Your search keyword '"Ungarala, Mohan Rao"' showing total 18 results

1. Analysis of Breakdown Voltage of Low Pour Point Synthetic Ester Insulating Liquids under Lightning Impulse Voltage of both Polarities

Author

Jayasree, T., Fofana, Issouf, Rozga, Pawel, Ungarala, Mohan Rao, Strzelecki, K., Brettschneider, Stephan, Picher, Patrick, Rodriguez Celis, E., Stuchala, F., Jayasree, T., Fofana, Issouf, Rozga, Pawel, Ungarala, Mohan Rao, Strzelecki, K., Brettschneider, Stephan, Picher, Patrick, Rodriguez Celis, E., and Stuchala, F.

Abstract

In this article, lightning impulse breakdown behaviour of two low pour point synthetic ester liquids is presented in comparison to a typical synthetic ester at both positive and negative polarities. Traditional mineral insulating oil has been also considered for reference purposes. A detailed breakdown behaviour analysis of the four test liquids under a non-uniform field (medium gap, point-plane electrode system) and quasi-uniform field (smaller gap, U-plane electrode system) is envisaged. The lightning impulse breakdown measurements based on the source voltage waveforms and light activity during the discharge process are presented. The Weibull breakdown failure rates and streamer velocity during the breakdown of different liquids for all the cases (+/- polarities and both electrode configurations) are reported in support of the discussions. In the case of non-uniform fields, the lightning breakdown voltage of the low pour point liquids is found to be higher than typical synthetic esters and is comparable to mineral oil under both polarities. While in the case of quasi-uniform field, the lightning breakdown voltage of the low pour point liquids is found to be lower than mineral oil and comparable to the typical synthetic ester under both polarities. These findings add to limited knowledge on the application of esters in cold countries and allow insulation designers to estimate the behaviour of the low pour point synthetic ester liquids under lightning conditions.

Published

2023

2. Next Generation Insulating Liquids

Author

Ungarala, Mohan Rao, Fofana, Issouf, Rozga, Pawel, Beroual, Abderrahmane, Malde, J., Martin, R., Wang, Feipeng, Casserly, Edward, Pompili, M., Calcara, L., Ungarala, Mohan Rao, Fofana, Issouf, Rozga, Pawel, Beroual, Abderrahmane, Malde, J., Martin, R., Wang, Feipeng, Casserly, Edward, Pompili, M., and Calcara, L.

Abstract

The IEEE technical committee on liquid dielectrics (TC-LD) activities mostly include study of aging phenomena, condition monitoring, and diagnostic testing of dielectric liquids. Notably, the emphasis is laid on the environmental and sustainability factors of the dielectric liquids. The TC-LD acts in promoting research on biodegradable insulating fluids, vis-à-vis existing literature on mineral insulating fluids for applications in oil-filled electrical apparatus. Thus, to prepare the global transformer technology for the next generation, a working group is planned within the scope and framework of the TC-LD. This working group aims to understand and summarize the intrinsic nature, behavioral aspects, and challenges in using ester liquids for liquid-filled high-voltage apparatuses. The objective of fine-tuning the ester liquids as high-performance insulating liquids with enhanced workability remains the focus of the working group. The present article presents the contemporary situation prevailing with the application of ester liquids in high-voltage transformers. The key concerns to improve the workability of ester liquids are discussed. The present article may be helpful to engineers and researchers interested in alternative insulation technologies, insulation engineers, and transformer owners.

Published

2022

3. Influence of Ester Liquids on Dielectric Strength of Cellulose Kraft Paper

Author

Tirupati Naidu, Gottapu, Ungarala, Mohan Rao, Suresh, Sudabattula, Tirupati Naidu, Gottapu, Ungarala, Mohan Rao, and Suresh, Sudabattula

Abstract

Generally, impregnation of solid insulation is performed to increase the dielectric strength and reduce the dielectric losses of solid insulants. This increase in dielectric strength depends on the oil’s diffusion and dielectric properties. This paper investigates the diffusion behavior of mineral oil and ester fluids (synthetic, natural, and mixed) to understand the influence of oil diffusion on paper breakdown voltage. To better understand this phenomenal influence, cellulose insulation paper of different thicknesses has been considered. Wetting characteristics of various oil-paper insulation systems were investigated with and without thermal stressing. Thermal aging was carried out as per modified ASTM D1934 at 110 °C, 140 °C, 160 °C, and 185 °C respectively for 2 weeks. The wetting characteristics and influence of different oils on paper breakdown voltage were explicitly reported. It is inferred that paper wetting characteristics are attributable to the type of oil, the thickness of paper, and the aging factor of oil-paper insulation. Importantly, the increase in paper dielectric strength and diffusion behavior for ester fluids is found to be superior to that of the mineral insulating oils.

Published

2022

4. Decay Particles and Regeneration of Ester Dielectric Liquids A Challenge!

Author

Ungarala, Mohan Rao, Fofana, Issouf, Picher, Patrick, Ungarala, Mohan Rao, Fofana, Issouf, and Picher, Patrick

Abstract

Ester dielectric fluids are no longer restricted to laboratory investigations and serve several transformers connected to the electric power network. Along with other technical aspects, it is also essential to understand the regeneration aspects of these alternative insulating liquids. Fuller’s earth is a popular and widely accepted adsorbent for regenerating mineral oils. The feasibility of using Fuller's earth for ester dielectric liquids is reported in this article.

Published

2022

5. Mixed Insulating Liquids with Mineral Oil for High Voltage Transformer Applications: A Review

Author

Lyutikova, M., Korobeynikov, S., Ungarala, Mohan Rao, Fofana, Issouf, Lyutikova, M., Korobeynikov, S., Ungarala, Mohan Rao, and Fofana, Issouf

Abstract

Due to the growing interest in environmental concerns, synthetic, and natural esters have become the key focus of the picture in the last two decades as insulating fluids for high voltage equipment. This is because, unlike mineral oil, ester liquids are biodegradable, non-toxic, and safe for the environment and human health. These fluids are derived from renewable sources and have high fire resistance. However, synthetic and natural ester fluids are still used in a rather limited number of electrical equipment for several reasons (high cost, high viscosity and density, increased tendency towards electrostatic charge, faster propagation of streamers in an inhomogeneous electric field, etc.). Besides, a huge amount of equipment is filled with mineral oils. The massive replacement of oil-filled equipment with natural or synthetic esters may be extremely expensive to utilities and transformer owners. In addition, in the event of partial or complete retrofilling of mineral oil with an ester fluid, the equipment may evidently contain a mixture of two insulating fluids; therefore, demanding the scope for research on mixed insulating liquids. The intent of this article is to present a comprehensive review of the literature on the blend of mineral oil and other alternative dielectric fluids. The critical research progresses, highlights, and challenges related to mixed liquids along with significant tutorial elements as well as some analyses are discussed. This review should be useful for researchers, utilities, and transformer owners concerned with ester liquids and retro filling aspects.

Published

2022

6. Improved monitoring and diagnosis of transformer solid insulation using pertinent chemical indicators

Author

Behjat, Vahid, Emadifar, Reza, Pourhossein, Mehrdad, Ungarala, Mohan Rao, Fofana, Issouf, Najjar, Reza, Behjat, Vahid, Emadifar, Reza, Pourhossein, Mehrdad, Ungarala, Mohan Rao, Fofana, Issouf, and Najjar, Reza

Abstract

Transformers are generally considered to be the costliest assets in a power network. The lifetime of a transformer is mainly attributable to the condition of its solid insulation, which in turn is measured and described according to the degree of polymerization (DP) of the cellulose. Since the determination of the DP index is complex and time-consuming and requires the transformer to be taken out of service, utilities prefer indirect and non-invasive methods of determining the DP based on the byproduct of cellulose aging. This paper analyzes solid insulation degradation by measuring the furan concentration, recently introduced methanol, and dissolved gases like carbon oxides and hydrogen, in the insulating oil. A group of service-aged distribution transformers were selected for practical investigation based on oil samples and different kinds of tests. Based on the maintenance and planning strategy of the power utility and a weighted combination of measured chemical indicators, a neural network was also developed to categorize the state of the transformer in certain classes. The method proved to be able to improve the diagnostic capability of chemical indicators, thus providing power utilities with more reliable maintenance tools and avoiding catastrophic failure of transformers.

Published

2021

7. Fullers earth treatment for esters liquids used in power apparatuses: Inferences and arguments

Author

Fofana, Issouf, Bergeron, Yohan, Gagnon, Marie-Pier, Tremblay, Jonathan, Loiselle, Luc, Yapi, Kouba Marie Lucia, Ungarala, Mohan Rao, Fofana, Issouf, Bergeron, Yohan, Gagnon, Marie-Pier, Tremblay, Jonathan, Loiselle, Luc, Yapi, Kouba Marie Lucia, and Ungarala, Mohan Rao

Abstract

Insulating Liquids are widely used for their electrical and thermal properties in power apparatuses, particularly at the level of liquid-filled transformers. With the shift in engineering aspects towards sustainable development, it is important to find a sustainable solution with ecofriendly nature. Therefore, alternative (biodegradable) liquids are of high importance in the global transformer communities. In the present study, the alternative dielectric fluids (ester-based) feasibility for potential regeneration with Fuller’s earth is investigated. The experimental results are confined to the reclamation temperature as well as the ratio of Fuller's earth (the sorbent) and the liquid. A suitable laboratory treatment apparatus is designed and is adopted in this study. Promising measurements to comment on the effectiveness of the treatment have been performed at controlled treatment temperature and sorbent-liquid ratio with the ASTM 7150-13 as a reference norm.The results of this study allowed 80°C and 1 g/30 ml as affirmative conditions for the present experimental conditions. Diagnostic measurements include turbidity, particle counter, and UV spectrophotometry before and after treatments. It is inferred that fuller’s earth is not a promising sorbent for the reclamation of ester liquids.

Published

2021

8. Perspectives of convertors and communication aspects in automated vehicles, part 2: Printed antennas and sensors for automotive radars

Author

Darimireddy, Naresh K., Ungarala, Mohan Rao, Park, Chan-Wang, Fofana, Issouf, Sujatha, M., Verma, Anant K., Darimireddy, Naresh K., Ungarala, Mohan Rao, Park, Chan-Wang, Fofana, Issouf, Sujatha, M., and Verma, Anant K.

Abstract

Automated vehicles are becoming popular across the communities of e-transportation across the globe. Hybrid electric vehicles and autonomous vehicles have been subjected to critical research for decades. The research outcomes pertinent to this topic in the literature have been motivated by the industry and researchers to emphasize automated vehicles. Part 1 of this survey addressed the critical aspects that concern the bidirectional converter topologies and condition monitoring activities. In the present part, 24- and 77-GHz low-profile printed antennas are studied for automotive radar applications. These antennas are mounted on automated vehicles to avoid collision and are used for radio tracking applications. The present paper states the types of antenna structures, feed mechanisms, dielectric material requirements, design techniques, performance parameters, and challenges at 24- and 77-GHz resonating frequency applications. The recent developments in feed methodologies, beam scanning concepts, and the effect of sidelobe levels are addressed. Furthermore, the reasons behind the transition from 24 to 77 GHz are reported in detail. The recent advances in the application of various sensor schemes in an automated vehicle have also been discussed.

Published

2021

9. Perspectives of convertors and communication aspects in automated vehicles, Part 1: Convertors and condition monitoring

Author

Ungarala, Mohan Rao, Verma, Anant K., Darimireddy, Naresh K., Fofana, Issouf, Park, Chan-Wang, Vedik, B., Ungarala, Mohan Rao, Verma, Anant K., Darimireddy, Naresh K., Fofana, Issouf, Park, Chan-Wang, and Vedik, B.

Abstract

A critical survey has been conducted on high energy-efficient bidirectional converters, various topologies that effectively meet the automated vehicle requirements, and 24 GHz/77 GHz low-profile antennas (for automotive radar applications). The present survey has been identified into two parts on the current topic of study as perspectives and challenges. Part 1 of this survey covers energy-efficient power electronic convertor topologies and condition monitoring aspects of convertors to enhance the lifespan and improve performance. Condition-monitoring issues concerning the abnormalities of electrical components, high switching frequencies, electromagnetic interference, leakage currents, and unwanted joint ruptures have also been emphasized. It is observed that composite converters are proficient for automated hybrid electric vehicles due to fast dynamic response and reduced component count. Importantly, electrical component failures in power electronic converters are most common and need attention for the effective operation of the bidirectional converters. Hence, condition monitoring implementation schemes have also been summarized. Part 2 of this survey focuses on 24 and 77 GHz low-profile (microstrip-based) antennas for automotive radar applications, types of antenna structures, feed mechanisms, dielectric material requirements, design techniques, and performance parameters. The discussion in Part 2 also covers feed methodologies, beam scanning concepts, and side-lobe levels on the autonomous vehicle communication activities.

Published

2021

10. Temperature dependence of the pre-breakdown and breakdown phenomena in natural esters under AC stress

Author

Sékongo, Beki, Ungarala, Mohan Rao, Fofana, Issouf, Jabbari, Marouane, Akre, Simplice, Yeo, Zie, Sékongo, Beki, Ungarala, Mohan Rao, Fofana, Issouf, Jabbari, Marouane, Akre, Simplice, and Yeo, Zie

Abstract

Natural ester dielectric fluids are being used as alternatives for mineral insulating oils in oil-filled power apparatuses. Although partial discharges (PDs) are recognised as one of the main causes of degradation of dielectrics used in power equipment, their characteristic voltages appear to be temperature-dependent. In this contribution, the pre-breakdown and breakdown behaviour of two natural ester fluids, extracted from canola oil (NE1) and soybean oil (NE2) is reported. To assess the effectiveness of the temperature dependence, −5, 0, and + 20°C have been identified as test temperatures. It was found that the different pre-breakdown and breakdown characteristic voltages increase with increasing temperature for both types of esters. The delay time is always longer for canola oil when compared to soybean oil regardless of the test temperature. The analysis of the average propagation velocity of NE1 and NE2 indicates that PDs propagate faster in NE2 than in NE1. The field strength at the tip of the needle electrode during the inception of the streamers leading to breakdown indicates that streamers in both oils are propagating in the slow mode. It is found that the temperature has a significant influence on the PDs’ parameters for both fluids.

Published

2020

11. Influence of ageing on oil degradation and gassing tendency under high-energy electrical discharge faults for mineral oil and synthetic ester

Author

Loiselle, Luc, Ungarala, Mohan Rao, Fofana, Issouf, Loiselle, Luc, Ungarala, Mohan Rao, and Fofana, Issouf

Abstract

In this work, mineral oil and synthetic esters were selected at different ageing factors (based on acidity values). Fresh and aged oils have been subjected to high-energy discharges (repeated 100 breakdowns) to simulate electric faults of highly vulnerable intensity. The intent of this work is to understand the influence of high-energy electric faults on oil degradation and gassing tendency at different ageing conditions. In this study, the influence of the high-energy discharges on degradation and gassing tendency at different ageing factors is reported for mineral oil and synthetic esters. Oil degradation is reported by adopting ultraviolet spectroscopy, turbidity and particle counter as per american society for testing and materials (ASTM) standard test methods. Gassing tendencies and fault gas analysis are understood by dissolved the gas analysis using Duval's triangle and Duval's pentagon methods for mineral and non-mineral oils. It is found that the influence of high-energy discharges on oil degradation is higher in mineral oils to that of the synthetic esters. The intensity of the gassing tendency is higher for ester fluids; however, as per the Duval methods, the faulty conditions are at lower levels as compared to mineral oils.

Published

2020

12. A review on pre-breakdown phenomena in ester fluids: Prepared by the international study group of IEEE DEIS liquid dielectrics technical committee

Author

Ungarala, Mohan Rao, Fofana, Issouf, Beroual, Abderrahmane, Rozga, P., Pompili, M., Calcara, L., Rapp, Kevin J., Ungarala, Mohan Rao, Fofana, Issouf, Beroual, Abderrahmane, Rozga, P., Pompili, M., Calcara, L., and Rapp, Kevin J.

Abstract

In view of the contemporary scenario and importance of alternative liquid dielectrics, IEEE DEIS Technical Committee on Liquid Dielectrics laid emphasis on pre-breakdown phenomena of ester dielectric fluids. The present article reports the background knowledge on the breakdown theories and behavior of streamers in insulating oils. The major influencing properties of the streamers aroused in liquid insulating systems are discussed keeping in view of the ester based dielectric fluids. Importantly, modelling of streamers, testing approaches, and review of pre-breakdown phenomena in ester dielectric fluids has been presented.

Published

2020

13. On some imperative IEEE Standards for usage of natural ester liquids in transformers

Author

Ungarala, Mohan Rao, Fofana, Issouf, N'cho, Janvier Sylvestre, Ungarala, Mohan Rao, Fofana, Issouf, and N'cho, Janvier Sylvestre

Abstract

From the recent past, biodegradable dielectric fluids are becoming popular across the global utilities for use in oil-filled transformers. To date, several utilities have started using biodegradable insulating fluids for new and retro-filled power and distribution transformers. The intent of this article is to compare and analyze various aspects that are involved in the successful operation and maintenance of mineral oil and ester filled transformers. The comparative analysis in this article is aimed at properties, condition monitoring, diagnostic, and reclamation aspects of ester filled transformers. The imperative and pertinent standards, including IEEE Std C57.106, IEEE Std C57.104, IEEE Std 637, IEEE Std C57.147, and IEEE Std C57.155 remain the target objectives for potential analysis. It is hoped that this critical analysis will be useful for utility and condition monitoring engineers in understanding several key aspects of ester fluids vis-à-vis traditional insulating fluids. The present analysis might also be useful for researchers and industry interested in alternative dielectric fluids for transformer insulation technology.

Published

2020

14. Gassing tendency of fresh and aged mineral oil and ester fluids under electrical and thermal fault conditions

Author

Loiselle, Luc, Ungarala, Mohan Rao, Fofana, Issouf, Loiselle, Luc, Ungarala, Mohan Rao, and Fofana, Issouf

Abstract

Operational factors are known to affect the health of an in-service power transformer and to reduce the capabilities and readiness for energy transmission and distribution. Hence, it is important to understand the degradation rate and corresponding behavioral aspects of different insulating fluids under various fault conditions. In this article, the behavior of mineral oil and two environmentally friendly fluids (a synthetic and a natural ester) are reported under arcing, partial discharges, and thermal fault conditions. Arcing, partial discharges and thermal faults are simulated by 100 repeated breakdowns, top oil electrical discharge of 9 kV for five hours, and local hotspots respectively by using different laboratory-based setups. Some physicochemical properties along with the gassing tendency of fresh and aged insulating liquids are investigated after the different fault conditions. UV spectroscopy and turbidity measurements are used to report the degradation behavior and dissolved gas analysis is used to understand the gassing tendency. The changes in the degradation rate of oil under the influence of various faults and the corresponding dissolved gasses generated are analyzed. The fault gas generations are diagnosed by Duval’s triangle and pentagon methods for mineral and non-mineral oils. It is inferred that; the gassing tendency of the dielectric fluids evolve with respect to the degradation rate and is dependent on the intensity and type of fault.

Published

2020

15. Influence of aging on oil degradation and gassing tendency for mineral oil and synthetic ester under low energy discharge electrical faults

Author

Loiselle, Luc, Ungarala, Mohan Rao, Fofana, Issouf, Loiselle, Luc, Ungarala, Mohan Rao, and Fofana, Issouf

Abstract

The intent of this work is to understand the influence of low energy discharge electric faults in mineral oil and synthetic esters on liquid degradation and gassing tendency at different aging conditions (based on acidity values). A low energy discharge electric fault has been created by continuous discharge of 9 kV for five hours on the liquid surface using a suitable laboratory setup. Liquid degradation is reported by adopting UV spectroscopy, turbidity, and particle counter measurements. The gassing tendency is understood by dissolved gas analysis using Duval’s triangle and Duval’s pentagon methods for mineral oil and non-mineral oils accordingly. It is observed that the influence of low energy discharges on liquid degradation is higher in mineral oils than synthetic esters. The fault gasses in mineral oil are involved with electrical and thermal faults accompanied by stray gassing whereas only partial discharge activity is noticed for synthetic esters. Importantly, the existence of low energy discharge faults like corona discharges will involve a generation of excess high molecular weight products as compared to low molecular weight products that are soluble in liquid volume.

Published

2020

16. Mineral oil and ester based oil/paper insulation decaying assessment by FTIR measurements

Author

Ungarala, Mohan Rao, Fofana, Issouf, Kartheek, R., Yapi, K. M. L., Jaya, T., Ungarala, Mohan Rao, Fofana, Issouf, Kartheek, R., Yapi, K. M. L., and Jaya, T.

Abstract

Esters based dielectric fluids have been widely researched since 1990’s for application in high voltage insulation applications. Since then, researchers are affirmative towards usage of ester based insulating fluids as a replicated to mineral insulation oils. The operating properties and aging performance of ester oils proved to be potential candidates for high voltage applications. In view of high temperatures and longevity of insulation systems, there also is a need to understand the chemical perspectives along with aging behaviour of ester oils. Accelerated aging of oil/paper insulation associated with mineral oil and synthetic ester with cellulose insulant has been experimentally simulated as per ASTM D 1934 at 115 ℃. Fourier Transform Infrared spectroscopy analysis of oils and cellulose papers is carried out at different aging factors. The compositional changes in oils and cellulose kraft paper with aging have been enumerated. The changes in the absorbance area for appropriate functional groups have been also reported. It is found that, the chemical stability of synthetic esters is superior to that of the mineral oil.

Published

2019

17. Alternative dielectric fluids for transformer insulation system: progress, challenges, and future prospects

Author

Ungarala, Mohan Rao, Fofana, Issouf, Jaya, T., Rodriguez-Celis, Esperanza, Jalbert, Jocelyn, Picher, Patrick, Ungarala, Mohan Rao, Fofana, Issouf, Jaya, T., Rodriguez-Celis, Esperanza, Jalbert, Jocelyn, and Picher, Patrick

Abstract

Ester-based dielectric fluids have gained widespread popularity for applications in high voltage apparatus. Synthetic and natural esters have been subjected to research for decades vis-à-vis mineral insulating oils around the world. Although many researchers favor the application of ester fluids, utilities are still uncertain and application of these alternatives remains a challenge. The intent of this survey is to present recent research progress and highlight the state of the art of key aspects that should be emphasized in future research. The contemporary research scenarios pertaining to the performance of ester fluids versus mineral oils, miscibility, and retrofilling of insulating fluids are discussed. In addition, pre-breakdown phenomena, usage of esters in on-load tap changers, environmental and fire resistance properties, and use of esters in cold climates are also discussed. Importantly, challenges and future aspects that should be investigated to improve the existing knowledge of ester dielectric fluids for applications in transformer technology are highlighted.

Published

2019

18. Regeneration of transformer insulating fluids using membrane separation technology

Author

Safiddine, Leila, Zafour, Amel Hadj-Ziane, Ungarala, Mohan Rao, Fofana, Issouf, Safiddine, Leila, Zafour, Amel Hadj-Ziane, Ungarala, Mohan Rao, and Fofana, Issouf

Abstract

Oxidation of oil/paper insulation initiates premature aging and introduces carboxylic acids with eventual increase in oil acidity, which hampers the properties of the oil. In this paper, a membrane separation technology-based purification process for aged insulation oil has been evaluated and reported. The intent of the present study is to eliminate carboxylic acids, dissolved decay contents and other colloidal contamination present in aged oil and enhance the useful life of oil. The potential of the membrane treatment process has been demonstrated using Ultraviolet Visible Infrared Spectroscopy and Fourier Transform Infrared Spectroscopy diagnostic measurements for oil and membrane. Additionally, membrane retention properties like membrane flux, retention coefficient, sorption time and membrane mass have been analyzed to understand the treatment process. To further evaluate the performance of the membrane and effectiveness of the treatment process, acidity, dielectric dissipation factor, relative permittivity, and resistivity measurements of the oil before and after filtration have been also reported. The proposed membrane purification method has been tested for Algerian utility in-service oil samples. It is inferred that, membrane filtration method is a simple and effective method for treatment of aged oils and aids in extending the remnant life of the oil. The procedure is economically attractive because of increasing prices for transformer liquids, cost effective and environmentally sounds.

Published

2019