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103 results on '"Manuel Moreno-Eguilaz"'

1. Analyzing the role of emissivity in stranded conductors for overhead power lines

Author

Jordi-Roger Riba, Yuming Liu, and Manuel Moreno-Eguilaz

Subjects
Emissivity, Absorptivity, Dynamic line rating, Simulation, Thermal model, Aluminum conductors, Production of electric energy or power. Powerplants. Central stations, TK1001-1841
Abstract

Emissivity and absorptivity are important parameters in overhead power line conductors that depend on the conductor surface condition, so their values change as the conductors age. They have an important effect on their thermal behavior, so it is important to know their value when designing dynamic line rating (DLR) strategies. DLR methods are becoming increasingly important, especially in areas with congested power lines, as they allow the full capacity of the lines to be utilized by dynamically determining their maximum allowable currents without exceeding the safe temperature limits of the conductors, thus ensuring that they operate within safe limits. However, measuring emissivity and absorptivity is non-trivial and requires complex tests that cannot be performed in the field. Using simulations based on a realistic thermoelectric model and experimental tests performed on three types of transmission line conductors in a high-current laboratory, this paper shows the importance and effect of emissivity on conductor temperature. It also presents a method for measuring the emissivity value based on adjusting the emissivity and absorptivity values in the thermoelectric model to match the experimental values. The results presented show that aged conductors allow an increase in the maximum current carrying capacity compared to new conductors in the order of 5–14 %, depending on the conductor type considered and the operating conditions.

Published
2024
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2. Analyzing the Effect of Dynamic Pressure Drop on Corona Discharges for Aircraft Applications

Author

Pau Bas-Calopa, Jordi-Roger Riba, and Manuel Moreno-Eguilaz

Subjects
corona discharges, low pressure, pressure change, hybrid aircrafts, electric aircrafts, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

The combination of the low-pressure environment found in aircraft systems and the gradual electrification of aircraft increases the risk of electrical discharges occurrence. This is an undesirable situation that compromises aircraft safety and complicates maintenance operations. Experimental data are needed to understand this problem. However, most of the published studies are based on static pressure conditions, but aircraft systems are exposed to dynamic pressure conditions, especially during the climb and descent phases of flight. This paper analyzes the effect of dynamic pressure during the climb phase on the corona inception voltage because this phase experiences the worst pressure drop rate. The experimental evidence presented in this paper shows that within the analyzed pressure drop rate range, the dynamic pressure conditions do not have a significant effect on the corona inception value under typical conditions found in aircraft systems during the climb phase.

Published
2023
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3. Application of Thermoelectric Generators for Low-Temperature-Gradient Energy Harvesting

Author

Yuming Liu, Jordi-Roger Riba, Manuel Moreno-Eguilaz, and Josep Sanllehí

Subjects
energy harvesting, power systems, solid-state thermoelectric generator, wireless sensors, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Thermoelectric generators (TEGs) convert a temperature difference into useful direct current (DC) power. TEGs are solid-state semiconductor devices that are generating a lot of interest for energy harvesting purposes in Internet of Things (IoT) applications. This paper analyzes the behavior of state-of-the-art TEGs designed for low temperature gradient operation, with special emphasis on IoT systems for health monitoring for high-voltage alternating current (AC) and DC applications. In such applications, the energy harvesting unit plays a leading role in supplying wireless sensors (WSs). An application example is also presented with the aim to monitor the health condition of devices installed in the tubular busbars found in electrical substations. Since substation busbars heat up due to the Joule effect, there is a small thermal gradient between the busbar and the ambient, so the TEG can convert this heat flow into useful DC energy to supply low-power WSs. This paper assesses the performance of different TEG devices for this application, where very low temperature gradients are expected. The results presented show that with temperature gradients as low as 5 °C it is possible to supply WSs.

Published
2023
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4. Energy Balance of Wireless Sensor Nodes Based on Bluetooth Low Energy and Thermoelectric Energy Harvesting

Author

Yuming Liu, Jordi-Roger Riba, and Manuel Moreno-Eguilaz

Subjects
energy harvesting, thermoelectric generator, high voltage, substation connector, battery efficiency, power consumption, Chemical technology, TP1-1185
Abstract

The internet of things (IoT) makes it possible to measure physical variables and acquire data in places that were impossible a few years ago, such as transmission lines and electrical substations. Monitoring and fault diagnosis strategies can then be applied. A battery or an energy harvesting system charging a rechargeable battery typically powers IoT devices. The energy harvesting unit and rechargeable battery supply the sensors and wireless communications modules. Therefore, the energy harvesting unit must be correctly sized to optimize the availability and reliability of IoT devices. This paper applies a power balance of the entire IoT device, including the energy harvesting module that includes two thermoelectric generators and a DC–DC converter, the battery, and the sensors and communication modules. Due to the small currents typical of the different communication phases and their fast-switching nature, it is not trivial to measure the energy in each phase, requiring very specific instrumentation. This work shows that using conventional instrumentation it is possible to measure the energy involved in the different modes of communication. A detailed energy balance of the battery is also carried out during charge and discharge cycles, as well as communication modes, from which the maximum allowable data transfer rate is determined. The approach presented here can be generalized to many other smart grid IoT devices.

Published
2023
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5. Energy Harvesting Methods for Transmission Lines: A Comprehensive Review

Author

Jordi-Roger Riba, Manuel Moreno-Eguilaz, and Santiago Bogarra

Subjects
batteryless, distributed sensors, electric power systems, energy harvesting, predictive maintenance, transmission lines, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Humanity faces important challenges concerning the optimal use, security, and availability of energy systems, particularly electrical power systems and transmission lines. In this context, data-driven predictive maintenance plans make it possible to increase the safety, stability, reliability, and availability of electrical power systems. In contrast, strategies such as dynamic line rating (DLR) make it possible to optimize the use of power lines. However, these approaches require developing monitoring plans based on acquiring electrical data in real-time using different types of wireless sensors placed in strategic locations. Due to the specific conditions of the transmission lines, e.g., high electric and magnetic fields, this a challenging problem, aggravated by the harsh outdoor environments where power lines are built. Such sensors must also incorporate an energy harvesting (EH) unit that supplies the necessary electronics. Therefore, the EH unit plays a key role, so when designing such electronic systems, care must be taken to select the most suitable EH technology, which is currently evolving rapidly. This work reviews and analyzes the state-of-the-art technology for EH focused on transmission lines, as it is an area with enormous potential for expansion. In addition to recent advances, it also discusses the research needs and challenges that need to be addressed. Despite the importance of this topic, there is still much to investigate, as this area is still in its infancy. Although EH systems for transmission lines are reviewed, many other applications could potentially benefit from introducing wireless sensors with EH capabilities, such as power transformers, distribution switches, or low- and medium-voltage power lines, among others.

Published
2022
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6. Measurement of Corona Discharges under Variable Geometry, Frequency and Pressure Environment

Author

Pau Bas-Calopa, Jordi-Roger Riba, and Manuel Moreno-Eguilaz

Subjects
more electric aircraft, electrical discharges, visual corona, corona extinction voltage, variable frequency, low pressure, Chemical technology, TP1-1185
Abstract

Aeronautical industry is evolving towards more electric aircrafts (MEA), which will require much more electrical power compared to conventional models. To satisfy this increasing power demand and stringent weight requirements, distribution voltages must be raised, which jointly with the low-pressure environment and high operating frequencies increase the risk of electrical discharges occurrence. Therefore, it is important to generate data to design insulation systems for these demanding applications. To this end, in this work a sphere-to-plane electrode configuration is tested for several sphere geometries (diameters ranging from 2 mm to 10 mm), frequencies of 50 Hz, 400 Hz and 800 Hz and pressures in the 20–100 kPa range, to cover most aircraft applications. The corona extinction voltage is experimentally determined by using a gas-filled tube solar blind ultraviolet (UV) sensor. In addition, a CMOS imaging sensor is used to locate the discharge points. Next, to gain further insight to the discharge conditions, the electric field strength is calculated using finite element method (FEM) simulations and fitted to equations based on Peek’s law. The results presented in this paper could be especially valuable to design aircraft electrical insulations as well as for high-voltage hardware manufacturers, since the results allow determining the electric field values at which the components can operate free of surface discharges for a wide altitude range.

Published
2022
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7. Performance Evaluation of Solar-Blind Gas-Filled Sensors to Detect Electrical Discharges for Low-Pressure Aircraft Applications

Author

Jordi-Roger Riba, Manuel Moreno-Eguilaz, Maxence Boizieau, and Tamerlan Ibrayemov

Subjects
aircraft power systems, low pressure, solar-blind sensors, ultraviolet radiation, Chemical technology, TP1-1185
Abstract

Unpressurized aircraft circuits facilitate the initiation of electrical discharges in wiring systems, with consequent damage to related insulation materials and safety hazards, that can and have already caused severe incidents and accidents. Specific sensors and solutions must be developed to detect these types of faults at a very incipient stage, before further damage occurs. Electrical discharges in air generate the corona effect, which is characterized by emissions of bluish light, which are found in the ultraviolet (UV) and visible spectra. However, due to sunlight interference, the corona effect is very difficult to detect at the very initial stage, so the use of solar-blind sensors can be a possible solution. This work analyzes the feasibility of using inexpensive non-invasive solar-blind sensors in a range of pressures compatible with aircraft environments to detect the electrical discharges at a very incipient stage. Their behavior and sensitivity compared with other alternatives, i.e., an antenna sensor and a CMOS imaging sensor, is also assessed. Experimental results presented in this paper show that the analyzed solar-blind sensors can be applied for the on-line detection of electrical discharges in unpressurized aircraft environments at the very initial stage, thus facilitating and enabling the application of predictive maintenance strategies. They also offer the possibility to be combined with existing electrical protections to expand their capabilities and improve their sensitivity to detect very early discharges, thus allowing the timely identification of their occurrence.

Published
2022
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8. Analysis of a Smart Sensor Based Solution for Smart Grids Real-Time Dynamic Thermal Line Rating

Author

Yuming Liu, Jordi-Roger Riba, Manuel Moreno-Eguilaz, and Josep Sanllehí

Subjects
wind speed, dynamic thermal line rating, ACSR conductor, real-time monitoring, wireless communications, Chemical technology, TP1-1185
Abstract

Dynamic thermal line rating (DTLR) allows us to take advantage of the maximum transmission capacity of power lines, which is an imperious need for future smart grids. This paper proposes a real-time method to determine the DTLR rating of aluminum conductor steel-reinforced (ACSR) conductors. The proposed approach requires a thermal model of the line to determine the real-time values of the solar radiation and the ambient temperature, which can be obtained from weather stations placed near the analyzed conductors as well as the temperature and the current of the conductor, which can be measured directly with a Smartconductor and can be transmitted wirelessly to a nearby gateway. Real-time weather and overhead line data monitoring and the calculation of DTLR ratings based on models of the power line is a practical smart grid application. Since it is known that the wind speed exhibits important fluctuations, even in nearby areas, and since it plays a key role in determining the DTLR, it is essential to accurately estimate this parameter at the conductor’s location. This paper presents a method to estimate the wind speed and the DTLR rating of the analyzed conductor. Experimental tests have been conducted to validate the accuracy of the proposed approach using ACSR conductors.

Published
2021
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9. Corona Discharge Characteristics under Variable Frequency and Pressure Environments

Author

Pau Bas-Calopa, Jordi-Roger Riba, and Manuel Moreno-Eguilaz

Subjects
more electric aircraft, electrical discharges, visual corona, corona extinction voltage, variable frequency, low pressure, Chemical technology, TP1-1185
Abstract

More electric aircrafts (MEAs) are paving the path to all electric aircrafts (AEAs), which make a much more intensive use of electrical power than conventional aircrafts. Due to the strict weight requirements, both MEA and AEA systems require to increase the distribution voltage in order to limit the required electrical current. Under this paradigm new issues arise, in part due to the voltage rise and in part because of the harsh environments found in aircrafts systems, especially those related to low pressure and high-electric frequency operation. Increased voltage levels, high-operating frequencies, low-pressure environments and reduced distances between wires pose insulation systems at risk, so partial discharges (PDs) and electrical breakdown are more likely to occur. This paper performs an experimental analysis of the effect of low-pressure environments and high-operating frequencies on the visual corona voltage, since corona discharges occurrence is directly related to arc tracking and insulation degradation in wiring systems. To this end, a rod-to-plane electrode configuration is tested in the 20–100 kPa and 50–1000 Hz ranges, these ranges cover most aircraft applications, so that the corona extinction voltage is experimentally determined by using a low-cost high-resolution CMOS imaging sensor which is sensitive to the visible and near ultraviolet (UV) spectra. The imaging sensor locates the discharge points and the intensity of the discharge, offering simplicity and low-cost measurements with high sensitivity. Moreover, to assess the performance of such sensor, the discharges are also acquired by analyzing the leakage current using an inexpensive resistor and a fast oscilloscope. The experimental data presented in this paper can be useful in designing insulation systems for MEA and AEA applications.

Published
2021
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10. CNN-LSTM-Based Prognostics of Bidirectional Converters for Electric Vehicles’ Machine

Author

Gabriel Rojas-Dueñas, Jordi-Roger Riba, and Manuel Moreno-Eguilaz

Subjects
power converters, electric vehicles, fault diagnosis, accelerated aging tests, artificial neural networks, Chemical technology, TP1-1185
Abstract

This paper proposes an approach to estimate the state of health of DC-DC converters that feed the electrical system of an electric vehicle. They have an important role in providing a smooth and rectified DC voltage to the electric machine. Thus, it is important to diagnose the actual status and predict the future performance of the converter and specifically of the electrolytic capacitors, in order to avoid malfunctioning and failures, since it is known they have the highest failure rates among power converter components. To this end, accelerated aging tests of the electrolytic capacitors are performed by applying an electrical overstress. The gathered data are used to train a CNN-LSTM model that is capable of predicting the future values of the capacitance and the equivalent series resistance (ESR) of the electrolytic capacitor. This model can be used to estimate the remaining useful life of the device, thus, increasing the reliability of the system and ensuring an adequate operating condition of the electric motor.

Published
2021
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11. On-Line Remaining Useful Life Estimation of Power Connectors Focused on Predictive Maintenance

Author

Jordi-Roger Riba, Álvaro Gómez-Pau, Jimmy Martínez, and Manuel Moreno-Eguilaz

Subjects
electrical connector, contact resistance, remaining useful life, reliability, data acquisition, maintenance, Chemical technology, TP1-1185
Abstract

Connections are critical elements in power systems, exhibiting higher failure probability. Power connectors are considered secondary simple devices in power systems despite their key role, since a failure in one such element can lead to major issues. Thus, it is of vital interest to develop predictive maintenance approaches to minimize these issues. This paper proposes an on-line method to determine the remaining useful life (RUL) of power connectors. It is based on a simple and accurate model of the degradation with time of the electrical resistance of the connector, which only has two parameters, whose values are identified from on-line acquired data (voltage drop across the connector, electric current and temperature). The accuracy of the model presented in this paper is compared with the widely applied autoregressive integrated moving average model (ARIMA), showing enhanced performance. Next, a criterion to determine the RUL is proposed, which is based on the inflection point of the expression describing the electrical resistance degradation. This strategy allows determination of when the connector must be replaced, thus easing predictive maintenance tasks. Experimental results from seven connectors show the potential and viability of the suggested method, which can be applied to many other devices.

Published
2021
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12. Time Series RUL Estimation of Medium Voltage Connectors to Ease Predictive Maintenance Plans

Author

Álvaro Gómez-Pau, Jordi-Roger Riba, and Manuel Moreno-Eguilaz

Subjects
remaining useful life, predictive maintenance, power connectors, ageing, ARIMA model, time series, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The ageing process of medium voltage power connectors can lead to important power system faults. An on-line prediction of the remaining useful life (RUL) is a convenient strategy to prevent such failures, thus easing the application of predictive maintenance plans. The electrical resistance of the connector is the most widely used health indicator for condition monitoring and RUL prediction, even though its measurement is a challenging task because of its low value, which typically falls in the range of a few micro-ohms. At the present time, the RUL of power connectors is not estimated, since their electrical parameters are not monitored because medium voltage connectors are considered cheap and secondary devices in power systems, despite they play a critical role, so their failure can lead to important power flow interruptions with the consequent safety risks and economic losses. Therefore, there is an imperious need to develop on-line RUL prediction strategies. This paper develops an on-line method to solve this issue, by predicting the RUL of medium voltage connectors based on the degradation trajectory of the electrical resistance, which is characterized by analyzing the electrical resistance time series data by means of the autoregressive integrated moving average (ARIMA) method. The approach proposed in this paper allows applying predictive maintenance plans, since the RUL enables determining when the power connector must be replaced by a new one. Experimental results obtained from several connectors illustrate the feasibility and accuracy of the proposed approach for an on-line RUL prediction of power connectors.

Published
2020
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13. Insulation Failure Quantification Based on the Energy of Digital Images Using Low-Cost Imaging Sensors

Author

Jordi-Roger Riba, Álvaro Gómez-Pau, and Manuel Moreno-Eguilaz

Subjects
imaging sensor, digital images, image processing, energy, partial discharges, corona effect, Chemical technology, TP1-1185
Abstract

Insulation faults in high-voltage applications often generate partial discharges (PDs) accompanied by corona activity, optical radiation mainly in the ultraviolet (UV) and visible bands. Recent developments in low-cost, small-size, and high-resolution visible imaging sensors, which are also partially sensitive to the UV spectral region, are gaining attention due to their many industrial applications. This paper proposes a method for early PD detection by using digital imaging sensors, which allows the severity of insulation faults to be assessed. The electrical power dissipated by the PDs is correlated to the energy of the acquired visible images, and thus, the severity of insulation faults is determined from the energy of the corona effect. A criterion to quantify the severity of insulation faults based on the energy of the corona images is proposed. To this end, the point-to-plane gap configuration is analyzed in a low-pressure chamber, where digital image photographs of the PDs are taken and evaluated under different pressure conditions ranging from 10 to 100 kPa, which cover the typical pressure range of aeronautic applications. The use of digital imaging sensors also allows an early detection, location and quantification of the PD activity, and thus assessing the severity of insulation faults to perform predictive maintenance tasks, while enabling the cost and complexity of the instrumentation to be reduced. Although the approach proposed in this paper has been applied to detect PDs in aeronautic applications, it can be applied to many other high-voltage applications susceptible of PD occurrence.

Published
2020
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14. Experimental Study of the Corona Performance of Aged Sand-Cast Substation Connectors

Author

Jordi-Roger Riba, Santiago Bogarra, Álvaro Gómez-Pau, and Manuel Moreno-Eguilaz

Subjects
corona effect, ageing, substation connectors, high-voltage, sand casting, Technology
Abstract

Substation connectors, like many other high-voltage products, are tested once manufactured. However, the corona behavior of aged specimens can differ from that exhibited by newer ones, thus generating detrimental technical and environmental effects. Manufacturers need to know the long-term corona behavior of substation connectors to offer their customers maximum safety and transparency about such critical products. This paper analyzes the ageing effect on the surface roughness and the visual corona extinction voltage of sand-cast aluminum connectors, which were artificially aged in a salt spray chamber for different periods. The experimental results show an important variability of the surface roughness and corona extinction voltage (CEV) among connectors with the same ageing level due to the sand-casting manufacturing process. The results in this paper also show a slight increase in the surface roughness with the ageing period, although there is not a clear pattern between the applied ageing level and the experimental CEV value. It is concluded that the inherent variability among connectors due to the sand-cast process has more influence than the ageing effect itself.

Published
2020
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15. Arc Tracking Control in Insulation Systems for Aeronautic Applications: Challenges, Opportunities, and Research Needs

Author

Jordi-Roger Riba, Álvaro Gómez-Pau, Manuel Moreno-Eguilaz, and Santiago Bogarra

Subjects
arc tracking, partial discharges, corona effect, insulator materials, polymers, power system protections, aeronautic wires, Chemical technology, TP1-1185
Abstract

Next generation aircrafts will use more electrical power to reduce weight, fuel consumption, system complexity and greenhouse gas emissions. However, new failure modes and challenges arise related to the required voltage increase and consequent rise of electrical stress on wiring insulation materials, thus increasing the risk of electrical arc appearance. This work performs a critical and comprehensive review concerning arc tracking effects in wiring insulation systems, underlying mechanisms, role of materials and possible mitigation strategies, with a special focus on aircraft applications. To this end an evaluation of the scientific and technological state of the art is carried out from the analysis of theses, research articles, technical reports, international standards and white papers. This review paper also reports the limitations of existing insulation materials, standard test methods and mitigation approaches, while identifying the research needs to comply with the future demands of the aircraft industry.

Published
2020
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16. Experimental Study of Visual Corona under Aeronautic Pressure Conditions Using Low-Cost Imaging Sensors

Author

Jordi-Roger Riba, Álvaro Gómez-Pau, and Manuel Moreno-Eguilaz

Subjects
partial discharge, corona effect, arc tracking, imaging sensor, high voltage, low pressure, more electric aircraft, aeronautics, Chemical technology, TP1-1185
Abstract

Visual corona tests have been broadly applied for identifying the critical corona points of diverse high-voltage devices, although other approaches based on partial discharge or radio interference voltage measurements are also widely applied to detect corona activity. Nevertheless, these two techniques must be applied in screened laboratories, which are scarce and expensive, require sophisticated instrumentation, and typically do not allow location of the discharge points. This paper describes the detection of the visual corona and location of the critical corona points of a sphere-plane gap configurations under different pressure conditions ranging from 100 to 20 kPa, covering the pressures typically found in aeronautic environments. The corona detection is made with a low-cost CMOS imaging sensor from both the visible and ultraviolet (UV) spectrum, which allows detection of the discharge points and their locations, thus significantly reducing the complexity and costs of the instrumentation required while preserving the sensitivity and accuracy of the measurements. The approach proposed in this paper can be applied in aerospace applications to prevent the arc tracking phenomenon, which can lead to catastrophic consequences since there is not a clear protection solution, due to the low levels of leakage current involved in the pre-arc phenomenon.

Published
2020
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17. Analysis and Mitigation of Stray Capacitance Effects in Resistive High-Voltage Dividers

Author

Jordi-Roger Riba, Francesca Capelli, and Manuel Moreno-Eguilaz

Subjects
stray capacitance, finite element analysis, voltage divider, high-voltage, Technology
Abstract

This work analyzes the effects of the parasitic or stray distributed capacitance to ground in high-voltage environments and assesses the effectiveness of different corrective actions to minimize such effects. To this end, the stray capacitance of a 130 kV RMS high-voltage resistive divider is studied because it can severely influence the behavior of such devices when operating under alternating current or transient conditions. The stray capacitance is calculated by means of three-dimensional finite element analysis (FEA) simulations. Different laboratory experiments under direct current (DC) and alternating current (AC) supply are conducted to corroborate the theoretical findings, and different possibilities to mitigate stray capacitance effects are analyzed and discussed. The effects of the capacitance are important in applications, such as large electrical machines including transformers, motors, and generators or in high-voltage applications involving voltage dividers, conductors or insulator strings, among others. The paper also proves the usefulness of FEA simulations in predicting the stray capacitance, since they can deal with a wide range of configurations and allow determining the effectiveness of different corrective configurations.

Published
2019
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19. Advanced Methodology for the Optimal Sizing of the Energy Storage System in a Hybrid Electric Refuse Collector Vehicle Using Real Routes

Author

Ernest Cortez, Manuel Moreno-Eguilaz, and Francisco Soriano

Subjects
energy storage, fuel economy, genetic algorithms, optimisation, Technology
Abstract

This paper presents a new methodology for optimal sizing of the energy storage system ( E S S ), with the aim of being used in the design process of a hybrid electric (HE) refuse collector vehicle ( R C V ). This methodology has, as the main element, to model a multi-objective optimisation problem that considers the specific energy of a basic cell of lithium polymer ( L i ⁻ P o ) battery and the cost of manufacture. Furthermore, optimal space solutions are determined from a multi-objective genetic algorithm that considers linear inequalities and limits in the decision variables. Subsequently, it is proposed to employ optimal space solutions for sizing the energy storage system, based on the energy required by the drive cycle of a conventional refuse collector vehicle. In addition, it is proposed to discard elements of optimal space solutions for sizing the energy storage system so as to achieve the highest fuel economy in the hybrid electric refuse collector vehicle design phase.

Published
2018
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36. On-Line Health Condition Monitoring of Power Connectors Focused on Predictive Maintenance

Author

Alvaro Gomez-Pau, Manuel Moreno-Eguilaz, J. A. Martinez, Jordi-Roger Riba, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Electric networks, Online monitoring, Parameter identification, Enginyeria elèctrica [Àrees temàtiques de la UPC], Computer science, Power connectors, Xarxes elèctriques, 020209 energy, Predictive maintenance, Energy Engineering and Power Technology, Condition monitoring, Contact resistance, 02 engineering and technology, Line (electrical engineering), Reliability engineering, Power (physics), Cable gland, 0202 electrical engineering, electronic engineering, information engineering, Electric power, Electrical and Electronic Engineering, Fault diagnosis, Voltage drop, Parametric statistics
Abstract

Electrical power connectors are critical points of electrical networks. Failure in high-voltage connectors may result in major power outages, safety risks and important economic consequences. Therefore, there is an imperious need to tackle such issue by developing suitable on-line condition monitoring strategies to minimize the aforementioned problems and to ease the application of predictive maintenance tasks. This work develops an on-line condition monitoring method to predict early failures in power connectors from data acquired on-line (electric current and voltage drop across the connector, and temperature) to determine the instantaneous value of the connector resistance, since it is used as a signature or indicator of its health condition. The proposed approach combines a parametric degradation model of the resistance of the connector, whose parameters are identified by means of the Markov chain Monte Carlo stochastic method, which also provides the confidence intervals of the electrical resistance. This fast approach allows an on-line diagnosis of the health condition of the connector, anticipating its failure and thus, easing the application of predictive maintenance plans. Laboratory results emulating the ageing conditions of the connectors prove the suitability and feasibility of the proposed approach, which could be applied to other power products and apparatus.

Published
2021
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37. Black-Box Modeling of DC–DC Converters Based on Wavelet Convolutional Neural Networks

Author

Jordi-Roger Riba, Manuel Moreno-Eguilaz, Gabriel Rojas-Duenas, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Identification, Computer science, 02 engineering and technology, Convolutional neural network, Data modeling, Wavelet, Airplanes -- Electronic equipment, Robustness (computer science), wavelet, Black box, (CNNs), 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Avions -- Equip electrònic, Electrical and Electronic Engineering, Instrumentation, Avions -- Equip electric, Enginyeria elèctrica [Àrees temàtiques de la UPC], DC–DC converter, business.industry, Deep learning, 020208 electrical & electronic engineering, Enginyeria electrònica [Àrees temàtiques de la UPC], Modeling, Converters, Power (physics), Convolutional neural networks, Artificial intelligence, business
Abstract

This paper presents an offline deep learning approach focused to model and identify a 270 V-to-28 V DC-DC step-down converter used in on-board distribution systems of more electric aircrafts (MEA). Manufacturers usually do not provide enough information of the converters. Thus, it is difficult to perform design and planning tasks and to check the behavior of the power distribution system without an accurate model. This work considers the converter as a black-box, and trains a wavelet convolutional neural network (WCNN) that is able of accurately reproducing the behavior of the DC-DC converter from a large set of experimental data. The methodology to design a WCNN based on the characteristics of the input and output signals of the converter is also described. The method is validated with experimental data obtained from a setup that replicates the 28 V on-board distribution system of an aircraft. The results presented in this paper show a high correlation between measured and estimated data, robustness and low computational burden. This paper also compares the proposed approach against other techniques presented in the literature. It is possible to extend this method to other DC-DC converters, depending on their requirements.

Published
2021
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39. Sensor Comparison for Corona Discharge Detection Under Low Pressure Conditions

Author

Manuel Moreno-Eguilaz, Jordi-Roger Riba, Alvaro Gomez-Pau, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group, and Universitat Politècnica de Catalunya. QINE - Disseny de Baix Consum, Test, Verificació i Circuits Integrats de Seguretat

Subjects
Acoustics, 01 natural sciences, Predictive maintenance, Distribution system, Enginyeria electrònica::Instrumentació i mesura::Sensors i actuadors [Àrees temàtiques de la UPC], Partial discharge, Imatges -- Convertidors, Antenna sensor, Electrical and Electronic Engineering, Image sensor, Pressure--Measurement, Sensor low pressure, Instrumentation, Corona discharge, Ultraviolet, Pressió -- Mesurament, 010401 analytical chemistry, High voltage, High-voltage, Airplanes, Corona effect, 0104 chemical sciences, Image converters, Leakage current, Environmental science, Avions, Single loop, Imaging sensor, Voltage
Abstract

©2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. Low pressure environments, situate insulation systems in a challenging position since partial discharges (PDs), corona and arc tracking are more likely to develop. Therefore, specific solutions are required to detect such harmful phenomena before major failure occurrence. This paper deals with three low-cost and small-size sensing methods, i.e., a single loop antenna, a visible-UV imaging sensor and the measurement of the leakage current to detect corona in the early stage, thus anticipating the appearance of severer effects such as arc tracking or disruptive breakdown. The three studied methods can be applied for an on-line monitoring of corona activity under low pressure environments, thus being compatible with predictive maintenance approaches. This on-line monitoring can be used to develop improved electrical protection devices able to detect such effects in an initial stage, thus improving current solutions which are unable to do so. All three studied sensors give consistent linear responses within the studied pressure range, i.e., 10-100 kPa, with almost no drift. The sensitivity of the visible-UV imaging sensor is slightly lower than that of the others, but it has the advantage of directly locating the discharge points. Results presented in this paper can be very useful for the more electrical aircraft (MEA), which is forcing electrical distribution systems to operate at higher voltage levels. Due to the little experience and scarcity of published data, the experimental results presented in this paper can be valuable for a better understanding of the combined action of high voltage and low pressure environments. This work was supported in part by the Generalitat de Catalunya under Project 2017 SGR 967 & in part by the Spanish Ministry of Science and Innovation under Project RTC-2017-6297-3. J.-R. Riba is with the Universitat Politècnica de Catalunya

Published
2020
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40. Surface Discharges Performance of ETFE- and PTFE-Insulated Wires for Aircraft Applications

Author

Jordi-Roger Riba Ruiz, Maxence Boizieau, Tamerlan Ibrayemov, MANUEL MORENO-EGUILAZ, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Ultraviolet radiation, Aeronaus, Aeronàutica i espai::Aeronaus [Àrees temàtiques de la UPC], Flying machines, Low-pressure, Radiació ultraviolada, Enginyeria electrònica [Àrees temàtiques de la UPC], Energia elèctrica, General Materials Science, Solar blind sensors, aircraft power systems, low-pressure, solar blind sensors, ultraviolet radiation, Electric power, Aircraft power systems
Abstract

Compared to their predecessors, the next generations of aircrafts will be more electrified, require more electrical power and operate at higher voltage levels to meet strict weight and volume constraints. The combined effect of low-pressure environments, increased voltage levels and compact designs intensifies the risks of premature insulation degradation due to electrical discharge activity. This paper studies the resistance to surface discharges of PTFE (polytetrafluoroethylene) and ETFE (ethylene tetrafluoroethylene), two insulation materials widely used in today’s aircraft wiring systems due to their outstanding properties, such as a wide temperature operation range and a high dielectric strength. The study is carried out in a low-pressure chamber, which was pressurized within the pressure range of 10–100 kPa that includes most aircraft applications. There is a compelling need for experimental data to assess the resistance of insulation materials to surface discharges at a very early stage as a function of the environmental pressure. Data on resistance to surface discharges in low-pressure environments for aeronautical applications are lacking, while most standards for insulation systems are based on tests under standard pressure conditions. The results provided in this work can be useful to design wiring systems for future more electric aircrafts, as well as to design fault detection systems for an early detection and identification of faults related to surface discharges. Therefore, the data and analysis included in this paper could be of great interest to design and develop insulation systems for wiring systems and standard assessment methods, as well as to design fault detection strategies for the early detection and identification of surface discharges for future generations of more electric aircrafts. This research was partially funded by the Ministerio de Ciencia e Innovación de España, grant number PID2020‐114240RB‐I00 and by the Generalitat de Catalunya, grant number 2017 SGR 967.

Published
2022

41. Arc fault protections for aeronautic applications: a review identifying the effects, detection methods, current progress, limitations, future challenges, and research needs

Author

Jordi-Roger Riba Ruiz, Juan Antonio Ortega Redondo, MANUEL MORENO-EGUILAZ, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Electrical protections, Enginyeria elèctrica [Àrees temàtiques de la UPC], Wiring systems, Corona effect, Wiring insulations, Airplanes -- Electric equipment, Avions -- Equip elèctric, Series arcs, Partial discharges, Aeronàutica i espai::Aeronaus [Àrees temàtiques de la UPC], Descàrregues elèctriques, Electric discharges, Electrical and Electronic Engineering, Instrumentation, Arc tracking
Abstract

©2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. Arc faults are serious discharges, damaging insulation systems and triggering electrical fires. This is a transversal topic, affecting from residential to aeronautic applications. Current commercial aircrafts are being progressively equipped with arc fault protections. With the development of more electric aircrafts (MEA), future airliners will require more electrical power to enhance fuel economy, save weight and reduce emissions. The ultimate goal of MEAs is electrical propulsion, where fault management devices will have a leading role, because aircraft safety is of utmost importance. Therefore, current fault management devices must evolve to fulfill the safety requirements of electrical propelled aircrafts. To deal with the increased electrical power generation, the distribution voltage must be raised, thus leading to new electrical fault types, in particular arc tracking and series arcing, which are further promoted by the harsh environments typical of aircraft systems, i.e., low pressure, extreme humidity and a wide range of temperatures. Therefore, the development of specific electrical protections which are able to protect against these fault types is a must. This paper reviews the state-of-the-art of electrical protections for aeronautic applications, identifying the current status and progress, their drawbacks and limitations, the future challenges and research needs to fulfill the future requirements of MEAs, with a special emphasis on series arc faults due to arc tracking, because of difficulty in detecting such low-energy faults in the early stage and the importance and harmful effects of tracking activity in cabling insulation systems. This technological and scientific review is based on a deep analysis of research and conference papers, official reports, white papers and international regulations. This research was partially funded by the Ministerio de Ciencia e Innovación de España, grant number PID2020-114240RB-I00 and by the Generalitat de Catalunya, grant number 2017 SGR 967.

Published
2022

42. Measurement of corona discharges under variable geometry, frequency and pressure environment

Author

Jordi-Roger Riba Ruiz, Pau Bas, MANUEL MORENO-EGUILAZ, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Finite element method, more electric aircraft, electrical discharges, visual corona, corona extinction voltage, variable frequency, low pressure, curvature radius, finite element method, Low pressure, Avions--Equip elèctric, Enginyeria elèctrica [Àrees temàtiques de la UPC], Curvature radius, Enginyeria electrònica [Àrees temàtiques de la UPC], Variable frequency, Biochemistry, Atomic and Molecular Physics, and Optics, More electric aircraft, Analytical Chemistry, Visual corona, Corona extinction voltage, Airplanes--Electric equipment, Electrical and Electronic Engineering, Instrumentation, Electrical discharges
Abstract

Aeronautical industry is evolving towards more electric aircrafts (MEA), which will require much more electrical power compared to conventional models. To satisfy this increasing power demand and stringent weight requirements, distribution voltages must be raised, which jointly with the low-pressure environment and high operating frequencies increase the risk of electrical discharges occurrence. Therefore, it is important to generate data to design insulation systems for these demanding applications. To this end, in this work a sphere-to-plane electrode configuration is tested for several sphere geometries (diameters ranging from 2 mm to 10 mm), frequencies of 50 Hz, 400 Hz and 800 Hz and pressures in the 20–100 kPa range, to cover most aircraft applications. The corona extinction voltage is experimentally determined by using a gas-filled tube solar blind ultraviolet (UV) sensor. In addition, a CMOS imaging sensor is used to locate the discharge points. Next, to gain further insight to the discharge conditions, the electric field strength is calculated using finite element method (FEM) simulations and fitted to equations based on Peek’s law. The results presented in this paper could be especially valuable to design aircraft electrical insulations as well as for high-voltage hardware manufacturers, since the results allow determining the electric field values at which the components can operate free of surface discharges for a wide altitude range.

Published
2022
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43. Performance evaluation of solar-blind gas-filled sensors to detect electrical discharges for low-pressure aircraft applications

Author

Jordi-Roger Riba Ruiz, Maxence Boizieau, Tamerlan Ibrayemov, MANUEL MORENO-EGUILAZ, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Ultraviolet radiation, ultraviolet radiation, Aircraft, aircraft power systems, low pressure, solar-blind sensors, Espectre ultraviolat, TP1-1185, Sistemes de distribució d'energia elèctrica, Biochemistry, Article, Analytical Chemistry, Electric power systems, Aeronaus, Electricity, Aeronàutica i espai::Aeronaus [Àrees temàtiques de la UPC], Flying machines, Electrical and Electronic Engineering, Instrumentation, Low pressure, Chemical technology, Atomic and Molecular Physics, and Optics, Aircraft power systems, Descàrregues elèctriques, Sunlight, Enginyeria electrònica::Electrònica de potència [Àrees temàtiques de la UPC], Solar-blind sensors, Electric discharges, Ultraviolet spectra
Abstract

Unpressurized aircraft circuits facilitate the initiation of electrical discharges in wiring systems, with consequent damage to related insulation materials and safety hazards, that can and have already caused severe incidents and accidents. Specific sensors and solutions must be developed to detect these types of faults at a very incipient stage, before further damage occurs. Electrical discharges in air generate the corona effect, which is characterized by emissions of bluish light, which are found in the ultraviolet (UV) and visible spectra. However, due to sunlight interference, the corona effect is very difficult to detect at the very initial stage, so the use of solar-blind sensors can be a possible solution. This work analyzes the feasibility of using inexpensive non-invasive solar-blind sensors in a range of pressures compatible with aircraft environments to detect the electrical discharges at a very incipient stage. Their behavior and sensitivity compared with other alternatives, i.e., an antenna sensor and a CMOS imaging sensor, is also assessed. Experimental results presented in this paper show that the analyzed solar-blind sensors can be applied for the on-line detection of electrical discharges in unpressurized aircraft environments at the very initial stage, thus facilitating and enabling the application of predictive maintenance strategies. They also offer the possibility to be combined with existing electrical protections to expand their capabilities and improve their sensitivity to detect very early discharges, thus allowing the timely identification of their occurrence. This research was partially funded by Ministerio de Ciencia e Innovación de España, grant number PID2020-114240RB-I00, and by the Generalitat de Catalunya, grant number 2017 SGR 967.

Published
2022

44. Energy Harvesting Methods for Transmission Lines: A Comprehensive Review

Author

Santiago Bogarra, Jordi-Roger Riba Ruiz, MANUEL MORENO-EGUILAZ, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Transmission lines, Fluid Flow and Transfer Processes, Línies de telecomunicacions, Electric power distribution, Energy harvesting, Process Chemistry and Technology, General Engineering, Predictive maintenance, Ultra-low power, Electric lines, Computer Science Applications, Electric power systems, Telecommunication lines, Energia elèctrica -- Distribució, Batteryless, Distributed sensors, General Materials Science, Enginyeria elèctrica::Distribució d’energia elèctrica [Àrees temàtiques de la UPC], Instrumentation, Línies elèctriques
Abstract

Humanity faces important challenges concerning the optimal use, security, and availability of energy systems, particularly electrical power systems and transmission lines. In this context, data-driven predictive maintenance plans make it possible to increase the safety, stability, reliability, and availability of electrical power systems. In contrast, strategies such as dynamic line rating (DLR) make it possible to optimize the use of power lines. However, these approaches require developing monitoring plans based on acquiring electrical data in real-time using different types of wireless sensors placed in strategic locations. Due to the specific conditions of the transmission lines, e.g., high electric and magnetic fields, this a challenging problem, aggravated by the harsh outdoor environments where power lines are built. Such sensors must also incorporate an energy harvesting (EH) unit that supplies the necessary electronics. Therefore, the EH unit plays a key role, so when designing such electronic systems, care must be taken to select the most suitable EH technology, which is currently evolving rapidly. This work reviews and analyzes the state-of-the-art technology for EH focused on transmission lines, as it is an area with enormous potential for expansion. In addition to recent advances, it also discusses the research needs and challenges that need to be addressed. Despite the importance of this topic, there is still much to investigate, as this area is still in its infancy. Although EH systems for transmission lines are reviewed, many other applications could potentially benefit from introducing wireless sensors with EH capabilities, such as power transformers, distribution switches, or low- and medium-voltage power lines, among others. This research was funded by Ministerio de Ciencia e Innovación de España, grant number PID2020-114240RB-I00 and by the Generalitat de Catalunya, grant number 2017 SGR 967.

Published
2022
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45. Real-Time Wireless, Contactless, and Coreless Monitoring of the Current Distribution in Substation Conductors for Fault Diagnosis

Author

Josep Sanllehi, Jordi-Roger Riba, Akash Kadechkar, Manuel Moreno-Eguilaz, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Efecte Hall, Computer science, Electric conductors, Conductors elèctrics, 01 natural sciences, Predictive maintenance, law.invention, predictive maintenance, Hall effect, law, blind source separation, Ampacity, Electrical and Electronic Engineering, Instrumentation, Electrical conductor, Overheating (electricity), Energies::Energia elèctrica::Automatització i control de l'energia elèctrica [Àrees temàtiques de la UPC], Electric connectors, Electric power distribution, Connectors elèctrics, business.industry, non-intrusive current measurement, 010401 analytical chemistry, Electrical engineering, Detectors, fault diagnosis, real-time monitoring, 0104 chemical sciences, Electric power transmission, Energia elèctrica -- Distribució, Hall effect sensor, current distribution, business, Alternating current
Abstract

Parallel conductors are found in electrical transmission and distribution systems including large ampacity feeders or loads. However, current unbalance often occurs, especially in alternating current systems. This non-regular current distribution causes overheating and premature ageing, facilitating the occurrence of failures. Therefore, a fault diagnosis system is a must, which can be performed by monitoring in real-time the individual currents flowing through the conductors. In this paper a setup including three parallel aluminum conductors of large cross section, a spacer and two terminal substation connectors is analyzed. A real-time, wireless, coreless and contactless system based on three low cost Hall effect sensors is proposed, which is also easy to install. Experimental results, which include fourteen cases, comprising thirteen fault modes and a well installed set, prove the suitability and potential of the proposed approach, since it allows a correct real-time detection of all analyzed faulty conditions as well as the detection of currents exceeding the thermal rating of the conductors.

Published
2019
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46. State of Health Prediction of Power Connectors by Analyzing the Degradation Trajectory of the Electrical Resistance

Author

Manuel Moreno-Eguilaz, J. A. Martinez, Jordi-Roger Riba, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Online and offline, TK7800-8360, Parameter identification, Computer Networks and Communications, Computer science, State of health, 020209 energy, condition monitoring, 02 engineering and technology, Predictive maintenance, parameter identification, predictive maintenance, 0202 electrical engineering, electronic engineering, information engineering, Power semiconductor device, Electrical and Electronic Engineering, Predictive control, Electric connectors, state of health, Control predictiu, Connectors elèctrics, Enginyeria elèctrica [Àrees temàtiques de la UPC], 020208 electrical & electronic engineering, Enginyeria electrònica [Àrees temàtiques de la UPC], Condition monitoring, Power (physics), Reliability engineering, Hardware and Architecture, Control and Systems Engineering, visual_art, Signal Processing, Electronic component, Trajectory, visual_art.visual_art_medium, Electrical connectors, Electronics, electrical connectors
Abstract

Estimating the remaining useful life (RUL) or the state of health (SoH) of electrical components such as power connectors is still a challenging and complex task. Power connectors play a critical role in medium- and high-voltage power networks, their failure leading to important consequences such as power outages, unscheduled downtimes, safety hazards or important economic losses. Online condition monitoring strategies allow developing improved predictive maintenance plans. Due to the development of low-cost sensors and electronic communication systems compatible with Internet of Things (IoT) applications, several methods for online and offline SoH determination of diverse power devices are emerging. This paper presents, analyzes and compares the performance of three simple and effective methods for online determination of the SoH of power connectors with low computational requirements. The proposed approaches are based on monitoring the evolution of the connectors’ electrical resistance, which defines the degradation trajectory because the electrical resistance is a reliable indicator or signature of the SoH of the connectors. The methods analyzed in this paper are validated by means of experimental ageing tests emulating real degradation conditions. Laboratory results prove the suitability and feasibility of the proposed approach, which could be applied to other power products and apparatus.

Published
2021
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47. Characterizing the temperature dependence of the contact resistance in substation connectors

Author

Francesca Capelli, J. A. Martinez, Jordi-Roger Riba, Manuel Moreno-Eguilaz, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Electric resistance, Work (thermodynamics), Total resistance, Materials science, Busbar, Remaining useful life, Mechanical engineering, 02 engineering and technology, 01 natural sciences, Electrical resistance and conductance, 0103 physical sciences, Thermal, Electrical and Electronic Engineering, Instrumentation, Electrical conductor, Fault diagnosis, 010302 applied physics, Electric connectors, Connectors elèctrics, Enginyeria elèctrica [Àrees temàtiques de la UPC], Contact resistance, Metals and Alloys, Predictive maintenance, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electrical contacts, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, 0210 nano-technology, Resistència elèctrica, Substation connectors
Abstract

The electrical resistance, and in particular, the electrical contact resistance (ECR), plays a critical role in the electrical and thermal behaviors of substation connectors. Despite its impact, there are very few research works analyzing the temperature dependence of the ECR and its terms, the constriction and film resistances. It is very important to understand the contribution of the ECR to the total resistance, and its dependence on temperature. This work studies these dependences in detail by analyzing two types of connectors, i.e., connectors intended to join tubular bus bars, and connectors for stranded conductors. Due to the specific features of bus bars and stranded conductors, the ECR of both conductors has a different impact on the total resistance. The experimental approach presented in this work can be applied to better understand the role of the contact resistance, allowing the design of improved and more reliable substation connectors and similar devices. This work was supported in part by the Ministerio de Ciencia e Innovación de España, under grant number RTC-2017-6297-3 and by the Generalitat de Catalunya under grant number 2017 SGR 967.

Published
2021

48. Parameter estimation of a single-phase boost PFC converter with EMI filter based on an optimization algorithm

Author

Gabriel Rojas-Duenas, Jordi-Roger Riba, Manuel Moreno-Eguilaz, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
EMI filter, TK7800-8360, Parameter identification, Computer Networks and Communications, Computer science, Topology (electrical circuits), 02 engineering and technology, Power factor, Power factor correction, parameter identification, Control theory, EMI, Analog-to-digital converters, 0202 electrical engineering, electronic engineering, information engineering, boost converter, Electrical and Electronic Engineering, power factor correction, Estimation theory, Boost converter, 020208 electrical & electronic engineering, Enginyeria electrònica [Àrees temàtiques de la UPC], 020206 networking & telecommunications, Converters, Hardware and Architecture, Control and Systems Engineering, Filter (video), Non-linear least squares, Signal Processing, electrical_electronic_engineering, Convertidors analògic/digitals, Electronics
Abstract

This paper proposes an approach to estimate the parameters of an AC-DC boost power factor corrector converter which includes an EMI filter. To this end, once the topology is known, measurements at the input and output terminals of the converter are done to identify the values of the passive elements. The proposed methodology is based on the trust-region nonlinear least squares algorithm to identify the parameters of the converter. The steady-state and the transient signals of the converter at the input/output terminals are acquired non-intrusively without any internal modification of the circuitry. The accuracy of the parameter identification carried out is determined by comparing the estimated values with the actual values provided by the manufacturer, and by contrasting the measured signals with the ones obtained with a simulation model with the estimated values of the parameters. The results presented in this paper prove the accuracy of the proposed approach, which can be extended to other power converters and filters.

Published
2021
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49. Modeling of a DC-DC bidirectional converter used in mild hybrid electric vehicles from measurements

Author

Jordi-Roger Riba, Gabriel Rojas-Duenas, Manuel Moreno-Eguilaz, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Steady state (electronics), Computer science, 02 engineering and technology, Convertidors continu-continu, Mild hybrid electric vehicle, Vehicles elèctrics híbrids, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Power semiconductor device, Transient response, Electrical and Electronic Engineering, Instrumentation, DC-DC bidirectional converter, Artificial neural network, business.industry, Enginyeria elèctrica [Àrees temàtiques de la UPC], Applied Mathematics, Deep learning, 020208 electrical & electronic engineering, Modeling, 020206 networking & telecommunications, Converters, Condensed Matter Physics, Neural network, Power (physics), DC-to-DC converters, A priori and a posteriori, Artificial intelligence, business
Abstract

This paper presents a non-intrusive approach for modeling a bidirectional DC-DC converter used in mild hybrid electric vehicles. A black-box identification methodology is proposed to find a model based on the data acquired from the input/output terminals. Measured data include the steady state and transient response, and different operating conditions of the DC-DC converter, including the buck and boost modes. A deep learning architecture based on a long-short-term memory neural network (LSTM-NN) is applied. The trained network is tested under a set of operating points different from those used during the training stage. The proposed method is compared with three black-box modeling techniques commonly used in power converters, proving its superior performance. Results presented in this paper indicate that the proposed model is able to replicate the behavior of the bidirectional converter without a priori knowledge of the converter circuitry. This approach can also be applied to other power devices.

Published
2021
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50. Analysing the influence of geometry and pressure on corona discharges

Author

Jordi-Roger Riba, Pau Bas-Calopa, Manuel Moreno-Eguilaz, Universitat Politècnica de Catalunya. Departament d'Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Elèctrica, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, and Universitat Politècnica de Catalunya. MCIA - Motion Control and Industrial Applications Research Group

Subjects
Corona discharges, Ionization, Low pressure, Física [Àrees temàtiques de la UPC], Ionització, Geometry, Geometria, General Physics and Astronomy, High-voltage
Abstract

In this work, the authors propose an experiment aimed for undergraduate laboratories with the aim of introducing different novelties as a topic for practical sessions or student projects. The topics here investigated are appropriate for students with intermediate physics knowledge. Corona discharges are little studied in regular physics courses despite their practical importance in different areas, such as the distribution and transmission of electrical power, generation of ozone, particulate removal in air conditioning systems, improvement of wettability in polymeric materials, or the removal of electrostatic charges from the surface of airplanes among others. This work analyses the minimum voltage level leading to corona discharges and the influence of geometry and atmospheric pressure because these two factors are the most influential to determine the minimum voltage at which corona discharges appear. This work was partially supported by Ministerio de Ciencia e Innovación de España, grant number PID2020-114240RB-I00 and by the Generalitat de Catalunya, grant number 2017 SGR 967.

Published
2022
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