Your search keyword '"ELECTRIC transformers"' showing total 54,948 results

1. BERT-like pre-training for symbolic piano music classification tasks

Author

Chou, Yi-Hui, Chen, I-Chun, Chang, Chin-Jui, Ching, Joann, and Yang, Yi-Hsuan

Published

2024

2. Cable and Power

Author

Liles, Bennett

Subjects

Electric transformers, Arts and entertainment industries, Business, Electronics and electrical industries

Abstract

The AtlasIED AP Series of IP addressable power conditioners utilize advanced power management, distribution, and monitoring to safeguard connected equipment from RF Interference and unstable AC voltage. Each of the [...]

Published

2024

3. Transfer of learning in convolutional neural networks for thermal image classification in Electrical Transformer Rooms.

Author

Elgohary, Abdallah A., Badr, Mohamed M., Elmalhy, Noha A., Hamdy, Ragi A., Ahmed, Shehab, and Mordi, Ahmed A.

Subjects

CONVOLUTIONAL neural networks, IMAGE recognition (Computer vision), THERMOGRAPHY, ELECTRIC transformers, DEEP learning

Abstract

Overheating of power transformers, low-voltage panels, and medium-voltage components in Electric Transformer Rooms (ETRs) can result from various factors, such as contact issues, irregular loads, and other similar problems. Thermal imaging shows significant potential for detecting faults in power equipment. However, its effectiveness is hindered by the complex thermal patterns of faults and variability in equipment and environmental conditions, making accurate fault detection challenging. This paper aims to study the effectiveness of transfer learning architectures for automating equipment classification in ETRs. This work applies four transfer learning architectures: AlexNet, SqueezeNet, VGG19, and GoogLeNet. The findings of the testing phase demonstrated that the use of transfer learning by fine-tuning pre-trained convolutional neural networks was highly effective in the classification of thermal images captured from ETRs, with the models achieving accuracy rates between 86.98% and 100%, and F 1 -Scores between 86.79% and 100%. [Display omitted] • Transfer learning is applied to automate the classification of thermal images of equipment in ETRs. • A thermal imaging dataset is set up and augmented to improve the generalization abilities of proposed models. • Establish standard comparisons among four transfer learning architectures. [ABSTRACT FROM AUTHOR]

Published

2024

4. A semi‐automatic analytical methodology for characterizing the energy consumption of MRI systems using load duration curves.

Author

Hernandez, Andrew M., Alizadeh, Ramsey, Ghatpande, Omkar, Van Sant, Amy, and Jung, Youngkyoo

Subjects

*GREENHOUSE gases, *MAGNETIC resonance imaging, *ELECTRIC transformers, *VOLTAGE references, *SCANNING systems

Abstract

Background and purpose: Magnetic resonance imaging (MRI) scanners are a major contributor to greenhouse gas emissions from the healthcare sector, and efforts to improve energy efficiency and reduce energy consumption rely on quantification of the characteristics of energy consumption. The purpose of this work was to develop a semi‐automatic analytical methodology for the characterization of the energy consumption of MRI systems using only the load duration curve (LDC). LDCs are a fundamental tool used across various fields to analyze and understand the behavior of loads over time. Methods: An electric current transformer sensor and data logger were installed on two 3T MRI scanners from two vendors, termed M1 (outpatient scanner) and M2 (inpatient/emergency scanner). Data was collected for 1 month (7/11/2023 to 8/11/2023). Active power was calculated, assuming a balanced three‐phase system, using the average current measured across all three phases, a 480 V reference voltage for both machines, and vendor‐provided power factors. An LDC was constructed for each system by sorting the active power values in descending order and computing the cumulative time (in units of percentage) for each data point. The first derivative of the LDC was then computed (LDC'), smoothed by convolution with a window function (sLDC'), and used to detect transitions between different system modes including (in descending power levels): scan, prepared‐to‐scan, idle, low‐power, and off. The final, segmented LDC was used to measure time (% total time), total energy (kWh), and mean power (kW) for each system mode on both scanners. The method was validated by comparing mean power values, computed using the segmented 1‐month LDC, for each nonproductive system mode (i.e., prepared‐to‐scan, idle, lower‐power, and off) against power levels measured after a deliberate system shutdown was performed for each scanner (1 day worth of data). Results: The validation revealed differences in mean power values <1.4% for all nonproductive modes and both scanners. In the scan system mode, the mean power values ranged from 29.8 to 37.2 kW and the total energy consumed for 1 month ranged from 11 106 to 14 466 kWh depending on the scanner. Over the course of 1 month, the portion of time the scanners were in nonproductive modes ranged from 76% to 80% across scanners and the nonproductive energy consumption ranged from 8010 to 6722 kWh depending on the scanner. The M1 (outpatient) scanner consumed 99.9 and 183.9 kWh/day in idle mode for weekdays and weekends, respectively, because the scanner spent 23% more time proportionally in idle mode on the weekends. Conclusions: A semi‐automatic method for quantifying energy consumption characteristics of MRI scanners was introduced and validated. This method is relatively simple to implement as it requires only power data from the scanners and avoids the technical challenges associated with extracting and processing scanner log files. The methodology enables quantitative evaluation of the power, time, and energy characteristics of MRI scanners in scan and nonproductive system modes, providing baseline data and the capability of identifying potential opportunities for enhancing the energy efficiency of MRI scanners. [ABSTRACT FROM AUTHOR]

Published

2024

5. Enhanced Transformer Overcurrent Protection via Oil Temperature Acceleration.

Author

Liu, Qingguo, Mei, Nuonan, Wang, Zheng, Sun, Jiahang, and Zhou, Shanshan

Subjects

*INSULATING oils, *OVERCURRENT protection, *BASE oils, *MATHEMATICAL models, *PETROLEUM, *CURRENT transformers (Instrument transformer), *ELECTRIC transformers

Abstract

When a transformer is in a long-term heavy load operation state, the oil temperature reaches the alarm temperature; if a slight fault occurs inside the transformer, traditional inverse time current protection and other protections that react to phase current may not operate due to insufficient sensitivity or they may operate for too long. Based on this, this article proposes a new principle of accelerating inverse time overcurrent protection based on transformer oil temperature. The proposed method uses transformer oil temperature to accelerate the action time of traditional inverse-time overcurrent protection, then introduces the transformer oil temperature factor and acceleration index to optimize the inverse time characteristic curve, and establishes a mathematical model to optimize the adjustment for the complexity of adjustment of the protection action equation and the risk of mismatch of the protection after the acceleration of oil temperature. The existing theoretical analysis and simulation verification results show that the proposed new overcurrent protection scheme based on the transformer oil temperature acceleration inverse time can effectively improve the protection of the rapidity and sensitivity, providing a new research idea for the combination of non-electrical and electrical quantity protection. [ABSTRACT FROM AUTHOR]

Published

2024

6. Assessment of Systematic Errors in Mapping Electricity Access Using Night-Time Lights: A Case Study of Rwanda and Kenya.

Author

Raji, Tunmise, Taneja, Jay, and Williams, Nathaniel

Subjects

*ELECTRIC transformers, *ELECTRIC meters, *ELECTRICITY power meters, *ELECTRIFICATION, *ELECTRIC power consumption

Abstract

Remotely sensed nighttime light data have become vital for electrification mapping in data-scarce regions. However, uncertainty persists regarding the veracity of these electrification maps. This study investigates how characteristics of electrified areas influence their detectability using nighttime lights. Utilizing a dataset comprising the locations, installation date, and electricity purchase history of thousands of electric meters and transformers from utilities in Rwanda and Kenya, we present a systematic error assessment of electrification maps produced with nighttime lights. Descriptive analysis is employed to offer empirical evidence that the likelihood of successfully identifying an electrified nighttime light pixel increases as characteristics including the time since electrification, the number of meters within a pixel, and the total annual electricity purchase of meters in a pixel increase. The performance of models trained on various temporal aggregations of nighttime light data (annual, quarterly, monthly, and daily) was compared, and it was determined that aggregation at the monthly level yielded the best results. Additionally, we investigate the transferability of electrification models across locations. Our findings reveal that models trained on data from Rwanda demonstrate strong transferability to Kenya, and vice versa, as indicated by balanced accuracies differing by less than 5% when additional data from the test location are included in the training set. Also, models developed with data from the centralized grid in East Africa were found to be useful for detecting areas electrified with off-grid systems in West Africa. This research provides valuable insight into the characterization of sources of nighttime lights and their utility for mapping electrification. [ABSTRACT FROM AUTHOR]

Published

2024

7. Modelling and analysis of voltage balancing topology for series-connected supercapacitor energy storage system.

Author

Satya Veerendra, Arigela, Rusllim Mohamed, Mohd, and Punya Sekhar, Chavali

Subjects

*ENERGY storage, *PULSE width modulation, *HYBRID electric vehicles, *ELECTRIC transformers, *METAL oxide semiconductor field-effect transistors

Abstract

This paper proposes a forward conversion topology using a multi-winding transformer known as global modular balancing (GMB) for multiple supercapacitor cells connected in a series of high-voltage applications. The proposed topology can easily be modularized and is not limited to the number of supercapacitors existing in the modules. Moreover, the proposed GMB needs merely one MOSFET switch for each supercapacitor, and a one Pulse width modulation circuit that can control all the switches in the modules. Furthermore, the proposed topology is employed to achieve voltage balancing in a supercapacitor string. The proposed topology balancing performance is validated through MATLAB/Simulink Software. [ABSTRACT FROM AUTHOR]

Published

2024

8. Investigating the principle and application of high-frequency and high-voltage pulse AC equipment for oil–water separation of heavy crude oil.

Author

Huang, Songtao, Fan, Cong, Wan, Qiufen, Li, Wei, He, Xue, Chen, Jiaqing, Jiao, Xiangdong, and Wang, Jige

Subjects

*HEAVY oil, *PETROLEUM, *POWER resources, *ELECTRIC transformers, *CRITICAL currents

Abstract

AbstractTo address the challenges of oil–water separation encountered during the processing of heavy crude oil, this study meticulously examines the kinetics of demulsification under an electric field. Consequently, a cutting-edge high-frequency/high-voltage AC pulsed power supply has been innovatively developed. This device boasts a flexible voltage-adjustment mechanism, strategically enhancing the inverter output voltage incrementally throughout the pulse’s duration. This method effectively reduces the negative impact of current surges on the operational stability of crude oil desalination plants, especially during the commutation periods of the switching devices. Furthermore, it resolves the issue of premature power supply shutdowns to the desalination plant, caused by peak currents misinterpreted as critical short-circuit currents leading to pole plate breakdowns. An industrial application study conducted at Shandong Chambroad Petrochemicals Co., Ltd. Under identical operational conditions, the power supply designed in this research outperforms traditional electrical desalting transformers in several key aspects. These include a notably enhanced oil–water separation capability and significantly more stable performance. Remarkably, the desalting efficiency shows substantial improvement even at increased feed rates, under constant other conditions. The experimental findings indicate that the average rates of desalination and dehydration achieved by this power supply exceed 90%. Moreover, even when the feed rate is augmented by approximately 75% under constant operating conditions, the desalination efficiency remains 78.49% higher than that achieved by standard industrial frequency electric desalination transformers. Additionally, the desalting outcomes are predominantly unaffected by fluctuations in the initial salt content of the feedstock, demonstrating the robustness of the developed solution. [ABSTRACT FROM AUTHOR]

Published

2024

9. Design and Testing Small Printed Antennas as Internal UHF Sensors of Partial Discharge for High Voltage Transformers.

Author

Zidny, Irfan, Balali, Behnam, Kuhnke, Moritz, Werle, Peter, and Suwarno

Subjects

*ANTENNAS (Electronics), *POWER transformers, *ELECTRIC transformers, *UHF antennas, *IMPEDANCE matching

Abstract

Power transformers are crucial and require continuous monitoring to prevent failures. Partial discharge (PD), a significant phenomenon, emits electromagnetic waves, acoustic waves, and light, and causes chemical decomposition of insulation materials. Current technology allows a real-time PD monitoring using the Ultra-High Frequency (UHF) method. This contribution aims to design a small printed antenna for internal UHF sensing within the transformer tank, using low-cost Printed Circuit Board (PCB) materials. A printed antenna less than 4 cm x 4 cm was designed and optimized through parameter sweeps to achieve a proper return loss below 1 GHz. Impedance matching is important to achieve an appropriate return loss, and smaller antennas face high impedance mismatching challenges. Adding a resistive loading can solve the impedance mismatching. To study the impact of the transformer tank model as a cavity resonator on the impedance matching of the printed antenna, the antenna was inserted into the tank model through different valves, and the return loss measurement was conducted. Furthermore, a frequency analysis was performed using a spectrum analyzer to identify the optimal frequency range for PD detection, ensuring a high signal-to-noise ratio. Validation of the performance of printed the antenna in PD detection for different PD models was done through a comparison of the Phase-Resolved Partial Discharge (PRPD) patterns obtained through conventional electrical PD measurements according to IEC 60270 and acquired by the printed antenna using the UHF method. This study demonstrates the feasibility of using a small printed antenna for real-time PD monitoring in high-voltage transformers. [ABSTRACT FROM AUTHOR]

Published

2024

10. Dynamic Harmonic Distortion Analysis and Mitigation Strategies for DC Third Rail Systems.

Author

Hoo, Dick Sang, Chua, Kein Huat, Lim, Yun Seng, Wang, Li, and Rajasekar, N.

Subjects

HARMONIC suppression filters, ELECTRIC transformers, POWER resources, ELECTRIC motors, JOINT use of railroad facilities

Abstract

Harmonic distortions in DC third rail systems can cause overheating of electric motors and transformers. Single-tuned filters and shunt active harmonic filters (SAHFs) are often used to mitigate the harmonic distortions. However, there is a lack of studies on the effects of train dynamics on harmonic distortions. This paper aims to investigate the influence of dynamic train behaviors for a DC third rail system and provide recommendations for the design of single-tuned filters and SAHFs to mitigate the harmonic distortions. The traction power supply system of a DC third rail system in Malaysia is modeled using ETAP-eTraX and MATLAB-Simulink software for the investigation. The ETAP-eTraX software is used to accurately compute the dynamic behavior of the train, while MATLAB-Simulink allows for the assessment of the impact of train behavior on the rail track, as well as the harmonic effect of the railway power network on the train. The findings showed that the SAHF exhibits strong adaptability and superior filtering performance compared to the single-tuned filter in addressing dynamic harmonic distortion in traction power supply systems. This study emphasizes the significance of incorporating harmonic mitigation devices, particularly for managing dynamic harmonic distortion based on actual train consumption patterns. [ABSTRACT FROM AUTHOR]

Published

2024

11. Investigation of the influence of mechanical milling on magnetic properties of Fe powders.

Author

Provazkova, Livia, Reiffers, Marian, Rudeichuk, Tetiana, and Oleksakova, Denisa

Subjects

IMPLEMENTS, utensils, etc., ARCHITECTURE & energy conservation, MAGNETIC materials, ELECTRIC transformers, MAGNETOMETERS

Abstract

Nowadays, there is a global search for electromagnetic gadgets that are affordable, eco-friendly, and energyefficient. This motivates engineers and scientists to develop new materials or enhance those that already exist. Fe-based soft magnetic materials are a significant class of soft magnetic materials that are essential to many energy-related industrial applications, including motors, converters, and electric transformers. This article focuses on the general characterization of magnetic materials, their magnetic properties and the analysis of the influence of mechanical milling of Fe powders prepared by mechanical milling in two different sizes (sample 1 - smaller then < 400 µm and sample 2 greater than > 400 µm). The experimentally obtained hysterical curves of ground Fe powders are measured using the Vibratimg Sample Magnetometer (VSM). [ABSTRACT FROM AUTHOR]

Published

2024

12. X-Model4Rec: An Extensible Recommender Model Based on the User's Dynamic Taste Profile.

Author

de Azambuja, Rogério Xavier, Morais, A. Jorge, and Filipe, Vítor

Subjects

HEURISTIC, ARCHITECTURE, NEURAL circuitry, ELECTRIC transformers, COMPUTER users

Abstract

Several approaches have been proposed to obtain successful models to solve complex next-item recommendation problem in non-prohibitive computational time, such as by using heuristics, designing architectures, and applying information filtering techniques. In the current technological scenario of artificial intelligence, sequential recommender systems have been gaining attention and they are a highly demanding research area, especially using deep learning in their development. Our research focuses on an efficient and practical model for managing sequential session-based recommendations of specific products for users using the wine and movie domains as case studies. Through an innovative recommender model called X-Model4Rec – eXtensible Model for Recommendation, we explore the user's dynamic taste profile using architectures with transformer and multi-head attention mechanisms to solve the next-item recommendation problem. The performance of the proposed model is compared to that of classical and baseline recommender models on two real-world datasets of wines and movies, and the results are better for most of the evaluation metrics. [ABSTRACT FROM AUTHOR]

Published

2024

13. 虚实特征融合与数据-机理驱动的变压器 绕组小样本故障诊断.

Author

段嘉珺, 吴晓欣, 何怡刚, 宋文斌, and 殷奕恒

Abstract

Copyright of Electric Power Automation Equipment / Dianli Zidonghua Shebei is the property of Electric Power Automation Equipment Press 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

2024

14. Optimal Reactive Power Dispatch and Demand Response in Electricity Market Using Multi-Objective Grasshopper Optimization Algorithm.

Author

Das, Punam, Dawn, Subhojit, Gope, Sadhan, Das, Diptanu, and Salata, Ferdinando

Subjects

OPTIMIZATION algorithms, ENERGY industries, ELECTRICITY markets, ELECTRIC transformers, ENERGY consumption

Abstract

Optimal Reactive Power Dispatch (ORPD) is a power system optimization tool that modifies system control variables such as bus voltage and transformer tap settings, and it compensates devices' Volt Ampere Reactive (VAR) output. It is used to decrease real power loss, enhance the voltage profile, and promote stability. Furthermore, several issues have been faced in electricity markets, such as price volatility, transmission line congestion, and an increase in the cost of electricity during peak hours. Programs such as demand response (DR) provide system operators with more control over how small customers participate in lowering peak-hour energy prices and demand. This paper presents an extensive study on ORPD methodologies and DR programs for lowering voltage deviation, limiting cost, and minimizing power losses to create effective and economical operations systems. The main objectives of this work are to minimize costs and losses in the system and reduce voltage variation. The Grasshopper Optimization Algorithm (GOA) and Dragonfly Algorithm (DA) have been implemented successfully to solve this problem. The proposed technique has been evaluated by using the IEEE-30 bus system. The results obtained by the implementation of demand response systems show a considerable reduction in costs and load demands that benefit consumers through DR considerations. The results obtained from the GOA and DA are compared with those generated by other researchers and published in the literature to ascertain the algorithm's efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

15. Energy production in tollgates by the utilization of uni-directional speed breakers.

Author

Kumar, Ashok, Devi, Geetha, Veeramani, Kanpur Rani, and Ponraj, Ranjana

Subjects

*ELECTRIC transformers, *ELECTRICAL energy, *MECHANICAL energy, *ELECTRIC power distribution grids, *ENERGY consumption

Abstract

Tollgates are part of our life. There are hundreds of cars passing by a tollgate in a day. The main objective of the project is to bring innovation in tollgates and produce energy, utilize them for other beneficial purpose. The innovation done here is the introduction of Uni-directional speed breakers, these breakers when rotated are connected to certain components which convert the mechanical rotational energy into electrical energy. The electrical energy thus produced is either stepped up by using a transformer and fed to the electric grid or is used up by the working stations near the tollgate. This project also helps in the harnessing in the waste energy.it meets up with the energy demand of the nation as the need for it keep on increasing on daily basis. [ABSTRACT FROM AUTHOR]

Published

2024

16. Transforming the power of load balancing: Mitigating transformer losses in electric power distribution systems.

Author

Utomo, Restu Mukti, Muslimin, Alham, Nur Rani, Kurniawan, Ade, Afandi, Muhammad Jurdun Nur, and Al-Afifi, Umar Faruq

Subjects

*ELECTRIC loss in electric power systems, *ELECTRIC power distribution grids, *ELECTRIC transformers, *IMPACT loads, *CURRENT transformers (Instrument transformer), *ELECTRICAL load

Abstract

This article examines the issue of load imbalance in electric power distribution systems, which leads to current flow in the neutral conductor of transformers. The study aims to investigate the impact of load imbalance on neutral current and losses in the transformer. The analysis reveals that a load imbalance of 24% during the day results in a large neutral current of 109 A and increased losses due to neutral current flowing to the ground (8.47%). The findings highlight the significance of load balancing in reducing losses and improving the efficiency of electric power distribution systems. The study provides insights for researchers and practitioners to develop strategies for load balancing to mitigate the effects of load imbalance on transformer losses. [ABSTRACT FROM AUTHOR]

Published

2024

17. Common Distribution System Upgrades, Part II: In part II of this series on the customer DER interconnection process, Ameren Illinois looks at reverse power flow

Author

Barnes, Brad and Creighton, Eddie

Subjects

Ameren Illinois Co. -- International economic relations, Electric utilities -- International economic relations, Electric transformers, Electronics and electrical industries

Abstract

In the March 2024 issue of T&D World, Ameren Illinois shared valuable lessons learned from its distribution energy resources enablement (see Consider A Customer DER Interconnection Process article). One takeaway [...]

Published

2024

18. HOW RADAR WAS INVENTED: The scientific discoveries and mechanical milestones that led to the creation of one of the world's most revolutionary technologies

Author

Dutfield, Scott

Subjects

Electromagnetic waves, Electric transformers, Physicists, Electromagnetic radiation, Radar systems, Electromagnetism, Magnetic fields, Electric waves, Science and technology

Abstract

FINDING RADIO WAVES 1865 In the late 1800s, German physicist Heinrich Hertz made a discovery that would change the world forever. Before Hertz' discovery, Scottish physicist James Clerk Maxwell had [...]

Published

2024

19. Transformers: The Hidden Gem

Author

Wenocur, Eric

Subjects

Electric transformers, Electrical wire, Insulated, Arts and entertainment industries, Business, Electronics and electrical industries

Abstract

What common electronic device can be used to raise or lower AC voltages, block DC voltage, remove noise, and is completely passive? Get to know the transformer, a gadget as [...]

Published

2024

20. A novel ZVS full-bridge cascaded step-up DC-DC converter with resonant auxiliary circuit for high voltage-gain applications.

Author

Hossain, M. Zakir, Selvaraj, Jeyraj A/L, and Rahim, N. A.

Subjects

*DC-to-DC converters, *HIGH voltages, *ZERO voltage switching, *ELECTRIC transformers, *VOLTAGE multipliers

Abstract

High conversion ratio dc-dc converters have received significant attention in renewable energy systems, primarily due to their necessary high-gain characteristics. This research proposes a high step-up ratio full-bridge resonant cascaded (FBRC) dc-dc converter designed for use in photovoltaics (PV), fuel cells (FC), electric vehicles (EV), and other low-voltage output energy sectors to achieve high voltage gain. This converter contains a full-bridge cell with a boost input inductor, a diode-capacitor cascaded stage that replaces the transformer as a voltage multiplier and an inductor-capacitor (LC) parallel-series resonant network across the FB terminal. One of the strategic features of the converter is its high voltage step-up characteristic combined with lower duty cycle operation that limits the maximum current through the active devices, making it particularly suitable for systems that generate low output voltage. In addition, zero-voltage switching (ZVS) is achieved during the turn-off and turn-on operation of the FB switches from 25% to full load, thereby lessening the switching losses. Moreover, the diminished necessity for passive components and the decreased voltage stress on both active and passive devices lead to the use of smaller and more cost-effective components. The theoretical analysis of the proposed converter is validated using a 500 W laboratory-scale prototype wherein high-performance SiC-based MOSFETs have been utilized as switching devices. It offers reduced ripples, with input current ripple at 5% and output voltage ripple at 0.76%. When the load is 400 W and 60 V as the input voltage, the maximum efficiency is found 95.8% at 400 V output voltage. The proposed dc-dc converter, with its high voltage gain and reduced component stress, shows significant promise for application in renewable energy systems. [ABSTRACT FROM AUTHOR]

Published

2024

21. A Grid-Forming Converter with MVDC Supply and Integrated Step-Down Transformer: Modeling, Control Perspectives, and Control Hardware-in-the-Loop (C-HIL) Verification.

Author

Golestan, Saeed, Barrios, Manuel, Golmohamadi, Hessam, Iov, Florin, Bak-Jensen, Birgitte, and Monfared, Mohammad

Subjects

ELECTRIC power, ELECTRIC transformers, VOLTAGE control, ALTERNATING currents, IDEAL sources (Electric circuits)

Abstract

A grid-forming voltage source converter with an integrated step-down transformer could be a promising solution for supplying low-voltage alternating current loads from a medium-voltage direct current supply. However, it may require a control system that gathers feedback signals from both the primary and secondary sides of the transformer, which in turn complicates the derivation of a standard form linear model. The absence of such a model complicates control tuning, as well as the assessment of dynamics and stability of the converter system. The objective of this paper is to address this gap in knowledge. For the case study, a conventional H-bridge converter with a step-down transformer and an α β -frame dual-loop grid-forming controller is considered. Initially, comprehensive guidelines on deriving a standard form linear model for this converter system are presented. Then, the impact of controlling the VSC in a d q frame and the changes in the transformer vector group on the small-signal model of the VSC are analyzed. The aspects of control tuning are also discussed in detail, and the model's accuracy and efficacy are validated both theoretically and through control hardware-in-the-loop (C-HIL) tests using a Typhoon HIL setup. [ABSTRACT FROM AUTHOR]

Published

2024

22. Vibration and noise mechanism of a 110 kV transformer under DC bias based on finite element method.

Author

Ziyang Li, Xujun Lang, Bo Yang, Xiaolin Liu, Hao Wang, and Zhang Li

Subjects

*VIBRATION (Aeronautics), *FINITE element method, *ELECTRIC transformers, *ELECTROMAGNETISM, *MAGNETIC flux

Abstract

Global energy and environmental issues are becoming increasingly problematic, and the vibration and noise problem of 110 kV transformers, which are the most widely distributed, have attracted widespread attention from both inside and outside the industry. DC bias is one of the main contributing factors to vibration noise during the normal operation of transformers. To clarify the vibration and noise mechanism of a 110 kV transformer under a DC bias, a multi-field coupling model of a 110 kV transformer was established using the finite element method. The electromagnetic, vibration, and noise characteristics during the DC bias process were compared and quantified through field circuit coupling in parallel with the power frequency of AC, harmonic, and DC power sources. It was found that a DC bias can cause significant distortions in the magnetic flux density, force, and displacement distributions of the core and winding. The contributions of the DC bias effect to the core and winding are different at Kdc=0.85. At this point, the core approached saturation, and the increase in the core force and displacement slowed. However, the saturation of the core increased the leakage flux, and the stress and displacement of the winding increased faster. The sound field distribution characteristics of the 110 kV transformer under a DC bias are related to the force characteristics. When the DC bias coefficient was 1.25, the noise sound pressure level reached 73.6 dB. [ABSTRACT FROM AUTHOR]

Published

2024

23. Subharmonic ferroresonance mitigation in capacitive voltage transformer using meminductor.

Author

Poornima, S.

Subjects

*RESONANT vibration, *NONLINEAR oscillations, *GLOW discharges, *ELECTRIC transformers, *ELECTRIC discharges, *OVERVOLTAGE

Abstract

The nonlinear resonance between the saturated inductance of a transformer and capacitance of the switching device in a substation induces overvoltages and overcurrents. The voltage transformer experience 2–4 pu overvoltages due to the different modes of nonlinear resonance. Though many overvoltage suppression circuits are being proposed, the transformer does not have a single suppression circuit against all modes. A memristor-based suppression circuit has been proposed already for the fundamental (periodic) mode of ferroresonance. In this paper, an aperiodic mode of ferroresonance has been addressed with same memristive circuit along with meminductive circuit. A subharmonic mode of ferroresonance overvoltage of 3.13 pu has been induced in a (400 kV/ √ 3 )/(110 V/ √ 3 ) CVT model according to IEC 61869 -5 standards. The primary current got increased from 23.3 mA to 1.56 A and has subharmonic frequency components. A meminductor circuit is proposed as a suppression circuit against ferroresonance for a Substation CVT. A gas discharge lamp T8 Philips 18 W with low-frequency magnetic ballast emulated peculiar pinched hysteretic characteristics of a memristor. The relation between charge and flux termed as memristance of the memristor circuit is used to mitigate the nonlinear resonance oscillations. A mutator circuit for mitigation requirement has been connected to the lamp model to emulate meminductor characteristics. The mitigation performance shows that the meminductor circuit dominantly recovers the secondary voltage of CVT in 0.188 s with a reduction of 1/3rd, 1/5th, and 1/7th harmonic components by 35.4%, 78.15%, and 90.41%, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

24. The Influence of Non-Sinusoidal Power Supply on Single-Phase Transformer Performance.

Author

Al-Yozbaky, Omar Sh. and Othman, Raghad Adeeb

Subjects

FLUORESCENT lamps, ELECTRIC transformers, POWER resources, MOTOR drives (Electric motors), ELECTRIC motors

Abstract

Electrical transformers are generally designed to operate from sinusoidal sources. However, increased use of nonlinear loads, such as electric motor drives, lighting, fluorescent lamps, rectifiers, and computers, which generate high values of harmonics, makes this transformer operate in the nonlinear region. This paper discusses and focuses on the effect of the characteristics of a single-phase transformer when it is operated from a non-sinusoidal source with a non-linear load. An experimental 1 kVA single-phase transformer with a voltage of 220V and frequency of 50Hz with linear and nonlinear loads was considered. The results of this investigation show the losses increased by 25% when the transformer was fed from a sinusoidal power supply and the load was non-linear. In addition, the losses and THD for the current reached 40% and 12.4%, respectively, at nearfull load when the transformer was fed from a non-sinusoidal power supply and non-linear loads. The correlation between total harmonic distortion (THD) and these types of power supplies and loads was illustrated. The results showed that increasing the current harmonic distortion will lead to increased transformer losses and thus reduce their life expectancy. [ABSTRACT FROM AUTHOR]

Published

2024

25. Application of Cluster Technique for Loss Estimation in Distribution Feeders via Limited Measurement Data.

Author

Aazami, R., Jabbar, A. Kareem, and Shirkhani, M.

Subjects

POWER factor measurement, ELECTRIC power distribution, ELECTRIC transformers, EVOLUTIONARY algorithms, ITERATIVE methods (Mathematics)

Abstract

To calculate the losses of distribution feeders, this paper uses an iterative method that is limited to restricted measurements. The approach presented in this paper uses bill data in addition to output information from a very small number of real-time measurements located on the secondary side of distribution transformers. This method attempts to estimate the load of distribution transformers injected into LV feeders. Energy losses for LV feeders are evaluated by first estimating the power and periodic energy injected to each of the LV feeders and then subtracting the total consumption bills from these estimated values. By using this method, the amount of energy loss is estimated. In this article, a new method called iterative power factor adjustment method is considered as a potential method for estimating losses. The power factor can be increased by repeatedly using evolutionary algorithms and including capacitors in the system. In order to reduce system losses and increase network effectiveness. In this paper, a new method for examining and evaluating Non-Technical Losses (NTL) is proposed. This method considers load estimation and limited measurement to place high priority feeders. [ABSTRACT FROM AUTHOR]

Published

2024

26. Controlling Output Power to Enhance the Investment Efficiency of Wind Farms by Maximizing the Capacity of Transmission Transformers and Integrating Energy Storage Systems.

Author

Truong Viet Anh, Nguyen Tung Linh, and Dinh Ngoc Sang

Subjects

ENERGY industries, ENERGY storage, WIND power plants, ELECTRIC transformers, ELECTRIC power production, WIND power

Abstract

This study addresses inherent challenges stemming from uncertainty associated with the integration of wind energy into the electricity market. A novel approach is proposed to leverage the capabilities of dynamic transformers to optimize the utilization of uncertain wind power output, thereby enhancing financial investment efficiency for wind power stakeholders. The flexible combination of wind turbines (WTB), transmission transformers (TTS), and Energy Storage Systems (ESS) can actively reserve or provision electricity. Electricity generation control is based on optimal analysis results using linear integer programming algorithms that consider temperature fluctuations, lifespan of transformers, and electricity market prices. Maximizing the dynamic transformer's efficiency as proposed and optimizing revenue and costs from the fluctuating wind power output significantly improves financial performance metrics when investing in wind farm projects. Financial figures highlighted in the paper emphasize notable benefits, particularly for wind farm expansion projects. The potential return on investment ratio is expected to increase up to 5.64 times compared to conventional wind farm investment scenarios, with an improvement to increase from 4.4% to 24.8%. [ABSTRACT FROM AUTHOR]

Published

2024

27. Dissolved gas analysis based fuzzy logic feamework for power transformer asset management.

Author

Aliyev, Tural, Ibrahimov, Jalal, Qracova, Shahla, and Isgandarova, Zarifa

Subjects

GAS analysis, ASSET management, FUZZY logic, ELECTRIC transformers, POWER transformers, INSULATING oils

Abstract

Copyright of Przegląd Elektrotechniczny is the property of Przeglad Elektrotechniczny 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

2024

28. A developed DQ control method for shunt active power filter to improve power quality in transformers.

Author

Al-Gahtani, Saad F., Elbarbary, Z. M. S., and Irshad, Shaik Mohammad

Subjects

*ELECTRIC power filters, *POWER transformers, *ELECTRIC transformers, *HARMONIC suppression filters, *HEAT losses, *ROBUST control

Abstract

Power transformers are the most important component in power system. Exposing these transformers to the harmonic distortions causes additional heat losses, insulation stress, decrease in lifetime of insulation, and reduced power factor with decrease in efficiency of the system. The lifespan of distribution transformers is influenced by the fragility of power quality in power networks. Harmonic mitigation filters with robust control technique are required to reduce the harmonic effects on power transformer. Traditionally, synchronous reference frame (DQ) is employed to control the shunt active power filter (APF) for mitigation of harmonics in power transformers. DQ control of Shunt APF lacks merits of fast response, delayed operation due to phased lock loop under abnormal grid conditions leading to insufficient harmonic elimination. A developed DQ method based on detecting the positive and negative sequence components is proposed to precisely control the shunt APF for reliable operation of power transformer. This detection technique improves the response time, mitigate the harmonics effecting the operation of transformer and overall power factor. The proposed control system is evaluated under different abnormal operating scenarios and compared with traditional DQ method. The results and analysis confirm the efficacy of the developed DQ method in improving the power transformer performance. [ABSTRACT FROM AUTHOR]

Published

2024

29. ENHANCING MICROWAVE OVEN PERFORMANCE AND TRANSFORMER QUALITY THROUGH EFFICIENT HIGH VOLTAGE TRANSFORMER COOLING.

Author

OUTZGUINRIMT, Hamid, LAHAME, Mouhcine, BAHANI, Boubkar, and CHRAYGANE, Mohammed

Subjects

*MICROWAVE ovens, *ELECTRIC transformers, *INSULATING oils, *HIGH voltages, *COOLING, *FINITE element method

Abstract

This paper describes a method and device for effectively cooling a high voltage transformer inside a microwave oven, with the aim of swiftly removing heat generated during operation, hence improving both the microwave oven's and the transformer's performance and quality. The device incorporates corrugated tank surfaces, electrical connection-lines with protrusions, and epoxy to prevent cooling oil leakage. The transformer is inserted into a designated tank and sealed to separate the coil and core from the outside environment, allowing for better cooling and protection against electrical shock. Additionally, an oil is injected to absorb heat generated by the high temperature of the core and coil. The effectiveness of this method is validated through the finite element method and CFD techniques. Numerical analysis revealed a significant decrease in the maximum temperature rise of the transformer by around 44.2 °C. This finding suggests that transformer oil cooling is a more effective method for controlling temperature rise in microwave ovens compared to traditional cooling methods. [ABSTRACT FROM AUTHOR]

Published

2024

30. PneumoNet: Automated Detection of Pneumonia using Deep Neural Networks from Chest X-Ray Images.

Author

KADIROGLU, Zehra, DENIZ, Erkan, KAYAOGLU, Mazhar, GULDEMIR, Hanifi, SENYIGIT, Abdurrahman, and SENGUR, Abdulkadir

Subjects

*PNEUMONIA, *NEURAL circuitry, *X-rays, *CONVOLUTIONAL neural networks, *ELECTRIC transformers

Abstract

Pneumonia is a dangerous disease that causes severe inflammation of the air sacs in the lungs. It is one of the infectious diseases with high morbidity and mortality in all age groups worldwide. Chest X-ray (CXR) is a diagnostic and imaging modality widely used in diagnosing pneumonia due to its low dose of ionizing radiation, low cost, and easy accessibility. Many deep learning methods have been proposed in various medical applications to assist clinicians in detecting and diagnosing pneumonia from CXR images. We have proposed a novel PneumoNet using a convolutional neural network (CNN) to detect pneumonia using CXR images accurately. Transformer-based deep learning methods, which have yielded high performance in natural language processing (NLP) problems, have recently attracted the attention of researchers. In this work, we have compared our results obtained using the CNN model with transformer-based architectures. These transformer architectures are vision transformer (ViT), gated multilayer perceptron (gMLP), MLP-mixer, and FNet. In this study, we have used the healthy and pneumonia CXR images from public and private databases to develop the model. Our developed PneumoNet model has yielded the highest accuracy of 96.50% and 94.29% for private and public databases, respectively, in detecting pneumonia accurately from healthy subjects. [ABSTRACT FROM AUTHOR]

Published

2024

31. Transformer Discharge Carbon-Trace Detection Based on Improved MSRCR Image-Enhancement Algorithm and YOLOv8 Model.

Author

Ji, Hongxin, Han, Peilin, Li, Jiaqi, Liu, Xinghua, and Liu, Liqing

Subjects

*ALGORITHMS, *ELECTRIC transformers, *REQUIREMENTS engineering, *IMAGE intensifiers, *POWER transformers, *FEATURE extraction, *PROBLEM solving

Abstract

It is difficult to visually detect internal defects in a large transformer with a metal closure. For convenient internal inspection, a micro-robot was adopted, and an inspection method based on an image-enhancement algorithm and an improved deep-learning network was proposed in this paper. Considering the dim environment inside the transformer and the problems of irregular imaging distance and fluctuating supplementary light conditions during image acquisition with the internal-inspection robot, an improved MSRCR algorithm for image enhancement was proposed. It could analyze the local contrast of the image and enhance the details on multiple scales. At the same time, a white-balance algorithm was introduced to enhance the contrast and brightness and solve the problems of overexposure and color distortion. To improve the target recognition performance of complex carbon-trace defects, the SimAM mechanism was incorporated into the Backbone network of the YOLOv8 model to enhance the extraction of carbon-trace features. Meanwhile, the DyHead dynamic detection Head framework was constructed at the output of the YOLOv8 model to improve the perception of local carbon traces with different sizes. To improve the defect target recognition speed of the transformer-inspection robot, a pruning operation was carried out on the YOLOv8 model to remove redundant parameters, realize model lightness, and improve detection efficiency. To verify the effectiveness of the improved algorithm, the detection model was trained and validated with the carbon-trace dataset. The results showed that the MSH-YOLOv8 algorithm achieved an accuracy of 91.80%, which was 3.4 percentage points higher compared to the original YOLOv8 algorithm, and had a significant advantage over other mainstream target-detection algorithms. Meanwhile, the FPS of the proposed algorithm was up to 99.2, indicating that the model computation and model complexity were successfully reduced, which meets the requirements for engineering applications of the transformer internal-inspection robot. [ABSTRACT FROM AUTHOR]

Published

2024

32. A Multi-Task Joint Learning Model Based on Transformer and Customized Gate Control for Predicting Remaining Useful Life and Health Status of Tools †.

Author

Hou, Chunming and Zheng, Liaomo

Subjects

*REMAINING useful life, *TRANSFORMER models, *ELECTRIC transformers

Abstract

Previous studies have primarily focused on predicting the remaining useful life (RUL) of tools as an independent process. However, the RUL of a tool is closely related to its wear stage. In light of this, a multi-task joint learning model based on a transformer encoder and customized gate control (TECGC) is proposed for simultaneous prediction of tool RUL and tool wear stages. Specifically, the transformer encoder is employed as the backbone of the TECGC model for extracting shared features from the original data. The customized gate control (CGC) is utilized to extract task-specific features relevant to tool RUL prediction and tool wear stage and shared features. Finally, by integrating these components, the tool RUL and the tool wear stage can be predicted simultaneously by the TECGC model. In addition, a dynamic adaptive multi-task learning loss function is proposed for the model's training to enhance its calculation efficiency. This approach avoids unsatisfactory prediction performance of the model caused by unreasonable selection of trade-off parameters of the loss function. The effectiveness of the TECGC model is evaluated using the PHM2010 dataset. The results demonstrate its capability to accurately predict tool RUL and tool wear stages. [ABSTRACT FROM AUTHOR]

Published

2024

33. Optimization of target detection model based on Yolov5 network with small samples.

Author

Sun, Hua, Su, Kaifeng, and Yang, Yifan

Subjects

*SHOCK absorbers, *ELECTRIC transformers

Abstract

As an important part of automotive shock absorber, the columnar parts in automotive shock absorber will inevitably have machining defects during the process, which will not only degrade the performance of the parts, but also degrade or even fail the performance of the final shock absorber after assembly. Yolov5, as a target detection algorithm, has received much attention due to its high accuracy and fast operation speed. However, the algorithm faces some challenges when applied in a practical industrial environment. In this paper, improvement measures are proposed to address the limitations of sample collection and the high speed of pipeline recognition in industrial environments. The network model is optimized and designed. Firstly, the ASPP module is replaced by the SPP module thus improving the viewability throughout the process providing recognition accuracy. Secondly, the Conv and C3 layers of Yolov5s are replaced by Transformer to obtain higher recognition accuracy. By improving and optimizing the above methods, we can better cope with the improvement of detection accuracy under small sample conditions. Experiments show that the method can significantly improve the detection accuracy and operation speed of Yolov5s under the hardware condition of lower computing power, which is more suitable for industrial scenario application scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

34. ENERGY HARVESTING CONTROL OF CURRENT TRANSFORMERS BASED ON DYNAMIC IMPEDANCE REGULATION STRATEGY OF VOLTAGE SOURCE CONVERTER.

Author

Runming He, Junfeng Shi, Baoming Gao, Yu Wang, Zhenzhong Yan, and Liting Yan

Subjects

*ENERGY harvesting, *ELECTRIC transformers, *CURRENT transformers (Instrument transformer), *ELECTRIC lines, *SINE waves, *IDEAL sources (Electric circuits)

Abstract

In a wide range of current changes, it is difficult for current transformer to carry out steady energy extraction, because the excitation characteristics of current transformer are interfered by load impedance. To solve this problem, a dynamic impedance control strategy of voltage source converter is proposed. The method dynamically and continuously adjusts the secondary impedance according to the different states of the primary current, which not only meets the requirement of load power consumption under the condition of low current, but also reduces the influence of the magnetic saturation problem of the core. The principle of energy collection is analyzed, and the equivalent model of current transformer and circuit is established. The relationship between excitation characteristics and impedance parameters is discussed empirically-, which lays a foundation for the construction of the final control strategy. The experimental results show that, first, without capacitive impedance control, the effective value of ct induced voltage is 37.313V, and the corresponding energy collection power is 1.39W. Under the capacitive impedance control, the RMS value of ct induced voltage increases to 72.868V and the energy collection power reaches 5.31W. It can be seen that when the capacitive reactance state is changed, the RMS value of induced voltage and energy collection power are significantly different. Second, the output current of the strong current generator is adjusted to 70a, and when the current increases, the system enters the magnetic saturation state. At this time, the positive and negative half waves of the voltage and current on the CT secondary side produce high amplitude spike pulse waves, which is very dangerous to the insulation of the CT winding and the safety of the load equipment. Under the same conditions, after the induction impedance control is added to the CT core, the magnetic saturation state is relieved, and the waveform changes from peak wave to sine wave, the energy taking system returns to normal working state, the DC voltage output is normal, and the system power supply is stable. Third, the output current of the strong current generator continues to increase to 80a, with the increase of the primary current, the system waveform state remains stable, and the induced voltage and DC output voltage remain constant near the preset reference value. It can be concluded that the magnetic induction intensity of the core will be positively affected by the capacitive impedance operation, and the energy supply effect of the transformer will be increased. The operating characteristics of inductance impedance can reduce the magnetic induction intensity of the iron core, thus inhibiting the saturation of the iron core under high current operating conditions and maintaining stable power output. [ABSTRACT FROM AUTHOR]

Published

2024

35. Characteristic Extraction and Assessment Methods for Transformers DC Bias Caused by Metro Stray Currents.

Author

Wang, Aimin, Lin, Sheng, Wu, Guoxing, Li, Xiaopeng, and Wang, Tao

Subjects

*STRAY currents, *DC transformers, *DISTRIBUTION (Probability theory), *VIBRATION tests, *WEIGHING instruments, *ELECTRIC transformers

Abstract

Metro stray currents flowing into transformer-neutral points cause the high neutral DC and a transformer to operate in the DC bias state.Because neutral DC caused by stray current varies with time, the neutral DC value cannot be used as the only characteristic indicator to evaluate the DC bias risk level. Thus, unified characteristic extraction and assessment methods are proposed to evaluate the DC bias risk of a transformer caused by stray current, considering the signals of transformer-neutral DC and vibration. In the characteristic extraction method, the primary characteristics are obtained by comparing the magnitude and frequency distributions of transformer-neutral DC and vibration with and without metro stray current invasion. By analyzing the correlation coefficients, the final characteristics are obtained by clustering the primary characteristics with high correlation. Then, the magnitude and frequency characteristics are extracted and used as indicators to evaluate the DC bias risk. Moreover, to avoid the influence of manual experience on indicator weights, the entropy weight method (EWM) is used to establish the assessment model. Finally, the proposed methods are applied based on the neutral DC and vibration test data of a certain transformer. The results show that the characteristic indicators can be extracted, and the transformer DC bias risk can be evaluated by using the proposed methods. [ABSTRACT FROM AUTHOR]

Published

2024

36. Transient frequency response test and measurement error prediction of DCTV based on adaptive inertial weight improved ACO.

Author

Yang, Yutao, Zhai, Shaolei, Tang, Hansong, Duan, Genyue, and Deng, Liwu

Subjects

FREQUENCY response, MEASUREMENT errors, ELECTRIC transformers, ARTIFICIAL intelligence, DIRECT currents, ANT algorithms

Abstract

A temporary frequency response test and measurement error prediction method of direct current voltage transformer (DCTV) based on artificial intelligence (AI) is proposed. Firstly, the frequency characteristic of direct current (DC) side voltage of DCTV is analyzed. On this basis, a DCTV transient Frequency Response testing method based on transient alternating current (AC) & DC superposition was developed. Then, the method of voltage sudden change and phase correction is used to achieve transient process DCTV response time testing. Finally, the ant colony optimization (ACO) algorithm was improved by combining an adaptive inertia weight improvement strategy, achieving accurate prediction of the Measurement Error of DCTV. The proposed AI based DCTV transient Frequency Response testing and Measurement Error prediction method were compared and analyzed with the other three methods through simulation experiments. Compared to the other three comparison methods, the maximum transformation error in the evaluation indicators of mean squared error (MSE), root mean squared error (RMSE), and mean absolute error (MAE) decreased by 0.006, 0.0119, and 0.0085, respectively, while the maximum phase error decreased by 0.2794, 0.3004, and 0.2823, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

37. Swin Transformer Based Network with Residual Channel Attention for Bit-Depth Expansion.

Author

Ai Tsuchihashi, Taishi Iriyama, Masatoshi Sato, Hisashi Aomori, and Tsuyoshi Otake

Subjects

ELECTRIC transformers, STATISTICAL correlation, IMAGE analysis, DATA analysis, ACCURACY

Abstract

Bit-depth expansion is a technique for reconstructing a highbit image by predicting the missing bits in a low-bit image. With the development of high-bit monitors, corresponding high-bit images are needed to maximize their performance. However, many image data are still in 8-bit format. It is a complicated task to accurately recover lost information by expanding the bit depth while distinguishing between false contours and edges in real images. In this study, we propose a novel bit-depth expansion method using a Swin Transformerbased network with Channel Attention Layers (CALs). This network achieves high-performance bit-depth expansion by utilizing not only spatial features, which is an advantage of the Swin Transformer-based network, but also the correlation between channels obtained by CALs. Experimental results show that the proposed method outperforms conventional methods. [ABSTRACT FROM AUTHOR]

Published

2024

38. Enhancing Energy Efficiency: Cutting-Edge Oil Filtration and Treatment Systems in Electric Transformers.

Author

RADU LAST, Dan Gabriel and NĂVRĂPESCU, Valentin

Subjects

ELECTRIC transformers, RENEWABLE energy sources, INSULATING oils, INFRASTRUCTURE (Economics), ESSENTIAL oils

Abstract

The article examines the essential function of oil filtration and treatment systems in electrical transformers, emphasizing their importance for maintaining optimal performance and extending equipment lifespan. It covers technical processes, system components, advanced technologies, economic and environmental advantages, and includes case studies. The technical principles of oil filtration, such as filter types and impurity retention methods, are described. Key treatments like oil dehydration and acid neutralization are discussed to prevent oil degradation. Detailed insights into system components, including pumps, filtration circuits, and monitoring sensors, are provided to explain the infrastructure required for system efficiency. Advanced technologies like automated control and IoT integration are discussed for smart system management. Recent innovations that enhance efficiency are highlighted. The conclusion stresses the vital role of oil filtration systems, outlining future research directions and perspectives. This article offers a comprehensive overview for those interested in energy and maintenance technologies. Additionally, it underscores the significance of proactive maintenance strategies for improving transformer reliability and longevity, discussing predictive maintenance methods like condition monitoring and diagnostic testing, that enable early detection of issues and proactive solutions. Moreover, the article explores the integration of renewable energy sources with transformer systems, addressing the challenges and opportunities this transition presents. Integrating renewable energy not only lessens environmental impact but also introduces new challenges for transformer operation and maintenance. In summary, the article offers valuable insights into the evolving transformer maintenance landscape and the critical role oil filtration systems play in ensuring reliable and efficient operation. [ABSTRACT FROM AUTHOR]

Published

2024

39. Single-Stage MV-Connected Charger Using an Ac/Ac Modular Multilevel Converter.

Author

Marca, Ygor Pereira, Roes, Maurice G. L., Wijnands, Cornelis G. E., Duarte, Jorge L., and Huisman, Henk

Subjects

*AC DC transformers, *BATTERY chargers, *ELECTRIC vehicle batteries, *SQUARE waves, *ELECTRIC transformers, *ELECTRIC vehicles, *POWER density, *HYBRID electric vehicles

Abstract

Modular multilevel converters with non-sinusoidal ac voltage output can reduce cost and volume in medium-voltage-connected electric vehicle battery charging applications. The use of full-bridge submodules in such converters enables single-stage ac/ac voltage conversion, allowing a medium-voltage grid to be directly connected to a medium-frequency isolation transformer. The application of a square wave voltage at the medium-frequency transformer's single-phase port enhances the converter's efficiency and power density in comparison to a sinusoidal voltage. This paper presents the analysis and modelling of a modular multilevel converter, comparing its operation with sinusoidal and square wave output voltages. A single control scheme for both output voltage waveforms is proposed for the three-phase and single-phase ac currents, circulating currents, and the energy stored in the submodule capacitors. The control strategy of the three-phase and single-phase port currents is verified through simulation and experiments using a scaled-down prototype, thereby validating its suitability for high-power bidirectional battery chargers. [ABSTRACT FROM AUTHOR]

Published

2024

40. INCREASING THE ACCURACY OF ELECTRICAL ENERGY ACCOUNTING AT REDUCED LOAD.

Author

Vasylets, Sviatoslav, Vasylets, Kateryna, and Ilchuk, Volodymyr

Subjects

POWER distribution networks, ELECTRIC transformers, ELECTRICITY power meters, ELECTRICAL energy, CURRENT transformers (Instrument transformer)

Abstract

The object of research is a three-phase electricity metering unit, which includes a digital meter and measuring current transformers. The reduction of non-technological energy losses is restrained due to the insufficient accuracy of the accounting of electric energy in distribution power networks under a reduced load current of the metering unit. The possibility of representing the dependence of the relative error of electricity measurement on current values by a fuzzy function at reduced load has been confirmed. The boundaries of such a function are approximated with sufficient accuracy by the sum of two exponents, which is explained by its significant nonlinearity in the range of reduced current. The proposed EMRL software allows to estimate the real consumption and the most possible level of underaccounting based on the array of electricity meter readings. The accuracy of estimating by the EMRL the amount of electricity consumed with a probability of 0.7 can be estimated with a relative error not exceeding 2 %. The probability of psychophysical assessments of the accuracy of EMRL «very good» and «good» is at least 0.833. The trend of a significant decrease in the relative value of underaccounting with an increase in the level of electricity consumption was revealed. With a daily consumption of up to 10 kW·h, the amount of underaccounting can reach 18 %, and with a consumption of more than 20 kW·h, it does not exceed 6 %. The adequacy of the results of estimating the amount of consumed electricity at reduced load using the EMRL was confirmed by experimental data at a significance level of 0.05. The software capabilities allow to increase the accuracy of the accounting of electrical energy in distribution networks with a reduced load current of the metering unit. The program can be used as part of automated systems of commercial electricity metering or advanced metering infrastructure to determine the most possible underaccounting due to the operation of metering units at a reduced load [ABSTRACT FROM AUTHOR]

Published

2024

41. Bidirectional transformer with knowledge graph for video captioning.

Author

Zhong, Maosheng, Chen, Youde, Zhang, Hao, Xiong, Hao, and Wang, Zhixiang

Subjects

KNOWLEDGE graphs, TRANSFORMER models, VIDEOS, ELECTRIC transformers

Abstract

Models based on transformer architecture have risen to prominence for video captioning. However, most models are only to improve either the encoder or the decoder, because when we improve the encoder and decoder simultaneously, the shortcomings of either side may be amplified. Based on the transformer architecture, we connect a bidirectional decoder and an encoder that integrates fine-grained spatio-temporal features, objects, and relationships between the objects in the video. Experiments show that improvements in the encoder amplify the information leakage of the bidirectional decoder and further produce a worse result. To tackle this problem, we generate pseudo reverse captions and propose a Bidirectional Transformer with Knowledge Graph (BTKG), which integrates the outputs of two encoders into the forward and backward decoders of the bidirectional decoder, respectively. In addition, we make fine-grained improvements on the interior of the different encoders according to four modal features of the video. Experiments on two mainstream benchmark datasets, i.e., MSVD and MSR-VTT, demonstrate the effectiveness of BTKG, which achieves state-of-the-art performance in significant metrics. Moreover, the sentences generated by BTKG contain scene words and modifiers, that are more in line with human language habits. Codes are available on https://github.com/nickchen121/BTKG. [ABSTRACT FROM AUTHOR]

Published

2024

42. Theoretical and practical analysis of parallel operating conditions of two transformers with different relative short circuit voltages.

Author

KUCUKKAYA, Burak Bugra and PAMUK, Nihat

Subjects

*POWER resources, *SHORT circuits, *ELECTRIC power distribution, *POWER transformers, *ELECTRICAL energy, *VOLTAGE, *ELECTRIC transformers

Abstract

The safety of the electrical energy supply is one of the most critical issues for companies engaged in production. The internal distribution network, which will provide the energy for the production elements, is essential. Power Transformers, which energize the loads fed from the electricity distribution network, are backed up in a way suitable for parallel operation for energy supply security. As a result of this situation, in case of a predictive failure in one of the transformers, energy supply safety is ensured since the other transformer is designed to carry the load alone. When one of these identical transformers is damaged, the relative short-circuit voltage of the new transformer to be integrated into the system may be different. The transformers with different short-circuit voltages are not shared their load equally. For this reason, the total amount of load that they can be loaded, the relative short-circuit voltage that will occur, and the load rates they are loaded change. In this study, a detailed analysis of two transformers with different relative short-circuit voltages and operating in parallel was made, both theoretically and as a result of the application, with the information obtained through the SCADA program. The theoretical values were calculated as a result of the analysis, the SCADA values were compared, and the margin of safety between them was established. It has been shown that the safety margin will protect against overload on a low short-circuit transformer. After the commissioning, the load rating needs to check and it can be regulated in line with the load rates that will occur after commissioning. [ABSTRACT FROM AUTHOR]

Published

2024

43. Power Transformer On-Load Capacity-Regulating Control and Optimization Based on Load Forecasting and Hesitant Fuzzy Control.

Author

Zou, Dexu, Sun, Xinyu, Quan, Hao, Yin, Jianhua, Peng, Qingjun, Wang, Shan, Dai, Weiju, and Hong, Zhihu

Subjects

*POWER transformers, *DUNG beetles, *ELECTRIC transformers, *FORECASTING, *OPERATING costs, *SECURITY systems

Abstract

The operational stability of a power transformer exerts an extremely important impact on the power symmetry, balance, and security of power systems. When the grid load fluctuates greatly, if the load factor of the transformer cannot be maintained within a reasonable range, it leads to increased instability in grid operation. Adjusting the transformer capacity based on load changes is of great significance. The existing control methods for on-load capacity-regulating (OLCR) transformers have low timeliness, and the daily switching frequency of the capacity-regulating switch is not controlled. To ensure the safe and stable operation of transformers, this paper proposes a control method for OLCR transformers based on load prediction and fuzzy control. Firstly, the operating principle of OLCR transformers is analyzed, and a multi-strategy enhanced dung beetle optimizer (MSDBO) combined with a CNN−LSTM model is proposed for load forecasting. On this basis, the daily switching frequency of the capacity-regulating transformer is introduced, and hesitant fuzzy control is used to select the optimal capacity-regulating strategy relying on three factors: loss, economy, and switching frequency. Finally, simulation models are constructed using the MATLAB/SIMULINK platform and simulation analysis is conducted to verify the effectiveness and superiority of the proposed control method. For the three scenarios in this paper, the method reduces daily power loss by 28.5% to 56.3% and daily operating costs by 25.4% to 50.8%. The method used in this paper can sacrifice 3.5% to 9.2% of the loss reduction capability in exchange for reducing the number of switch operations by 28.6% to 57.1%, significantly extending the lifespan of the switches and thereby increasing the operational lifespan of the transformer. [ABSTRACT FROM AUTHOR]

Published

2024

44. Electrical sizing of grid-connected photovoltaic systems.

Author

ILICA, Ahmet and SERDAR, Muhammed

Subjects

*LIGHTNING protection, *ELECTRIC potential, *SOLAR panels, *ELECTRIC transformers, *SHORT-circuit currents, *PHOTOVOLTAIC power generation, *SHORT circuits

Abstract

It is of great importance to choose low-cost, high-performance/efficient and operating and protection equipment in accordance with the applicable legislation in electrical facilities. It is necessary to make calculations for the selection of the most suitable cable/line, measuring and protection system equipment. In this study, panel-inverter compatibility calculation, voltage drop, current control, short circuit, lightning risk and protection calculations, grounding resistance and grounding conductor calculations and tilt angle calculation were made for a grid connected photovoltaic system with a power of 0.4 MWe. It has been calculated that the allowable voltage range and maximum powerpoint voltage values of the selected inverter are compatible with the panel system. With voltage drop and current control calculations, copper cable cross section for each inverter output and solar board output were found to be 3x70+35 mm2 and 2(3x185+95) mm2, respectively, and transformer low voltage busbar 60x10 mm2. In order not to deform the low voltage busbars in peak short-circuit current, they should be placed at 10 cm intervals for 80 cm length. According to the transformer low voltage side phase-earth short circuit current, the cross-section of the grounding conductor should be at least 53.97 mm2 copper conductor. In the lightning protection facility of the panels, according to the rolling sphere method, it has been calculated that the air termination rods should be at least 0.84 m above the upper point of the solar panel. The optimum fixed panel tilt angle was found to be 32.08°. The calculations used in the study will benefit the practitioners in the design of grid-connected photovoltaic systems, in the selection of the most suitable electrical equipment with minimum size. [ABSTRACT FROM AUTHOR]

Published

2024

45. Optimal operation of flexible interconnected distribution grids based on improved virtual synchronous control techniques.

Author

Wang, Zeyi, Liu, Guangzhi, Pang, Dan, Wang, Yao, Yu, Bin, Wang, Zhenhao, Xiao, Huangqing, and Shi, Linjun

Subjects

POWER resources, MAXIMUM power point trackers, MATHEMATICAL optimization, ELECTRIC transformers

Abstract

With distributed energy sources connected to the distribution grid on a large scale for distributed photovoltaic power randomness, this paper proposes a flexible interconnection system optimization operation strategy. First, the virtual synchronous control technology is improved to improve the DC bus voltage stability; second, it analyzes the system operation mode to judge the output logic of PV and storage units, takes DC bus power balance as the underlying logic, and puts forward the power coordination optimization strategy and fault power supply restoration strategy with full consideration of factors such as the load balance degree of the distribution station area, the economic operation of the main transformer, and the amount of power lost in the faulty station area. It also establishes a multi-objective optimization model to obtain the power commands of each port and achieves the power flexibility mutualization of the flexible interconnected system through the accurate regulation of the soft normally open point (SNOP). Finally, a simulation model of the flexible interconnection system is built using MATLAB/Simulink to verify the effectiveness of the proposed optimization strategy. [ABSTRACT FROM AUTHOR]

Published

2024

46. Dependencies of Parameter and Load Toque Sensitivities of Electric Motor Outputs on Design Requirements.

Author

Sevinç, Ata

Subjects

ELECTRIC motors, TORQUE, ELECTRIC transformers, SENSITIVITY analysis, PARAMETER estimation

Abstract

Copyright of International Journal of Engineering Research & Development (IJERAD) is the property of International Journal of Engineering Research & Development 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

2024

47. Early fire detection technology based on improved transformers in aircraft cargo compartments.

Author

Hong-zhou Ai, Dong Han, Xin-zhi Wang, Quan-yi Liu, Yue Wang, Meng-yue Li, and Pei Zhu

Subjects

FIRE detectors, ELECTRIC transformers, DEEP learning, RECURRENT neural networks, ARTIFICIAL neural networks

Abstract

The implementation of early and accurate detection of aircraft cargo compartment fire is of great significance to ensure flight safety. The current airborne fire detection technology mostly relies on single-parameter smoke detection using infrared light. This often results in a high false alarm rate in complex air transportation environments. The traditional deep learning model struggles to effectively address the issue of long-term dependency in multivariate fire information. This paper proposes a multi-technology collaborative fire detection method based on an improved transformers model. Dual-wavelength optical sensors, flue gas analyzers, and other equipment are used to carry out multi-technology collaborative detection methods and characterize various feature dimensions of fire to improve detection accuracy. The improved Transformer model which integrates the self-attention mechanism and position encoding mechanism is applied to the problem of long-time series modeling of fire information from a global perspective, which effectively solves the problem of gradient disappearance and gradient explosion in traditional RNN (recurrent neural network) and CNN (convolutional neural network). Two different multi-head self-attention mechanisms are used to classify and model multivariate fire information, respectively, which solves the problem of confusing time series modeling and classification modeling in dealing with multivariate classification tasks by a single attention mechanism. Finally, the output results of the two models are fused through the gate mechanism. The research results show that, compared with the traditional single-feature detection technology, the multi-technology collaborative fire detection method can better capture fire information. Compared with the traditional deep learning model, the multivariate fire prediction model constructed by the improved Transformer can better detect fires, and the accuracy rate is 0.995. [ABSTRACT FROM AUTHOR]

Published

2024

48. Fault Tolerant Dual Active Bridge Converter for Electric Vehicle Application.

Author

Babalou, Milad, Torkaman, Hossein, Pouresmaeil, Edris, and Pourmoradi, Nazanin

Subjects

ELECTRIC vehicles, FAULT tolerance (Engineering), ELECTRIC transformers, ELECTRIC inductors, METAL oxide semiconductor field-effect transistors

Abstract

In this paper, a dual-active bridge converter based on the utilization of two transformers is presented. The principles of operation, switching strategy, and transmission power characteristics of the proposed converter under normal operation are discussed, comprehensively. Moreover, the RMS current of two transformers with different values of inductances of the inductors that are in series with the transformers; is discussed. The operation of the proposed dual active bridge (DAB) converter under the open-circuit failure of transformers is studied. In addition, the loss distribution of the proposed converter in different powers is investigated. The proposed dual-transformer-based dual-active bridge converter is compared with the presented converters. Finally, the proposed converter with a low-voltage side (VL= 300 V), the switching frequency of power MOSFETs (fs= 50 kHz), and an accurate model of the electric battery at a high-voltage side (VH= 450 V) are simulated to verify the way of charging and discharging the electrical battery with the proposed converter under normal and open-circuit fault of transformers. [ABSTRACT FROM AUTHOR]

Published

2024

49. A Predictive Model for Voltage Transformer Ratio Error Considering Load Variations.

Author

Li, Zhenhua, Cui, Jiuxi, Rocha, Paulo R. F., Abu-Siada, Ahmed, Li, Hongbin, and Qiu, Li

Subjects

ELECTRIC transformers, ELECTRIC charge, TRANSFORMER models, DEEP learning, PREDICTION models, RANK correlation (Statistics), ERRORS-in-variables models

Abstract

The accuracy of voltage transformer (VT) measurements is imperative for the security and reliability of power systems and the equitability of energy transactions. The integration of a substantial number of electric vehicles (EVs) and their charging infrastructures into the grid poses new challenges for VT measurement fidelity, including voltage instabilities and harmonic disruptions. This paper introduces an innovative transformer measurement error prediction model that synthesizes Multivariate Variational Mode Decomposition (MVMD) with a deep learning framework integrating Bidirectional Temporal Convolutional Network and Multi-Head Attention mechanism (BiTCN-MHA). The paper is aimed at enhancing VT measurement accuracy under fluctuating load conditions. Initially, the optimization of parameter selection within the MVMD algorithm enhances the accuracy and interpretability of bi-channel signal decomposition. Subsequently, the model applies the Spearman rank correlation coefficient to extract dominant modal components from both the decomposed load and original ratio error sequences to form the basis for input signal channels in the BiTCN-MHA model. By superimposing predictive components, an effective prediction of future VT measurement error trends can be achieved. This comprehensive approach, accounting for input load correlations and temporal dynamics, facilitates robust predictions of future VT measurement error trends. Computational example analysis of empirical operational VT data shows that, compared to before decomposition, the proposed method reduces the Root-Mean-Square Error (RMSE) by 17.9% and the Mean Absolute Error (MAE) by 23.2%, confirming the method's robustness and superiority in accurately forecasting VT measurement error trends. [ABSTRACT FROM AUTHOR]

Published

2024

50. Algorithm for creating sketches to form a 3D diagram of an educational simulator in the subject of fundamentals of power supply.

Author

Rakhmonov, Ikromjon, Shayumova, Zamira, Obidov, Kamol, and Paxratdinov, Asamatdin

Subjects

*POWER resources, *VOLTAGE regulators, *INTERACTIVE learning, *ELECTRIC transformers, *EDUCATIONAL planning, *EDUCATIONAL technology

Abstract

This paper discusses the development of a 3D educational simulator for teaching power supply system fundamentals. The simulator's creation followed a meticulously planned algorithm, beginning with clear educational objectives. It involved 2D conceptual designs and detailed 3D modeling of components like transformers and voltage regulators using software such as AutoCAD, SolidWorks, or Blender. The simulator's interactivity is a significant feature, allowing users to adjust parameters like voltage and observe real-time effects, enhancing understanding. It integrates theory with practical visualization, providing annotations and explanations for each component, creating a comprehensive learning experience. User feedback guided testing and iterative improvements, resulting in a user-friendly, adaptable simulator compatible with various educational platforms. This project highlights the importance of interactive learning tools in technical education, addressing challenges in accurate yet user-friendly educational technology design. It emphasizes the need for continuous improvement to align with evolving technical knowledge. In summary, this paper demonstrates the potential of advanced 3D simulations in STEM education, offering insights into effective tool design and implementation. [ABSTRACT FROM AUTHOR]

Published

2024