Your search keyword '"Residual Voltage"' showing total 9 results

1. A Metal Accelerator Approach for Discharging Cylindrical Lithium-Ion Batteries in a Salt Solution

Author

Erdenebold Urtnasan and Jei-Pil Wang

Subjects

NCA battery discharge, Fe flakes, copper conductor, voltage drop, electrolyte solution, residual voltage, Mining engineering. Metallurgy, TN1-997

Abstract

Recycling lithium-ion batteries provides sustainable raw materials. Crushing and separation are necessary for extracting metals, like lithium, from batteries. Crushing a battery carries a risk of fire or explosion. Fully discharging the battery is crucial for safe production. Discharging batteries in a salt solution is a simple and cost-effective large-scale process. However, it is important to note that there is a potential risk of corrosion and loss of battery elements when batteries are immersed in a salt solution. The purpose of this study is to investigate the effectiveness of two distinct methodologies at enhancing the voltage drop of a cylindrical battery when immersed in a salt solution while preventing corrosion. These techniques involve the application of iron and copper accelerators. A 20 wt.% salt water solution was chosen based on the research of several researchers. As the current flows through the metal parts, it encounters electrical resistance and forms an electric circuit with the electrolyte solution. This interaction converts electrical energy into various physical–electrical–electrochemical phenomena, leading to a decrease in battery voltage. Research revealed that the battery can be discharged up to 100% within 4 h without causing corrosion to its components. Another point to note is that if copper conductors are used, it is possible to decrease the battery voltage by around 90% within 8 h. The gap between the copper conductor and the battery had a direct impact on the battery’s discharge rate. Reducing the distance significantly increased the discharge rate, as confirmed by experimental evidence. This discharge mechanism was thoroughly described in a schematic, and, to further explain the electrochemical reaction, the Pourbaix diagram was utilized for both the Fe-Na-Cl and Cu-Na-Cl systems. Moreover, our theoretical predictions were validated through a chemical and mineralogical analysis of the precipitates that formed in the solution.

Published

2024

2. Quality Assessment of Low Voltage Surge Arresters

Author

Leszek S. Litzbarski, Marek Olesz, Stanislaw Wojtas, Michal J. Winiarski, Tomasz Klimczuk, Hubert Glowinski, and BartlOmiej Andrzejewski

Subjects

MOV, leakage current, residual voltage, electrical aging, repeatability of production, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Users expect reliable operation of the surge arrester during overvoltages, which may originate from a switching process or a lightning discharge. The necessary conditions to guarantee these expectations are: appropriate construction of the surge arrester, its production being maintained in accordance with technical standards, and a positive results of the type test (as well routine and acceptance tests). The recipient, especially when purchasing large quantities of the product, can check the final quality of the product through selective testing of samples from the market in order to find the best supplier. This manuscript specifies the basic parameters of low-voltage (LV) surge arresters of four manufacturers. Basic electrical parameters, i.e. leakage current and varistor voltage ( $\text{U}_{\mathrm {1mA}}$ ) before and after the nominal discharge current ( $\text{I}_{\mathrm {n}}$ ) of $8~\mu \text{s}$ /20 $\mu \text{s}$ , were determined for 10 randomly selected surge arresters of each manufacturer. Moreover one sample of each varistor batches was aged by fifty 8 $\mu \text{s}$ /20 $\mu \text{s}$ current impulses with $\text{I}_{\mathrm {n}}$ . The obtained results of structural analysis indicate that the crystal structure of the varistor materials changes after ageing process, affecting its electrical properties. The proposed research methodology can be employed as a basis for forecasting the stability of the arrester parameters under operating conditions.

Published

2022

3. Open-Circuit Fault Diagnosis for Permanent Magnet Synchronous Motor Drives Based on Voltage Residual Analysis

Author

Bo Wang, Xiaobao Feng, and Rongxin Wang

Subjects

permanent magnet synchronous motor (PMSM) drives, inverter, open-circuit fault, fault diagnosis, residual voltage, Technology

Abstract

With the widespread application of permanent magnet synchronous motor (PMSM) drives, the demand for safety and reliability has increased. Inverter open-circuit fault is a frequent and severe failure that requires reliable detection and remedial measures. This paper proposes an open-circuit fault diagnosis technique based on voltage residual analysis that does not require additional voltage sensors. The proposed technique analyzes the characteristics of the reference voltage and the actual output voltage under both healthy and fault conditions. To achieve fast and reliable fault detection, it uses the DC component and second harmonic component in the residual voltage between estimated voltage and controller reference voltage. Once an open-circuit fault is detected, the polarity of the DC component is capable of identifying the fault location. The effectiveness and robustness of the proposed technique are verified through simulations and testing on a triple redundant PMSM under various load and speed conditions.

Published

2023

4. Transient Response Characteristics of Metal Oxide Arrester under High-Altitude Electromagnetic Pulse

Author

Feng Qin, Wei Chen, Xutong Wang, Tao Huang, Zhitong Cui, and Xin Nie

Subjects

high-altitude electromagnetic pulse, MOV, residual voltage, overshoot voltage, response characteristics, nanosecond electromagnetic pulse, Technology

Abstract

In order to study the strong electromagnetic pulse effect of critically vulnerable equipment in power systems and evaluate the survivability under high-altitude electromagnetic pulses, it is necessary to study the characteristics of the transient response of metal oxide arresters to the high-altitude electromagnetic pulse by experiment. In this paper, an experimental platform for high-altitude electromagnetic pulse conduction current injection for a typical 10 kV metal oxide arrester was set up, and the key parameters such as peak value of overshoot voltage, peak value of residual voltage, action voltage and response time were obtained by the experiment. The results show that: the action voltage of this type of metal oxide arrester is 3.53 times higher than that of its rated voltage; the peak value of overshoot voltage is 2.19 times that of the peak value of residual voltage under lightning impulse current; the peak value of residual voltage is 1.57 times that under lightning impulse; and the response time varies little with the electromagnetic pulse conduction current amplitude, averaging 46.86 nanoseconds under a high-altitude electromagnetic pulse conduction environment.

Published

2022

5. CREATION OF A BIG POWER HYBRID ELECTRIC ENERGY STORAGE FOR PREVENTION SHORT-TERM INTERRUPTION OF POWER SUPPLY TO INDUSTRIAL CONSUMERS

Author

K. R. Bakhteev

Subjects

mathematical modeling, electrical networks, supercapacitors, batteries, residual voltage, power quality, voltage sag., Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

The article gives a comparative analysis of different types of electricity accumulators. A possibility of using a hybrid electrical energy storage based on accumulator batteries and supercapacitors of high power is substantiated as one of the ways to prevent short-term power failures caused by short circuits in external power supply networks. Simulation models of the high power battery, supercapacitor battery and hybrid storage was constructed to evaluate the efficiency of this method.

Published

2018

6. Влияние форсировки возбуждения синхронных машин на уровень остаточного напряжения при кратковременных нарушениях электроснабжения

Subjects

mathematical modeling, electrical network, synchronous motor, synchronous generator, residual voltage, power quality, voltage dip, short circuit, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

The article considers the influence of opportunities forcing synchronous generator (SG) and a synchronous motor (SM) to provide the required level of the residual voltage at the consumer at short circuits in networks of high voltage. It determines the ability of the equipment to remain in the work during such perturbation by mathematical modeling.

Published

2017

7. Study on circuit breaker TRV issues of UHV high series compensation lines

Author

Bin Zheng, Zutao Xiang, Liangeng Ban, Hongli Jiang, Xiaotong Wang, and Wentao Teng

Subjects

power transmission lines, circuit breakers, short-circuit currents, power transmission faults, series compensation capacitance, voltage rise, UHV high SC line, residual voltage, electromagnetic transient process, high amplitude, fault occurrence, circuit breaker equipment, peak value, transient recovery voltage, short-circuit current zero crossing, TRV switching capability, circuit breaker TRV issues, UHV high series compensation lines, fault removal, macroscopic statistical distribution, TRV optimal suppression measures, UHV CB switching, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Under the influence of series compensation (SC) capacitance and rated voltage rise, when ultra high voltage (UHV) high SC line occurs inner fault, the short-circuit current through the SC line is greater and the residual voltage across the SC is higher, which cause the electromagnetic transient process excited by high amplitude current and voltage to be more serious in the event of fault occurrence and removal. The security of circuit breaker (CB) equipment is threatened, which make it need further research on the characteristics and put forward some effective solutions. In this study, the characteristics of macroscopic statistical distribution of peak value via short-circuit current of transient recovery voltage (TRV) across CB fracture during switching after short-circuit current zero crossing for UHV high SC line are put forward, and also of the microscopic characterization parameter of waveform rise rate and peak value time. It shows that the TRV switching capability of existing UHV CBs can not cover all the fault scenarios of high SC line. Solutions including comprehensive comparison of TRV optimal suppression measures and increase of the UHV CB switching expected TRV test requirements are put forward, which provide feasible technical scheme for CBs reliable switching of UHV high SC line.

Published

2019

8. Estimation of parameters of metal-oxide surge arrester models using Big Bang-Big Crunch and Hybrid Big Bang-Big Crunch algorithms

Author

M.M Abravesh, A Sheikholeslami, H. Abravesh, and M. Yazdani asrami

Subjects

Surge arresters, Residual voltage, Big Bang – Big Crunch algorithm, Hybrid Big Bang – Big Crunch algorithm, Information technology, T58.5-58.64, Computer software, QA76.75-76.765

Abstract

Metal oxide surge arrester accurate modeling and its parameter identification are very important for insulation coordination studies, arrester allocation and system reliability. Since quality and reliability of lightning performance studies can be improved with the more efficient representation of the arresters´ dynamic behavior. In this paper, Big Bang – Big Crunch and Hybrid Big Bang – Big Crunch optimization algorithms are used to selects optimum surge arrester model equivalent circuit parameters values, minimizing the error between the simulated peak residual voltage value and this given by the manufacturer.The proposed algorithms are applied to a 63 kV and 230 kV metal oxide surge arrester. The obtained results show that using this method the maximum percentage error is below 1.5 percent.

Published

2016

9. ADJUSTMENT OF THE MATLAB SURGE ARRESTER MODEL PARAMETERS

Author

О.Г. Шполянський

Subjects

zinc oxide surge arresters, parameters of mathematical model, residual voltage, impulse of current, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This article proposes a method for the parameters adjustment of the Matlab Simscape library Surge Arrester block. It is based on building of nonlinear V-I characteristic by approximation of residual voltage and impulse current obtained from manufacturer catalogs. Given parameters of the exponential function are checked by transient simulations under impact of standard current impulses on surge arresters. References 14, figure 1, tables 3.

Published

2020