among the characteristic parameters, DP and the moisture content. Finally, the evaluation technique proposed in this paper was used to diagnose the insulation condition of several field transformers in this way, and its validity was preliminary and reasonably verified. [ABSTRACT FROM AUTHOR]

Published

2015

30. Energy savings and heat efficiency in the paper industry: A case study of a corrugated board machine

Author

Bujak, J.

Subjects

*CORRUGATED paperboard, *ENERGY dissipation, *INDUSTRIAL efficiency, *PAPER mills

Abstract

Abstract: The paper presents the improvement of energy management in a steam system used for corrugated board production. The system consists of a steam boiler (fired with natural gas), steam and condensate pipelines and a corrugated board production installation (steam consumer). In the existing system, the boiler works in unison with an open condensate tank. This tank is responsible for energy losses due to secondary steaming. Therefore, a system of a closed tank has been proposed to eliminate these energy losses. The coefficients of thermal performance and the energy losses in both cases (open and closed tank) are compared. The study shows that the losses of the closed steam system are always lower than those of the open system. The coefficient of performance could be increased by about 8% by the proposed modernization. The recovery of expenses for modernization should be very quick, taking place within a year. [Copyright &y& Elsevier]

Published

2008

31. 基于低频频温平移的变压器油纸绝缘换油老化 寿命预测.

Author

刘骥, 吕佳璐, 张明泽, 池明赫, 贾海峰, 孙宇飞, and 王凡予

Subjects

TRANSFORMER insulation, ENERGY dissipation, DIELECTRIC loss, SMALL molecules, DEGREE of polymerization, FURFURAL, PETROLEUM, GENETIC translation

Abstract

Copyright of Electric Machines & Control / Dianji Yu Kongzhi Xuebao is the property of Electric Machines & Control and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

32. Fatigue damage indicator of different types of reinforcing bars

Author

Koulouris, Konstantinos F. and Apostolopoulos, Charis

Published

2022

33. Response to Maxam and Tamma's discussion (EQE‐18‐0306) to Kolay and Ricles's paper, "Development of a family of unconditionally stable explicit direct integration algorithms with controllable numerical energy dissipation".

Author

Kolay, Chinmoy and Ricles, James M.

Subjects

EARTHQUAKE resistant design, ALGORITHMS, ENERGY dissipation, STABILITY (Mechanics), DISPLACEMENT (Mechanics)

Abstract

Summary: This paper presents the authors' response to the discussion by Dean J. Maxam and Kumar K. Tamma of the paper titled "Development of a family of unconditionally stable explicit direct integration algorithms with controllable numerical energy dissipation." [ABSTRACT FROM AUTHOR]

Published

2019

34. A smart passive MR damper with a hybrid powering system for impact mitigation: An experimental study.

Author

Jin, S., Deng, L., Yang, J., Sun, S., Ning, D., Li, Z., Du, H., and Li, W. H.

Subjects

HYBRID systems, MOLECULAR force constants, ELECTRONIC paper, ENERGY dissipation, ENERGY consumption

Abstract

This paper presents a smart passive MR damper with fast-responsive characteristics for impact mitigation. The hybrid powering system of the MR damper, composed of batteries and self-powering component, enables the damping of the MR damper to be negatively proportional to the impact velocity, which is called rate-dependent softening effect. This effect can keep the damping force as the maximum allowable constant force under different impact speed and thus improve the efficiency of the shock energy mitigation. The structure, prototype and working principle of the new MR damper are presented firstly. Then a vibration platform was used to characterize the dynamic property and the self-powering capability of the new MR damper. The impact mitigation performance of the new MR damper was evaluated using a drop hammer and compared with a passive damper. The comparison results demonstrate that the damping force generated by the new MR damper can be constant over a large range of impact velocity while the passive damper cannot. The special characteristics of the new MR damper can improve its energy dissipation efficiency over a wide range of impact speed and keep occupants and mechanical structures safe. [ABSTRACT FROM AUTHOR]

Published

2021

35. Pseudo-static test research on EBIMFCW with different shear-span ratio

Author

Li, Sheng-cai and Lin, Guo

Published

2020

36. Atomic-scale simulation of hugoniot relations and energy dissipation of polyurea under high-speed shock

Author

Yao, Kaili, Chu, Dongyang, Li, Ting, Liu, Zhanli, Guo, Bao-Hua, Xu, Jun, and Zhuang, Zhuo

Published

2021

37. Cyclic Test of Precast Reinforced Concrete Tessellated Shear Wall.

Author

Crocker, G. F., Ross, B. E., Kleiss, M. C., Okumus, P., and Khorasani, N. E.

Subjects

CYCLIC loads, SHEAR walls, CRACK propagation (Fracture mechanics), ENERGY dissipation, POST-tensioned prestressed concrete, TILES

Abstract

This paper describes the experimental testing of a reinforced concrete tessellated shear wall. The wall specimen was tested as part of a National Science Foundation-funded research project designed to demonstrate the concept of tessellated structural-architectural (TeSA) systems. TeSA systems are constructed of topologically interlocking tiles arranged in tessellations, or repeating geometric patterns. As such, these systems are designed with easy repair and reuse in mind. The specimen discussed in this paper is a TeSA shear wall constructed from individually precast I-shaped tiles. This paper presents the results of reverse cyclic loading of the specimen, including load-displacement behavior, crack propagation, and energy dissipation. A simplified analytical model for predicting the wall's flexural capacity is also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

38. Energy loss mechanism of a full tubular pump under reverse power generation conditions using entropy production theory.

Author

Shi, Lijian, Chen, Yiyu, Yu, Xianlei, Han, Yi, Chai, Yao, and Xue, Muzi

Subjects

PUMP turbines, TURBINE pumps, ENERGY dissipation, TEST methods, ENTROPY

Abstract

This paper investigates the energy dissipation mechanism of the internal flow field of the full tubular pump during reverse power generation and pump conditions, utilizing CFD and model test methods to research the device's hydraulic characteristics, internal flow field and entropy production. The results indicate that the reverse power generation and pump conditions' performance curves have opposite trends. Under PRPG conditions, the flow uniformity and weighted average angle of the impeller inlet flow field are smaller and the inlet flow field is poor. The stator-rotor gap flow under PRPG conditions increases with the increase in total flow, the gap flow under the design flow is 2.88 L/s, and the torque is 7.35 N·m. Under the PRPG condition, the turbulent and wall entropy production ratio increases gradually with the flow increase. Under the design flow rate, the entropy production rate of the impeller is 55.07%, and the entropy production rate of the impeller is the largest among the components under different flow rates. The entropy production of the outlet channel rises significantly with the flow rate. The research results of this paper provide a theoretical basis for the distribution of energy loss in reverse power generation of the full tubular pump. [ABSTRACT FROM AUTHOR]

Published

2024

39. Significant thermal conductivity enhancement in graphene oxide papers modified with alkaline earth metal ions.

Author

Yu, Wei, Xie, Huaqing, Li, Fengxian, Zhao, Junchang, and Zhang, Zhenhai

Subjects

*GRAPHENE oxide, *ALKALINE earth ions, *THERMAL conductivity, *METAL ions, *THERMAL resistance, *THERMAL conductivity measurement, *ENERGY dissipation, *SCANNING electron microscopy

Abstract

The thermal conductivities of graphene oxide paper (GOP) and the alkaline earth metal ions (Mg2+, Ca2+) modified analogues, prepared by a facile vacuum filtration method, were measured by a laser flash method. The thermal conductivities of GOP, Mg-modified GOP, and Ca-modified GOP are 3.91 W/(m × K), 32.05 W/(m × K), and 61.38 W/(m × K), respectively, which indicate the modification of GOP with metal ions has resulted in significant enhancement in thermal conduction properties compared with unmodified GOP. The crosslink between graphene oxide sheet and metal ions, the neat stacking of graphene oxide sheets in modified GOP, together with the intercalation of metal ions into the gallery spaces between the graphene oxide sheet basal planes, result in a decrease of thermal resistance of the boundary and an increase of contact surface, thus increases the thermal conductivity of modified graphene oxide paper. [ABSTRACT FROM AUTHOR]

Published

2013

40. Study on broadband loss characteristics of oil-immersed papers for fast transient modeling of power transformer.

Author

Zheng, Yi-ming and Wang, Zan-ji

Subjects

MINERAL oils, POWER transformers, ENERGY dissipation, DIELECTRIC relaxation, MATHEMATICAL models, ELECTRIC insulators & insulation, PARAMETER estimation

Abstract

In order to complete the broadband simulation model of power transformer, and establish a systematic and complete model for studying fast transient interaction between transformer and power system, the frequency dependent characteristics of dielectric losses in power transformer were investigated. Several typical insulation structures in power transformers were considered and measuring techniques determined to study the dielectric losses. Frequency dependent dielectric losses in the range of 10-107 Hz were measured by a dielectric spectroscopy analyzer produced by Novocontrol. The characteristics of insulating papers and pressboard measured in the air and after immersing in the mineral oil were compared. Based on the dielectric relaxation theory, the number of dielectric relaxation was determined according to the measured data, and four typical model functions were adopted to fit the data and the consistency of fitting by these functions were compared and physical explanations of fitting parameters were described. Finally, a quantitative description of frequency dependent characteristics of insulation losses was proposed for improving the transformer simulation model. [ABSTRACT FROM PUBLISHER]

Published

2013

41. Comments on the paper "On phase-lag Green–Naghdi theory without energy dissipation for electro-thermoelasticity including heat sources, Sayed I. El-Attar, Mohamed H. Hendy, Magdy A. Ezzat, Mechanics Based Design of Structures and Machines, 2019 47(6) 769–786"

Author

Pantokratoras, Asterios

Subjects

*ENERGY dissipation, *MACHINE design, *THERMOELASTICITY

Abstract

Some serious errors exist in the above paper. [ABSTRACT FROM AUTHOR]

Published

2021

42. Computational mechanics of the paddlefish rostrum

Author

Riveros, Guillermo A., Acosta, Felipe J., Patel, Reena R., and Hodo, Wayne

Published

2020

43. Computer-aided design of a dielectric insert supporting uniformity of fast microwave heating

Author

Moon, Ethan M. and Yakovlev, Vadim V.

Published

2018

44. Magnetothermoelastic interactions in non-simple medium with a spherical cavity due to time-harmonic varying heat

Author

Othman, Mohamed I.A. and Abouelregal, Ahmed E.

Published

2019

45. Research on Energy Loss of Optimization of Inducer–Impeller Axial Fit Dimensions Based on Wave-Piercing Theory.

Author

Yang, Zhiqin, Cao, Puyu, Zhang, Jinfeng, Gao, Shuyu, Song, Xinyan, and Zhu, Rui

Subjects

ENERGY dissipation, DRAG coefficient, DRAG reduction, ENERGY density, CAVITATION, IMPELLERS, FLUID-structure interaction

Abstract

With the development of modern fluid machinery, the energy density of pumps is gradually being improved, and at the same time, higher demands are being placed on the cavitation performance, hence the introduction of the inducer and centrifugal impeller to form a dynamic–dynamic series structure. However, there are strict constraints on the axial size of pumps in fields such as firefighting and aerospace. The traditional empirical formula no longer satisfies the need to fit the axial dimensions between the induced wheel and the impeller at high velocities. Therefore, based on the wave-piercing theory, the drag reduction coefficient is introduced to explore the optimal axial fit size from the perspective of energy characteristics. This paper focuses on the influence of the inducer's wake on the energy characteristics of downstream impellers, and conducts the following research: by adjusting the axial matching dimensions between the upstream inducer and the centrifugal impeller in the initial model, ten sets of axial distance models with matching dimensions of KD are designed, and the drag reduction coefficient is embedded to determine the optimal axial distance. The results show that the optimal axial distance is 0.2D, which is far lower than the axial distance value of 0.42D obtained from the traditional empirical formula for axial matching dimensions. Meanwhile, this paper uses tangential velocity, the inlet flow angle of the impeller, entropy production theory, and other indicators to analyze the internal energy loss of the high-speed vehicular fire pumps one by one. All of them confirm that the impeller in the high-speed vehicular fire pump has the lowest energy loss and optimal performance at an axial distance of 0.2D. Specifically, at this axial distance, the head can reach 259 m, and the hydraulic efficiency is as high as 83.62%. Thus, the feasibility of determining the axial placement of the impeller using the drag coefficient is validated. This research provides new insights into determining the axial coordination dimensions between the inducer and the impeller. [ABSTRACT FROM AUTHOR]

Published

2024

46. Non-Intrusive Load Monitoring Based on Multiscale Attention Mechanisms.

Author

Yao, Lei, Wang, Jinhao, and Zhao, Chen

Subjects

ARTIFICIAL neural networks, RECURRENT neural networks, SMART power grids, HOME computer networks, MACHINE learning, SMART homes, ENERGY dissipation

Abstract

With the development of smart grids and new power systems, the combination of non-intrusive load identification technology and smart home technology can provide users with the operating conditions of home appliances and equipment, thus reducing home energy loss and improving users' ability to demand a response. This paper proposes a non-intrusive load decomposition model with a parallel multiscale attention mechanism (PMAM). The model can extract both local and global feature information and fuse it through a parallel multiscale network. This improves the attention mechanism's ability to capture feature information over long time periods. To validate the model's decomposition ability, we combined the PMAM model with four benchmark models: the Long Short-Term Memory (LSTM) recurrent neural network model, the Time Pooling-based Load Disaggregation Model (TPNILM), the Extreme Learning Machine (ELM), and the Load Disaggregation Model without Parallel Multi-scalar Attention Mechanisms (UNPMAM). The model was trained on the publicly available UK-DALE dataset and tested. The models' test results were quantitatively evaluated using a confusion matrix. This involved calculating the F1 score of the load decomposition. A higher F1 score indicates better model decomposition performance. The results indicate that the PMAM model proposed in this paper maintains an F1 score above 0.9 for the decomposition of three types of electrical equipment under the same household user, which is 3% higher than that of the other benchmark models on average. In the cross-household test, the PMAM also demonstrated a better decomposition ability, with the F1 score maintained above 0.85, and the mean absolute error (MAE) decreased by 5.3% on average compared with that of the UNPMAM. [ABSTRACT FROM AUTHOR]

Published

2024

47. Energy dissipation characteristics of additively manufactured CNT/ABS nanocomposites

Author

Gardea, Frank, Cole, Daniel P., Glaz, Bryan, and Riddick, Jaret C.

Published

2020

48. Technical Papers: Vibration Characteristics of Sandwich Beams with Steel Skins and Magnetorheological Elastomer Cores.

Author

Choi, W.J., Xiong, Y.P., and Shenoi, R.A.

Subjects

*MAGNETORHEOLOGICAL fluids, *ELASTOMERS, *VIBRATION (Mechanics), *CONCRETE beams, *ENERGY dissipation, *MAGNETIC fields

Abstract

Magnetorheological elastomer (MRE) cored sandwich beams with steel skins offer potentially advantageous features when used in the context of structural dynamics. Modelling of the dynamic behaviour is undertaken in this investigation by adopting a higher order sandwich beam theory. Frequency responses from the theoretical modelling are compared with experimental results on MRE cored sandwich beams. The experimental responses are generated from a specially designed test rig to study dynamic behaviour, damping effects, localised magnetic field effects and energy dissipation with varying topology. A numerically based parametric study is conducted to find the optimum geometry for skins and core material to enhance damping performance. Under the same magnetic field strength, sandwich beams with thinner skins and thicker MRE core dissapate more vibration energy. Correlation between the experimental results and numerical studies has been found to be reasonably good. [ABSTRACT FROM AUTHOR]

Published

2010

49. Water in Oil-Filled High-Voltage Equipment Part II: Water Content as Physicochemical Tools for Insulation Condition Diagnostic.

Author

Arakelian, V. G. and Fofana, I.

Subjects

ENERGY dissipation, FORCE & energy, INSULATING oils, INSULATING paper, MINERAL oils, INSULATING materials, DIELECTRICS, SPECTRAL sensitivity, HIGH voltages

Abstract

The article presents the second of a two-part article, which shows that the dissipation factor decreases, and the electric strength increases, in stages when transformer oils are vacuum dried. These stages correspond to the removal of emulsion water, dissolved water, and physically bound water. Different techniques to measure the water content in oils are discussed along with their sensitivity to the different states of water in the oil. Finally, the authors develop expressions for the water content of the paper insulation and the oil at different temperatures, and they use water content as a diagnostic tool and develop equations for the residual of life transformer insulation.

Published

2007

50. Research on the Performance of a Novel Magnetorheological Damper for Mining.

Author

Wang, Xiao, Chen, Fei, Li, Aimin, and Sun, Nana

Subjects

MAGNETORHEOLOGICAL dampers, SHALE shakers, ENERGY dissipation, DYNAMIC simulation, JOB performance

Abstract

Backgrounds: In this paper, a kind of mining MR damper with shear and valve working mode is designed. Compared with the traditional damper, this MR damper has better energy dissipation characteristics and can provide greater damping force in a short time. Its damping can be adjusted with the excitation current. Purposes: The aim of the present paper is to analyze and study the performance of this novel mining MR damper and test the working performance and feasibility of this MR damper. Methods: Optimizing and establishing a Simulink dynamic simulation model based on Bingham model and testing the performance parameters of the MR damper. The vibration mitigation experiment of mining vibrating screen based on spring damper is designed. Results: This paper compares the experimental and simulation results and found that the error of the maximum damping force shall not exceed 3%.Compared with traditional metal spring and ROSTA spring, the MR damper can reduce the downtime of the vibrating screen by more than 80%. Conclusions: From the results, the present paper provides theoretical basis for the performance test of the damper. The excitation current is the main factor affecting the maximum damping force of the MR damper. The correlation between the excitation current and the maximum damping force is more than 90%. MR damper can not only effectively avoid the resonance of the vibrating screen, but also will not affect the stable amplitude of the vibrating screen when it works, and can also greatly reduce the downtime of the vibrating screen. [ABSTRACT FROM AUTHOR]

Published

2023